US20080057590A1 - Markers associated with arteriovascular events and methods of use thereof - Google Patents
Markers associated with arteriovascular events and methods of use thereof Download PDFInfo
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- US20080057590A1 US20080057590A1 US11/811,441 US81144107A US2008057590A1 US 20080057590 A1 US20080057590 A1 US 20080057590A1 US 81144107 A US81144107 A US 81144107A US 2008057590 A1 US2008057590 A1 US 2008057590A1
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- arterioriskmarkers
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Definitions
- the present invention relates generally to the identification of biological markers associated with arteriovascular events and methods of using such biological markers in screening, prevention, diagnosis, therapy, monitoring, and prognosis of arteriovascular disease.
- Arteriovascular disease continues to be a leading cause of morbidity and mortality among adults in Europe and North America. Although age-adjusted death rates have declined over the past two decades, the absolute mortality rate from arteriovascular disease has not. Arteriovascular disease accounts for over one-half million deaths (1 out of every 5) in the U.S. yearly. The lifetime risk of arteriovascular disease after age 40 has been estimated at 49% for men and 32% for women. Even for those who survive to age 70 years, the lifetime risk for arteriovascular disease has been estimated at 35% for men and 24% for women. Arteriovascular diseases include atherosclerosis and atherothrombosis, coronary artery disease (CAD), peripheral artery disease (PAD), and cerebrovascular disease (CVD).
- CAD coronary artery disease
- PAD peripheral artery disease
- CVD cerebrovascular disease
- Risk factors for arteriovascular disease currently account for a large proportion of the burden of heart disease in the United States, suggesting that risk-factor identification and risk-lowering treatments could postpone or prevent the majority of ateriovascular events.
- Identified risk factors for arteriovascular disease include independent risk factors, such as cigarette smoking, elevated blood pressure (hypertension), elevated serum total cholesterol (CHOL) and low-density lipoprotein (LDL) cholesterol, low serum high-density lipoprotein (HDL) cholesterol, diabetes mellitus, and advancing age.
- Conditional risk factors for arteriovascular disease include elevated serum triglycerides (TRIG), small LDL particles, elevated serum homocysteine levels, elevated serum lipoprotein (a) (LPA), prothrombotic factors such as fibrinogen (FGA), and inflammatory markers like C-reactive protein (CRP), whose contribution to risk may vary upon their relationship to other identified risk factors.
- Other risk factors include obesity (measured by weight (WT), height (HT), Body Mass Index (BMI), and abdominal girth comparisons such as waist (“Waist”) or hip (“Hip”) circumference, ankle-brachial index, physical inactivity, family history of arteriovascular disease, ethnicity, and psychosocial factors.
- Arteriovascular disease risk factors have been the subject of many studies, including those presented in Pasternak, R. C. et al (2003) JACC 41(11): 1855-1917 and Grundy, S. M. (1999) Circulation 100: 988-998.
- a patient suspected of having arteriovascular disease is assessed on several of the “traditional” or “conventional” risk factors: age, sex, total cholesterol concentration, HDL and LDL cholesterol concentration, smoking status, diabetic status, and blood pressure (systolic and diastolic), as well as many of the above conditional risk factors, such as LPA, FGA, CRP, and homocysteine, amongst others.
- risk factors have been incorporated into useful predictive models of future arteriovascular events, such as the Framingham Risk Score presented in Wilson, P.
- While performance metrics for global risk assessment indices may evidence high clinical utility in the population in which the index algorithm was trained, occasionally exhibiting an AUC as high as 0.8, but more commonly an AUC around 0.7 (Wilson et al. above reported 0.74 for men and 0.77 for females for the Framingham Risk Score), such predictive models show relatively low transferability between populations, which may differ based on genetic and other factors, and absent substantial recalibration and re-optimization, often the AUC will drop to below 0.65, as shown in the example. They also are often difficult for clinicians to effectively implement and perform within an active clinical environment, involving complex calculations and numerical manipulations.
- Tabibiazar R. et al., in US Patent Publication 2007/0070099239 A1 published May 3, 2007, disclosed the use of several specific panels of biomarkers combined with various algorithms and analytical processes, in the discrimination and classification of atherosclerotic patients with past acute myocardial infarction from such patients with known stable cardiovascular disease, from those with no history of cardiovascular disease or atherosclerosis, or amongst various classification of atherosclerotic staging and current medication use within known atherosclerotic patients.
- various “predictive” algorithms are mentioned therein, and the suggestion made that certain of such disclosed biomarker panels may be useful in the prediction of future cardiovascular events, no specific panel for prediction of future cardiovascular events or future cardiovascular status tested within an asymptomatic and previously undiagnosed population is disclosed.
- the present invention relates in part to the discovery that certain biological markers, such as proteins, nucleic acids, polymorphisms, metabolites, and other analytes, as well as certain physiological conditions and states, are present in subjects with an increased risk of arteriovascular events, such as, but not limited to, acute coronary syndromes such as myocardial infarction and unstable angina, as well as other acute events associated with an arteriovascular disease, including those associated with atherosclerosis, atherothrombosis, coronary artery disease (CAD), peripheral artery disease (PAD), and cerebrovascular disease (CVD), but where such subjects do not exhibit some or all of the traditional risk factors of these diseases, or subjects who are asymptomatic for these diseases.
- arteriovascular events such as, but not limited to, acute coronary syndromes such as myocardial infarction and unstable angina, as well as other acute events associated with an arteriovascular disease, including those associated with atherosclerosis, atherothrombosis, coronary artery disease (CAD), peripheral artery disease
- the invention provides biological markers of arteriovascular events that, when used together in combinations of three or more such biomarker combinations, or “panels,” can be used to assess the risk of subjects experiencing said arteriovascular events, to diagnose or identify subjects with an arteriovascular disease, to monitor the risk factors for development of an arteriovascular disease, to monitor subjects that are undergoing therapies for an arteriovascular disease, to differentially diagnose disease states associated with an arteriovascular disease from other diseases or within sub-classifications of arteriovascular diseases, to evaluate changes in the risk of arteriovascular events in subjects with an arteriovascular disease, and to select or modify therapies or interventions for use in treating subjects with an arteriovascular disease, or for use in subjects who are at risk for developing an arteriovascular disease.
- An aspect of the present invention provides use of a panel of biological markers, some of which are unrelated to arteriovascular disease or have not heretofore been identified as related to the risk of future arteriovascular disease or events, but are related to early biological changes that can lead to the development of arteriovascular disease or arteriovascular events, to detect and identify subjects who exhibit none of the symptoms or few or none of the traditional risk factors for arteriovascular disease, i.e., who are asymptomatic for arteriovascular disease and have only non-specific indicators of potential arteriovascular events, such as arteriovascular risk factors, or who exhibit none or few of the traditional risk factors of arteriovascular disease, yet remain at risk.
- biomarkers disclosed herein have shown little individual significance in the diagnosis of arteriovascular disease, or individually for assessing the risk of arteriovascular disease or events, but when used in combination with other disclosed biomarkers and combined with the various herein disclosed algorithms, traditional laboratory risk factors of arteriovascular disease, and other clinical parameters of arteriovascular disease, become significant discriminates of a subject having arteriovascular disease or a subject who is at risk for developing an arteriovascular event, from one who is not at risk for arteriovascular disease or is not at significant risk of developing arteriovascular disease or an arteriovascular event.
- the methods of the present invention provide an improvement over currently available methods of risk evaluation of the development of arteriovascular disease and/or arteriovascular events in a subject by measurement of the biomarkers defined herein.
- an aspect of the invention is directed to a method for assessing a risk of developing an arteriovascular disease in a subject.
- the method allows for assessing risk with a predetermined level of predictability.
- the method includes, measuring a level of an effective amount of two or more ARTERIORISKMARKERS.
- the ARTERIORISKMARKERS may include one or more of the ARTERIORISKMARKERS 1-1023, which markers are in a sample obtained from the subject.
- the level of expression of five or more, ten-or more, twenty-five or more, or fifty or more ARTERIORISKMARKERS are measured.
- the method may further include measuring a clinically significant alteration in the level of the two or more ARTERIORISKMARKERS in the sample, for instance, where the alteration indicates an increased risk of developing an arteriovascular disease in the subject.
- an aspect of the subject invention is directed to a method of diagnosing or identifying a subject having an arteriovascular disease.
- the method allows for assessing risk with a predetermined level of predictability.
- the method includes measuring the level of an effective amount of two or more ARTERIORISKMARKERS that are selected from ARTERIORISKMARKERS 1-1023 in a sample from the subject.
- the method may further include comparing the level of the effective amount of the two or more ARTERIORISKMARKERS to a reference value.
- the reference value may be an index value or may be may be derived from one or more risk prediction algorithms or computed indices for the arteriovascular disease.
- an aspect of the subject invention is directed to a method for assessing the progression of an arteriovascular disease in a subject.
- the method allows for assessing the progression of an arteriovascular disease in a subject with a predetermined level of predictability.
- the method includes detecting the level of an effective amount of two or more ARTERIORISKMARKERS selected from ARTERIORISKMARKERS 1-1023 in a first sample from the subject at a first period of time, detecting the level of an effective amount of two or more ARTERIORISKMARKERS in a second sample from the subject at a second period of time, and comparing the level of the effective amount of the two or more ARTERIORISKMARKERS detected in the first step to the amount detected in second step, or to a reference value.
- the first sample is taken from the subject prior to being treated for the arteriovascular disease and/or the second sample is taken from the subject after being treated for the arteriovascular disease.
- the reference value is derived from one or more subjects who have suffered from an arteriovascular event.
- an aspect of the subject invention is directed to a method for monitoring the effectiveness of treatment for an arteriovascular disease.
- the method allows for monitoring the effectiveness of treatment for an arteriovascular disease in a subject with a predetermined level of predictability.
- the method includes detecting the level of an effective amount of two or more ARTERIORISKMARKERS selected from ARTERIORISKMARKERS 1-1023 in a first sample from a subject at a first period of time; detecting the level of an effective amount of two or more ARTERIORISKMARKERS in a second sample from the subject at a second period of time; and comparing the level of the effective amount of the two or more ARTERIORISKMARKERS detected in the first step to the amount detected in the second step, or to a reference value, wherein the effectiveness of treatment is monitored by a change in the level of the effective amount of two or more ARTERIORISKMARKERS from the subject.
- the treatment for the arteriovascular disease to be monitored includes exercise regimens, dietary supplements, therapeutic agents, surgical intervention, and prophylactic agents.
- the effectiveness of treatment is additionally monitored by detecting changes in body mass index (BMI), total cholesterol levels, LDL levels, HDL levels, systolic and/or diastolic blood pressure, or combinations thereof.
- BMI body mass index
- the reference value is derived from one or more subjects who show an improvement in arteriovascular risk factors as a result of one or more treatments for arteriovascular disease.
- an aspect of the subject invention is directed to a method for selecting a treatment regimen for a subject diagnosed with or at risk for an arteriovascular disease.
- the method allows for selecting a treatment regimen for a subject diagnosed with or at risk for an arteriovascular disease with a predetermined level of predictability.
- the method includes detecting the level of an effective amount of two or more ARTERIORISKMARKERS selected from ARTERIORISKMARKERS 1-1023 in a first sample from the subject at a first period of time, optionally detecting the level of an effective amount of two or more ARTERIORISKMARKERS in a second sample from the subject at a second period of time and comparing the level of the effective amount of the two or more ARTERIORISKMARKERS detected in the first step to a reference value, or optionally to an amount detected in the second step.
- the reference value is derived from one or more subjects who show an improvement in arteriovascular disease risk factors as a result of one or more treatments for the arteriovascular disease.
- the improvement may be monitored by an imaging modality, by detecting a reduction in body mass index (BMI), a reduction in total cholesterol levels, a reduction in LDL levels, an increase in HDL levels, a reduction in systolic and/or diastolic blood pressure, or combinations thereof.
- BMI body mass index
- a reduction in total cholesterol levels a reduction in LDL levels
- an increase in HDL levels a reduction in systolic and/or diastolic blood pressure, or combinations thereof.
- the imaging modality may include one or more of: computed tomography (CT), optical coherence tomography (OCT), intravascular ultrasonography (IVUS), high-resolution IVUS, elastography (palpography), angioscopy, electron beam computed tomography (EBCT), magnetic resonance imaging (MRI), positron emission tomography (PET), single photon emission computed tomography (SPECT), immunoscintigraphy, and invasive angiography.
- CT computed tomography
- OCT optical coherence tomography
- IVUS intravascular ultrasonography
- elastography elastography
- angioscopy angioscopy
- EBCT electron beam computed tomography
- MRI magnetic resonance imaging
- PET positron emission tomography
- SPECT single photon emission computed tomography
- immunoscintigraphy and invasive angiography.
- an aspect of the subject invention is directed to a method for treating one or more subjects at risk for developing an arteriovascular disease.
- the method includes, detecting the presence of increased levels of at least two different ARTERIORISKMARKERS that are present in a sample from the one or more subjects; and treating the one or more subjects.
- the one or more subjects may be treated with one or more arteriovascular disease-modulating drugs until altered levels of the at least two different ARTERIORISKMARKERS return to a baseline value measured in one or more subjects at low risk for developing the arteriovascular disease, or a baseline value measured in one or more subjects who show improvements in arteriovascular risk markers as a result of treatment with one or more arteriovascular disease-modulating drugs.
- the arteriovascular disease-modulating drug comprises ⁇ -blockers, angiotensin-converting enzyme (ACE) inhibitors, diuretics, calcium channel blockers, angiotensin II receptor blockers, antiplatelet agents, anti-coagulant agents, sulfonylureas, biguanides, insulin, thiazolidinediones, nitrates, non-steroidal anti-inflammatory agents, statins, cilostazol, pentoxifylline, buflomedil, naftidrofuryl, and combinations thereof.
- ACE angiotensin-converting enzyme
- the improvements in arteriovascular risk markers may be as a result of treatment with the one or more arteriovascular disease-modulating drugs and may include a reduction in body mass index (BMI), a reduction in total cholesterol levels, a reduction in LDL levels, an increase in HDL levels, a reduction in systolic and/or diastolic blood pressure, or combinations thereof.
- BMI body mass index
- an aspect of the subject invention is directed to a method of differentially diagnosing disease states associated with an arteriovascular disease in a subject.
- the method includes detecting the level of an effective amount of two or more ARTERIORISKMARKERS selected from ARTERIORISKMARKERS 1-1023 in a sample from the subject; and comparing the level of the effective amount of the two or more ARTERIORISKMARKERS detected in the first step to a arteriovascular disease subject expression profile, or to a reference value.
- the arteriovascular disease may include a metabolic syndrome, Syndrome X, atherosclerosis, atherothrombosis, coronary artery disease, heart valve disease, arrhythmia, angina pectoris, cardiomyopathy, congestive heart failure, hypertension, orthostatic hypotension, shock, endocarditis, aortic stenosis, peripheral artery disease, cerebrovascular disease, and/or congenital heart disease.
- the arteriovascular disease may be measured by any method well known in the art, for instance, such as electrophoretically or immunochemically, for instance, by radio-immunoassay, immunofluorescence assay or by an enzyme-linked immunosorbent assay. Additionally, the level of ARTERIORISKMARKERS may be measured by specific oligonucleotide hybridization.
- the subject maybe a subject that has not been previously diagnosed or identified as having or suffering from the arteriovascular disease or the subject may be one that is asymptomatic for the arteriovascular disease. Further, the subject may be one that has previously been identified and/or treated or has not previously been identified and/or treated for the arteriovascular disease. Additionally, the sample may be obtained by any means known in the art and may be serum, blood plasma, blood cells, endothelial cells, tissue biopsies, ascites fluid, bone marrow, interstitial fluid, sputum, urine, or the like.
- an aspect of the subject invention is directed to a method for assessing a risk of plaque development in a subject.
- the method allows for assessing risk with a predetermined level of predictability.
- the method includes measuring the level of an effective amount of two or more ARTERIORISKMARKERS, such as1-1023, in a sample from the subject.
- the method may further include measuring a clinically significant alteration in the level of the two or more ARTERIORISKMARKERS in the sample, for instance, wherein the alteration indicates an increased risk of developing a plaque in the subject.
- the subject has not been previously diagnosed as having a plaque, while in other embodiments the subject is asymptomatic for the plaque.
- an aspect of the subject invention is directed to a method of diagnosing or identifying a subject having a plaque.
- the method allows for diagnosing or identifying a subject having a plaque with a predetermined level of predictability.
- the method includes measuring the level of an effective amount of two or more ARTERIORISKMARKERS selected from ARTERIORISKMARKERS 1-1023 in a sample from the subject. The method may further include comparing the level of the effective amount of the two or more ARTERIORISKMARKERS to a reference value.
- the reference value is an index value and in other embodiments, the reference value is derived from one or more risk prediction algorithms or computed indices for plaque development.
- an aspect of the subject invention is directed to a method for assessing the progression of a plaque formation that associated with atherosclerosis or atherothrombosis in a subject.
- the method allows for assessing the progression of a plaque formation that associated with atherosclerosis or atherothrombosis in a subject with a predetermined level of predictability.
- the method includes detecting the level of an effective amount of two or more ARTERIORISKMARKERS selected from ARTERIORISKMARKERS 1-1023 in a first sample from the subject at a first period of time; detecting a level of an effective amount of two or more ARTERIORISKMARKERS in a second sample from the subject at a second period of time; and comparing the level of the effective amount of the two or more ARTERIORISKMARKERS detected in the first step to the amount detected in the second step, or to a reference value.
- the reference value is derived from one or more subjects who have suffered from plaque rupture.
- an aspect of the subject invention is directed to a method for evaluating changes in the risk of plaque formation in a subject diagnosed with or at risk for developing atherosclerosis or atherothrombosis.
- the method includes detecting the level of an effective amount of two or more ARTERIORISKMARKERS selected from ARTERIORISKMARKERS 1-1023 in a first sample from the subject at a first period of time; optionally detecting the level of an effective amount of two or more ARTERIORISKMARKERS in a second sample from. the subject at a second period of time; and comparing the level of the effective amount of the two or more ARTERIORISKMARKERS detected in the first step to a reference value, or optionally, to the amount in the second step.
- the first sample is taken from the subject prior to being treated for the atherosclerosis or atherothrombosis and/or the second sample is taken from the subject after being treated for the atherosclerosis or atherothrombosis.
- the treatment for atherosclerosis or atherothrombosis comprises exercise regimens, dietary supplements, therapeutic agents, surgical intervention, and prophylactic agents.
- the reference value is derived from one or more subjects who have suffered from plaque rupture.
- the subject is suffering from atherosclerosis or atherothrombosis.
- the subject may or may not have been previously diagnosed or identified as having a plaque, suffering from atherosclerosis and/or atherothrombosis; and/or may or may not have been previously treated for atherosclerosis or atherothrombosis.
- the subject may be asymptomatic for the plaque, atherosclerosis or atherothrombosis.
- the first sample is taken from the subject prior to being treated for the atherosclerosis or atherothrombosis and/or the second sample is taken from the subject after being treated for the atherosclerosis or atherothrombosis.
- an aspect of the subject invention is directed to an arteriovascular disease reference expression profile that includes a pattern of marker levels of an effective amount of two or more markers selected from ARTERIORISKMARKERS 1-1023, which is taken from one or more subjects who do not have the arteriovascular disease.
- the subject invention is directed to an atherosclerosis or atherothrombosis reference expression profile that includes a pattern of marker levels of an effective amount of two or more markers selected from ARTERIORISKMARKERS 1-1023, which are taken from one or more subjects who do not have atherosclerosis or atherothrombosis.
- the subject invention is directed to an arteriovascular disease subject expression profile, that includes a pattern of marker levels of an effective amount of two or more markers selected from ARTERIORISKMARKERS 1-1023, which are taken from one or more subjects who have the arteriovascular disease, are at risk for developing the arteriovascular disease, or are being treated for the arteriovascular disease.
- the subject invention is directed to an atherosclerosis or atherothrombosis subject expression profile, that includes a pattern of marker levels of an effective amount of two ore more markers selected from ARTERIORISKMARKERS 1-1023, which are taken from one or more subjects who have atherosclerosis or atherothrombosis and maybe at risk for developing atherosclerosis or atherothrombosis, or may be being treated for atherosclerosis or atherothrombosis.
- an aspect of the subject invention is directed to an array that includes a plurality of ARTERIORISKMARKER detection reagents, which detect the corresponding ARTERIORISKMARKERS selected from ARTERIORISKMARKERS 1-1023, and are sufficient to generate a profile(s).
- the detection reagent includes one or more antibodies or fragments thereof, one or more oligonucleotides, one or more aptamers, one or more arteriovascular disease reference expression profiles and/or optionally, additional test results and subject information.
- an aspect of the subject invention is directed to a machine readable media containing one or more of the atherosclerosis or atherothrombosis reference expression profiles and optionally, additional test results and subject information.
- an aspect of the subject invention is directed to a method of tracking a subject's status that includes collecting an arteriovascular disease reference expression profile and reporting the expression profile to a center.
- an aspect of the subject invention is directed to an ARTERIORISKMARKER panel.
- the one or more. ARTERIORISKMARKERS are indicative of a physiological pathway associated with an arteriovascular disease.
- the physiological pathway comprises inflammation, platelet aggregation, apoptosis, angiogenesis, lipid metabolism, necrosis, or vascular calcification.
- an aspect of the subject invention is directed to an ARTERIORISKMARKER panel that includes one or more ARTERIORISKMARKERS that are indicative of a site associated with an arteriovascular disease.
- the site includes one or more coronary arteries, peripheral arteries, or cerebrovascular arteries.
- an aspect of the subject invention is directed to an ARTERIORISKMARKER panel that includes one or more ARTERIORISKMARKERS that are indicative of the progression of an arteriovascular disease.
- an aspect of the subject invention is directed to an ARTERIORISKMARKER panel that includes one or more ARTERIORISKMARKERS that are indicative of the speed of progression of an arteriovascular disease.
- an aspect of the subject invention is directed to an ARTERIORISKMARKER panel that includes one or more ARTERIORISKMARKERS that are specific to one or more arteriovascular diseases.
- an aspect of the subject invention is directed to a method of evaluating changes in the risk of an arteriovascular event in a subject diagnosed with an arteriovascular disease.
- the method includes detecting the level of an effective amount of two or more ARTERIORISKMARKERS selected from ARTERIORISKMARKERS 1-1023 in a first sample from the subject at a first period of time; optionally detecting the level of an effective amount of two or more ARTERIORISKMARKERS in a second sample from the subject at a second period of time and comparing the level of the effective amount of the two or more ARTERIORISKMARKERS detected in the first step to a reference value, or optionally, to the amount in the second step.
- the subject has previously been treated for the arteriovascular disease.
- the subject is asymptomatic for the arteriovascular disease.
- the first sample is taken from the subject prior to being treated for the arteriovascular disease and/or the second sample is taken from the subject after being treated for the arteriovascular disease.
- the reference value is derived from one or more subjects who have suffered from an arteriovascular event.
- the arteriovascular event includes plaque rupture, myocardial infarction, unstable angina, blood clots of the leg, stroke, or aneurysm.
- the method comprises measuring at least three component ARTERIORISKMARKERS for the individual selected from the component ARTERIORISKMARKERS within the groups consisting of Core Markers I, Core Markers II, Traditional Laboratory Risk Factors, Clinical Parameters, Supplemental Markers I, and Supplemental Markers II, provided at least one component ARTERIORISKMARKER is selected from the component ARTERIORISKMARKERS within Core Markers I.
- the method comprises any combination comprising at least two or more component ARTERIORISKMARKERS, providing at least two of such are selected from within Core Markers I.
- POMC in certain aspects, we contemplate the use of POMC alone, while in other aspects POMC is used with other markers.
- POMC is measured by itself and in other embodiments, POMC is used with markers selected from the group comprising HDLC, VEGF, CCL2, IL6ST, IL8, and LEP.
- POMC is measured along with an additional clinical parameter.
- the additional parameters are selected from Age or BMI.
- the invention includes a kit comprising at least one reagent for the detection or quantification of POMC.
- the invention relates to the use of four or more biomarkers from a given subject, with three or more of such biomarkers measured in samples from the subject, and two or more of such markers chosen from a set including angiogenin (ANG), CD40 molecule aka TNF receptor superfamily member 5 (CD40), dipeptidyl-peptidase 4 aka CD26 (DPP4), interleukin 6 signal transducer (IL6ST), proopiomelanocortin aka adrenocorticotropin/beta-lipotropin/alpha-melanocyte stimulating hormone/beta-melanocyte stimulating hormone/beta-endorphin (POMC), vascular cell adhesion molecule 1 (VCAM1), monocyte chemoattractant protein-1 aka MCP-1 (CCL2), insulin-like growth factor I aka somatomedin C(IGF1), leptin (LEP), vascular endothelial growth factor A (VEGF), and a third or more additional biomark
- ANG angio
- biomarkers are combined together by a mathematical process or formula into a single number reflecting the subject's risk for developing an arteriovascular event, or for use in selecting, tailoring, and monitoring effectiveness of various therapeutic interventions, such as treatment of subjects with arteriovascular disease and risk modulating drugs, for said conditions.
- Another embodiment is a method of performance improvement to an existing combination of biomarkers used in multi-biomarker global risk assessment of a patient, and in particular combinations drawing three or more biomarker from the combined groups of Traditional Laboratory Risk Factors and Clinical Parameters, wherein that improvement comprises the addition of at least one, of the ARTERIORISKMARKERS chosen from the groups of Core Markers I or Core Markers 2, and the combination of the results in a new analytical process.
- the invention would cover the addition of POMC to the Framingham Risk Score, or of LEP to a risk factor counting algorithm for the multiple criterias defining metabolic syndrome under NCEP ATP III, or other existing clinical algorithm using the three or more such biomarkers, including the combination of Age, BMI, and CHOL, as well as the combination of such modifiable risk factors as LDL, HDLC, TRIG, CHOL, together with those of SBP, DBP, and Glucose, where such was combined using an analytical process.
- biomarkers beyond any of the starting amounts of biomarkers cited in these preceding preferred embodiments may also be added to the panel from any of ARTERIORISKMARKERS, clinical parameters, and traditional laboratory risk factors.
- FIG. 1 is a table containing key ARTERIORISKMARKERS, including clinical parameters, traditional laboratory risk factors, and together with core, supplemental and additional biomarkers, that are used in the predictive models according to the present invention. These are identified based on the commonly used gene symbol as described in the detailed description on the invention.
- FIG. 2 is a flow chart depicting ARTERIORISKMARKER pathophysiology and progression and biomarker functions, pathways and other categories over the spectrum of arteriovascular disease, including numerical references to the canonical molecular pathways as currently listed within the Kyoto University Encyclopedia of Genes and Genomes (KEGG) web site.
- KEGG Kyoto University Encyclopedia of Genes and Genomes
- FIG. 2 -A is KEGG 4920, depicting the adipocytokine signaling pathway.
- FIG. 2 -B is KEGG 4910, depicting the insulin signaling pathway.
- FIG. 2 -C is KEGG 4060, depicting cytokine—cytokine receptor interaction pathways.
- FIG. 2 -D is KEGG 4514, depicting pathways and interactions between cell adhesion molecules.
- FIG. 2 -E is KEGG 4670, depicting leukocyte transendothelial migration pathways.
- FIG. 2 -F is KEGG.4660, which depicts the T-cell receptor signaling pathway.
- FIG. 2 -G is KEGG 4370, depicting the vascular endothelial growth factor (VEGF) signaling pathway.
- VEGF vascular endothelial growth factor
- FIG. 2 -H is KEGG 4110, which depicts pathways involved in the cell cycle.
- FIG. 2 -I is KEGG 4010, depicting mitogen-activated protein kinase (MAPK) signaling pathways.
- MAPK mitogen-activated protein kinase
- FIG. 2 -J is KEGG 4210 and depicts pathways involved in apoptosis.
- FIG. 2 -K is KEGG 4020, depicting the calcium signaling pathway.
- FIG. 2 -L is KEGG 4610, and depicts the complement and coagulation cascades.
- FIG. 2 -M is KEGG 4512, depicting interactions between the extracellular matrix (ECM) and their receptors.
- FIG. 2 -O is KEGG 0590, depicting pathways involved in arachidonic acid metabolism.
- FIG. 2 -P is KEGG 4810 and depicts pathways involved in regulation of the actin cytoskeleton.
- FIG. 6 is a chart depicting the Receiver Operator Characteristic (ROC) curve of a global risk assessment index according to the Framingham model for risk of future cardiovascular events, as measured and calculated for the Example 1 populations (sensitivity and specificity of the Framingham model to cardiovascular events excluding stroke patients from the analysis) and with the Area Under the Curve (AUC) statistic of 0.61 calculated and shown in the legend.
- ROC Receiver Operator Characteristic
- FIG. 8 is a chart depicting the ROC curves of a seven biomarker fitted LDA model for risk of future arteriovascular events, as measured and calculated for the Example 1 populations, with the AUC calculated and shown in the legend.
- This LDA model was forward selected from a group limited to blood-bourne ARTERIORISKMARKERS as its sole parameters, and included POMC, HDLC, VEGF, LEP, IL6ST, Ins120, and IGF1 as inputs, with a calculated AUC of 0.8.
- FIG. 9 is a chart depicting the ROC curves of a nine biomarker fitted LDA model for risk of future arteriovascular events, as measured and calculated for the Example 1 populations, with the AUC calculated and shown in the legend.
- This LDA model was forward selected from the complete group of both the selected blood-bourne analyte and clinical parameter ARTERIORISKMARKERS, and included Age, POMC, HDLC, CCL2, BMI, VEGF, IL18, IL6ST, EGF, with a calculated AUC of 0.88.
- FIG. 12 is a table summarizing the complete enumeration of fitted LDA models for all single, two, three, and four ARTERIORISKMARKER combinations possible from a starting set of 61 selected ARTERIORISKMARKERS, including both blood-bourne analytes and clinical parameters.
- the table indicates first the total possible panel combinations, which expands from 61 for single ARTERIORISKMARKERS to 521,855 for four ARTERIORISKMARKER combinations. It then gives the number of combinations which produce fitted LDA models that achieve an equal or greater AUC than that shown as the hurdle in the leftmost column of the table (all as calculated in the populations of Example 1).
- FIGS. 13A-13D are tables listing all 200 individual two marker combinations (10.93% out of a total 1,830 unique combinations possible) achieving an AUC of 0.65 or better according to the analysis summarized previously.
- FIGS. 14 A- 14 TT list all 2,573 individual three marker combinations (7.15% out of a total 1,830 unique combinations possible) achieving an AUC of 0.70 or better according to the analysis summarized previously.
- FIGS. 15 A- 15 FFFFFF lists all 8,153 individual four marker combinations (1.56% out of a total 521,855 unique combinations possible) achieving an AUC of 0.75 or better according to the analysis summarized previously.
- FIG. 16 is a chart depicting the ROC curves of multiple fitted full models, utilizing the best model of any type by achieved ROC curve (chosen from model types including LDA (multiple selection and model size criteria), SVM (Random Forest, Top Kruskal-Wallis), and ELDA (multiple thresholds)) for risk of future arteriovascular events, as measured and calculated for the Example 1 populations.
- This chart encompasses models selected from three different overlapping subsets of ARTERIORISKMARKERS from a total set of 61 selected ARTERIORISKMARKERS.
- ARTERIORISKMARKERS One subset encompassed all “Clinical Marker” ARTERIORISKMARKERS, including both the non-analyte clinical parameters as well as only the blood-bourne traditional laboratory risk factors most commonly used in current global risk assessment models: CHOL, HDLC, LDL, HBA1C, Glucose, and Insulin; it achieved a maximum AUC of 0.82.
- FIG. 17 is a chart depicting the ROC curve of the best blood-bourne ARTERIORISKMARKER model from FIG. 16 , selected from only the blood-borne ARTERIORISKMARKERS, including its AUC statistic of 0.86 as shown in the legend.
- FIG. 18 is a chart depicting the ROC curve of the best total ARTERIORISKMARKER model from FIG. 16 , selected from all 61 possible ARTERIORISKMARKERS, including its AUC statistic of 0.90 as shown in the legend.
- FIGS. 19 A-D provide information on the inputs used under different ARTERIORISKMARKER model types and selection techniques, with resulting “best” models given model design and constraints, within both of the different case populations of Example 1 (excluding stroke from the Case arm) and Example 2 (including stroke in the Case arm).
- markers which are the Core Markers of the invention, across three or more model types, multiple model constraints, and marker selection techniques.
- FIG. 20 is a chart depicting the ROC curve calculated AUC statistics for multiple expanding “best forward selected” LDA models, starting from a single ARTERIORISKMARKER and then at each step adding one more incremental forward selected ARTERIORISKMARKER, re-optimizing the LDA model, and graphing the derived AUC statistic using the results from the Example 2 study populations. This continues through 53 selected ARTERIORISKMARKERS selected from a total set of the selected blood-bourne ARTERIORISKMARKERS, Sex and Family History (FamHX). The AIC is included as in the previous charts.
- the present invention relates to the identification of biomarkers associated with subjects having an arteriovascular disease such as atherosclerosis, atherothrombosis, CAD, PAD, and CVD, are predisposed to or at risk for developing an arteriovascular disease or are predisposed to or at risk of experiencing an acute arteriovascular event. Accordingly, the invention provides methods for identifying subjects who have an arteriovascular disease, or who are predisposed to or at risk for experiencing an arteriovascular event by the detection of biomarkers associated with an arteriovascular disease, including those subjects who are asymptomatic for an arteriovascular disease.
- an arteriovascular disease such as atherosclerosis, atherothrombosis, CAD, PAD, and CVD
- biomarkers are also useful for monitoring subjects undergoing treatments and therapies for an arteriovascular disease, and for selecting or modifying therapies and treatments that would be efficacious in subjects having an arteriovascular disease, wherein selection and use of such treatments and therapies slow the progression of an arteriovascular disease, or substantially delay or prevent its onset, or reduce or prevent the incidence of arteriovascular events.
- “Accuracy” refers to the degree of conformity of a measured or calculated quantity (a test reported value) to its actual (or true) value. Clinical accuracy relates to the proportion of true outcomes (true positives (TP) or true negatives (TN) versus misclassified outcomes (false positives (FP) or false negatives (FN)), and may be stated as a sensitivity, specificity, positive predictive values (PPV) or negative predictive values (NPV), or as a likelihood, odds ratio, among other measures.
- Arteriovascular event is used interchangeably herein with the term “acute arteriovascular event”, “cardiac event”, or “cardiovascular event” and refers to sudden cardiac death, acute coronary syndromes such as, but not limited to, plaque rupture, myocardial infarction, unstable angina, as well as non-cardiac acute arteriovascular events such as blood clots of the leg, aneurysms, stroke and other arteriovascular ischemic events where arteriovascular blood flow and oxygenation is interrupted.
- Biomarkers also include any calculated indices created mathematically or combinations of any one or more of the foregoing measurements, including temporal trends and differences.
- analyte as used herein can mean any substance to be measured and can encompass electrolytes and elements, such as calcium.
- HGNC Human Genome Organization Naming Committee
- CAD coronary artery disease
- ACS acute coronary syndromes
- myocardial infarction heart attack
- angina stable and unstable
- atherosclerosis atherothrombosis that occurs in the blood vessels that supply the heart with oxygen-rich blood.
- An estimated 13 million Americans are currently diagnosed with CAD, with approximately 7 million being the survivors of past acute events. Over 1 million new acute CAD events occur each year, many resulting in death. The lifetime risk of CAD after age 40 is 49 percent for men and 32 percent for women.
- Subjects who are deemed clinically to be at low risk or no risk for developing arteriovascular disease such as CAD often exhibit none or few of the traditional risk factors for the arteriovascular disease, but nevertheless may still be at risk for an acute arteriovascular event.
- Approximately 20% of all acute CAD events occur in subjects with none of the traditional risk factors, and the majority of all acute CAD occur in subjects who have not been previously diagnosed with CAD.
- these subjects do not exhibit the symptoms of an acute CAD event, i.e. shortness of breath and/or chest pain, until the actual occurrence of such an acute event.
- a substantial detection gap remains for those who are at risk for an acute CAD event yet are asymptomatic, without traditional risk factors, or are currently deemed clinically to be at low risk and have not yet been diagnosed with CAD.
- ARTERIORISKMARKER OR “ARTERIORISKMARKERS” encompass one or more of all biomarkers whose levels are changed in subjects who have an arteriovascular disease or are predisposed to developing an arteriovascular disease, or at risk of an arteriovascular event.
- ARTERIORISKMARKERS are summarized in Table 2 and are collectively referred to herein as, inter alia, “arteriovascular event risk-associated proteins”, “ARTERIORISKMARKER polypeptides”, or “ARTERIORISKMARKER proteins”.
- the corresponding nucleic acids encoding the polypeptides are referred to as “cardiac event risk-associated nucleic acids”, “cardiac event risk-associated genes”, “ARTERIORISKMARKER nucleic acids”, or “ARTERIORISKMARKER genes”.
- ARTERIORISKMARKER “cardiac event risk-associated proteins”, “cardiac event risk-associated nucleic acids” are meant to refer to any of the sequences disclosed herein.
- ARTERIORISKMARKER proteins or nucleic acids can also be measured, as well as any of the aforementioned traditional risk marker metabolites previously disclosed, including, without limitation, such metabolites as total cholesterol (CHOL), LDL, HDLC, cholesterol sub-fractions, and glucose, herein referred to as “ARTERIORISKMARKER metabolites”.
- Non-analyte physiological markers of health status e.g., such as age, diastolic or systolic blood pressure, body-mass index, and other non-analyte measurements commonly used as traditional risk factors
- ARTERIORISKMARKER physiology e.g., such as age, diastolic or systolic blood pressure, body-mass index, and other non-analyte measurements commonly used as traditional risk factors
- ARTERIORISKMARKER physiology e.g., such as age, diastolic or systolic blood pressure, body-mass index, and other non-analyte measurements commonly used as traditional risk factors
- “Clinical parameters” encompasses all non-sample or non-analyte biomarkers of subject health status or other characteristics, such as, without limitation, age (Age), ethnicity (RACE), gender (Sex), diastolic blood pressure (DBP) and systolic blood pressure (SBP), family history (FamHX), height (HT), weight (WT), waist (Waist) and hip (Hip) circumference, body-mass index (BMI), as well as others such as Type I or Type II Diabetes Mellitus or Gestational Diabetes Mellitus (DM or GDM, collectively referred to here as Diabetes), and resting heart rate.
- age Age
- RACE ethnicity
- DBP diastolic blood pressure
- SBP systolic blood pressure
- BMI body-mass index
- BMI body-mass index
- CVD cardiovascular disease
- Cerebrovascular disease is an arteriovascular disease in the blood vessels that feed oxygen-rich blood to the face and brain, such as atherosclerosis and atherothrombosis. This term is often used to describe “hardening” of the carotid arteries, which supply the brain with blood. It is a common comorbid disease with CAD and/or PAD. It is also referred to as an ischemic disease, or a disease that causes a lack of blood flow.
- CVD encompasses disease states such as “cerebrovascular ischemia,” “acute cerebral infarction,” “stroke,” “ischemic stroke,” “hemorrhagic stroke,” “aneurysm,” “mild cognitive impairment (MCI)” and “transient ischemic attacks” (TIA).
- Ischemic CVD is believed to closely related to CAD and PAD; non-ischemic CVD may have multiple pathophysiologies.
- An estimated 5 million Americans are the survivors of past diagnosed acute CVD events, with an estimated 700 thousand acute CVD events occurring each year.
- subjects deemed to be at low risk or no risk of CVD based on clinical assessments of traditional arteriovascular disease risk factors, or without symptoms such as TIAs, MCI or severe headache, may still be at risk for an acute CVD event.
- FN is false negative, which for a disease state test means classifying a disease subject incorrectly as non-disease or normal.
- FP is false positive, which for a disease state test means classifying a normal subject incorrectly as having disease.
- a “formula,” “algorithm,” or “model” is any mathematical equation, algorithmic, analytical or programmed process, or statistical technique that takes one or more continuous or categorical inputs (herein called “parameters”) and calculates an output value, sometimes referred to as an “index” or “index value.”
- “formulas” include sums, ratios, and regression operators, such as coefficients or exponents, biomarker value transformations and normalizations (including, without limitation, those normalization schemes based on clinical parameters, such as gender, age, or ethnicity), rules and guidelines, statistical classification models, and neural networks trained on historical populations.
- AIC Akaike's Information Criterion
- BIC Bayes Information Criterion
- the resulting predictive models may be validated in other studies, or cross-validated in the study they were originally trained in, using such techniques as Bootstrap, Leave-One-Out (LOO) and 10-Fold cross-validation (10-Fold CV).
- LEO Leave-One-Out
- 10-Fold cross-validation 10-Fold CV.
- false discovery rates may be estimated by value permutation according to techniques known in the art.
- a “health economic utility function” is a formula that is derived from a combination of the expected probability of a range of clinical outcomes in an idealized applicable patient population, both before and after the introduction of a diagnostic or therapeutic intervention into the standard of care.
- a cost and/or value measurement associated with each outcome, which may be derived from actual health system costs of care (services, supplies, devices and drugs, etc.) and/or as an estimated acceptable value per quality adjusted life year (QALY) resulting in each outcome.
- the sum, across all predicted outcomes, of the product of the predicted population size for an outcome multiplied by the respective outcome's expected utility is the total health economic utility of a given standard of care.
- the difference between (i) the total health economic utility calculated for the standard of care with the intervention versus (ii) the total health economic utility for the standard of care without the intervention results in an overall measure of the health economic cost or value of the intervention.
- This may itself be divided amongst the entire patient group being analyzed (or solely amongst the intervention group) to arrive at a cost per unit intervention, and to guide such decisions as market positioning, pricing, and assumptions of health system acceptance.
- Such health economic utility functions are commonly used to compare the cost-effectiveness of the intervention, but may also be transformed to estimate the acceptable value per QALY the health care system is willing to pay, or the acceptable cost-effective clinical performance characteristics required of a new intervention.
- a health economic utility function may preferentially favor sensitivity over specificity, or PPV over NPV based on the clinical situation and individual outcome costs and value, and thus provides another measure of health economic performance and value which may be different from more direct clinical or analytical performance measures.
- Measurement or “measurement,” or alternatively “detecting” or “detection,” means assessing the presence, absence, quantity or amount (which can be an effective amount) of either a given substance within a clinical or subject-derived sample, including the derivation of qualitative or quantitative concentration levels of such substances, or otherwise evaluating the values or categorization of a subject's non-analyte clinical parameters.
- NDV Neuronal predictive value
- NPV neurotrophic factor
- TN/(TN+FN) the true negative fraction of all negative test results. It also is inherently impacted by the prevalence of the disease and pre-test probability of the population intended to be tested. See, e.g., O'Marcaigh A S, Jacobson R M, “Estimating The Predictive Value Of A Diagnostic Tesi, How To Prevent Misleading Or Confusing Results,” Clin. Ped. 1993, 32(8): 485-491, which discusses specificity, sensitivity, and positive and negative predictive values of a test, e.g., a clinical diagnostic test.
- ROC Receiver Operating Characteristics
- hazard ratios and absolute and relative risk ratios within subject cohorts defined by a test are a further measurement of clinical accuracy and utility.
- Multiple methods are frequently used to defining abnormal or disease values, including reference limits, discrimination limits, and risk thresholds as per Vasan, “Biomarkers of Cardiovascular Disease: Molecular Basis and Practical Considerations,” Circulation 2006, 113: 2335-2362.
- Analytical accuracy refers to the reproducibility and predictability of the measurement process itself, and may be summarized in such measurements as coefficients of variation, and tests of concordance and calibration of the same samples or controls with different times, users, equipment and/or reagents. These and other considerations in evaluating new biomarkers are also summarized in Vasan, 2006.
- PAD peripheral artery disease
- PAD peripheral artery disease
- Claudication can be defined as pain or discomfort in the muscles of the legs occurring due to a decreased amount of blood flowing to a muscle from narrowing of the peripheral arteries, producing ischemia and often arterial occlusion, causing skeletal muscle and limb necrosis.
- PAD not only causes the hemodynamic alterations common in CAD, but also results in metabolic changes in skeletal muscle.
- PAD has progressed to severe chronic and acute peripheral arterial occlusion, surgery and limb amputation often become the sole therapeutic options.
- PAD is widely considered to be an underdiagnosed disease, with the majority of confirmed diagnoses occurring only after symptoms are manifested, or only with other arteriovascular disease, and irreversible arteriovascular damage due to such ischemic events has already occurred.
- “Performance” is a term that relates to the overall usefulness and quality of a diagnostic or prognostic test, including, among others, clinical and analytical accuracy, other analytical and process characteristics, such as use characteristics (e.g., stability, ease of use), health economic value, and relative costs of components of the test. Any of these factors may be the source of superior performance and thus usefulness of the test, and may be measured by appropriate “performance metrics,” such as AUC, time to result, shelf life, etc. as relevant.
- PSV Positive predictive value
- “Risk” in the context of the present invention relates to the probability that an event will occur over a specific time period, as in the conversion to arteriovascular events, and can mean a subject's “absolute” risk or “relative” risk.
- Absolute risk can be measured with reference to either actual observation post-measurement for the relevant time cohort, or with reference to index values developed from statistically valid historical cohorts that have been followed for the relevant time period.
- Relative risk refers to the ratio of absolute risks of a subject compared either to the absolute risks of low risk cohorts or an average population risk, which can vary by how clinical risk factors are assessed.
- Odds ratios the proportion of positive events to negative events for a given test result, are also commonly used (odds are according to the formula p/(1-p) where p is the probability of event and (1-p) is the probability of no event) to no-conversion.
- Alternative continuous measures which may be assessed in the context of the present invention include time to arteriovascular disease conversion and therapeutic arteriovascular disease conversion risk reduction ratios.
- “Risk evaluation,” or “evaluation of risk” in the context of the present invention encompasses making a prediction of the probability, odds, or likelihood that an event or disease state may occur, the rate of occurrence of the event or conversion from one disease state to another, i.e., from a normal condition to an arteriovascular condition or to one at risk of developing an arteriovascular event, or from at risk of an arteriovascular event to a more stable arteriovascular condition.
- Risk evaluation can also comprise prediction of future clinical parameters, traditional laboratory risk factor values, or other indices of arteriovascular disease, such as coronary calcium scores, other imaging or treadmill scores, passive or provocative tesing results, arteriovasculature percentage stenosis or occlusion and other measurements of plaque burden and activity, either in absolute or relative terms in reference to a previously measured population.
- the methods of the present invention may be used to make continuous or categorical measurements of the risk of conversion to arteriovascular disease and events, thus diagnosing and defining the risk spectrum of a category of subjects defined as being at risk for an arteriovascular event. In the categorical scenario, the invention can be used to discriminate between normal and other subject cohorts at higher risk for arteriovascular events.
- the present invention may be used so as to discriminate those at risk for developing an arteriovascular event from those having arteriovascular disease, or those having arteriovascular disease from normal.
- Such differing use may require different ARTERIORISKMARKER combinations and individualized panels, mathematical algorithms, and/or cut-off points, but be subject to the same aforementioned measurements of accuracy and performance for the respective intended use.
- sample in the context of the present invention is a biological sample isolated from a subject and can include, by way of example and not limitation, whole blood, serum, plasma, blood cells, endothelial cells, tissue biopsies, lymphatic fluid, ascites fluid, interstitital fluid (also known as “extracellular fluid” and encompasses the fluid found in spaces between cells, including, inter alia, gingival crevicular fluid), bone marrow, cerebrospinal fluid (CSF), saliva, mucous, sputum, sweat, urine, or any other secretion, excretion, or other bodily fluids.
- interstitital fluid also known as “extracellular fluid” and encompasses the fluid found in spaces between cells, including, inter alia, gingival crevicular fluid), bone marrow, cerebrospinal fluid (CSF), saliva, mucous, sputum, sweat, urine, or any other secretion, excretion, or other bodily fluids.
- Specificity is calculated by TN/(TN+FP) or the true negative fraction of non-disease or normal subjects.
- Statistical significance can be determined by any method known in the art. Commonly used measures of significance include the p-value, which presents the probability of obtaining a result at least as extreme as a given data point, assuming the data point was the result of chance alone. A result is often considered highly significant at a p-value of 0.05 or less.
- a “subject” in the context of the present invention is preferably a mammal.
- the mammal can be a human, non-human primate, mouse, rat, dog, cat, horse, or cow, but are not limited to these examples. Mammals other than humans can be advantageously used as subjects that represent animal models of arteriovascular disease or arteriovascular events.
- a subject can be male or female.
- a subject can be one who has been previously diagnosed or identified as having arteriovascular disease or an arteriovascular event, and optionally has already undergone, or is undergoing, a therapeutic intervention for the arteriovascular disease or arteriovascular event. Alternatively, a subject can also be one who has not been previously diagnosed as having arteriovascular disease.
- a subject can be one who exhibits one or more risk factors for arteriovascular disease, or a subject who does not exhibit arteriovascular risk factors, or a subject who is asymptomatic for arteriovascular disease or arteriovascular events.
- a subject can also be one who is suffering from or at risk of developing arteriovascular disease or an arteriovascular event.
- TN is true negative, which for a disease state test means classifying a non-disease or normal subject correctly.
- TP is true positive, which for a disease state test means correctly classifying a disease subject.
- “Traditional laboratory risk factors” correspond to biomarkers isolated or derived from subject samples and which are currently evaluated in the clinical laboratory and used in traditional global risk assessment algorithms, such as those from the San Antonio Heart Study, the Framingham Heart Study, and the National Cholesterol Education Program Expert Panel on Detection, Evaluation, and Treatment of High Blood Cholesterol in Adults (Adult Treatment Panel III), also known as NCEP/ATP III.
- Traditional laboratory risk factors commonly tested from subject blood samples include, but are not limited to, total cholesterol (CHOL), LDL (LDL), HDL (HDLC), VLDL (VLDL), triglycerides (TRIG), glucose, insulin and hemoglobin A1c (HBA1C).
- Glucose as used herein includes, without limitation, fasting glucose (Glucose) as well as glucose levels taken during and after the oral glucose tolerance test (OGTT), such as 120 minute Glucose (herein labeled “Gluc120”).
- Insulin (INS) as used herein includes, without limitation, fasting insulin (Insulin) and insulin levels taken during and after the OGTT, such as 120 minute Insulin (herein labeled “Ins120”), as well as insulin's precursors (such as pro-insulin) and their cleavage products such as soluble c-peptide (SCp).
- the methods disclosed herein are used with subjects at risk for experiencing an arteriovascular event, subjects who may or may not have already been diagnosed with an arteriovascular disease, and subjects undergoing treatment and/or therapies for an arteriovascular disease.
- the methods of the present invention can also be used to monitor or select a treatment regimen for a subject who has an arteriovascular disease, and to screen subjects who have not been previously diagnosed as having an arteriovascular disease, such as subjects who exhibit risk factors for an arteriovascular disease, or to assess a subject's future risk of an arteriovascular event.
- the methods of the present invention are used to identify and/or diagnose subjects who are asymptomatic for an arteriovascular disease.
- “Asymptomatic” means not exhibiting the traditional symptoms, including chest pain and shortness of breath for CAD, claudication for PAD, and TIAs, MCI and severe headache for CVD.
- the methods of the present invention may also used to identify and/or diagnose subjects already at higher risk of arteriovascular disease based on solely on the traditional risk factors including, without limitation, gender; race, wherein the chances of developing an arteriovascular disease can be greater in certain ethnic groups; family history, wherein risk of developing an arteriovascular disease is thought to be due, in part, to genetics.
- SBP elevated systolic
- DBP diastolic blood pressure
- TAG elevated serum triglyceride
- TAG small LDL particles
- LPA elevated serum homocysteine
- FGA fibrinogen
- C-reactive protein C-reactive protein
- a subject having an arteriovascular disease such as atherosclerosis, atherothrombosis, CAD, PAD, or CVD can be identified by measuring the amounts (including the presence or absence) of an effective number (which can be two or more) of ARTERIORISKMARKERS in a subject-derived sample and the amounts are then compared to a reference value.
- an effective number which can be two or more
- biomarkers such as proteins, polypeptides, nucleic acids and polynucleotides, polymorphisms of proteins, polypeptides, nucleic acids, and polynucleotides, mutated proteins, polypeptides, nucleic acids, and polynucleotides, or alterations in the molecular quantities of metabolites or other analytes (such as elemental calcium) in the subject sample compared to the reference value are then identified.
- biomarkers such as proteins, polypeptides, nucleic acids and polynucleotides, polymorphisms of proteins, polypeptides, nucleic acids, and polynucleotides, mutated proteins, polypeptides, nucleic acids, and polynucleotides, or alterations in the molecular quantities of metabolites or other analytes (such as elemental calcium) in the subject sample compared to the reference value are then identified.
- a reference value can be relative to a number or value derived from population studies, including without limitation, such subjects having similar body mass index, total cholesterol levels, LDL/HDL levels, systolic or diastolic blood pressure, subjects of the same or similar age range, subjects in the same or similar ethnic group, subjects having family histories of atherosclerosis, atherothrombosis, or CAD, PAD, or CVD, or relative to the starting sample of a subject undergoing treatment for an arteriovascular disease, such as atherosclerosis, atherothrombosis, CAD, PAD, or CVD.
- Reference values can be derived from statistical analyses and/or risk prediction data of populations obtained from mathematical algorithms and computed indices of arteriovascular disease, such as but not limited to, algorithms reported in the Framingham Study, NCEP/ATP III, among others.
- Reference ARTERIORISKMARKER indices can also be constructed and used using algorithms and other methods of statistical and structural classification.
- the reference value is the amount of ARTERIORISKMARKERS in a control sample derived from one or more subjects who are both asymptomatic and lack traditional risk factors for an arteriovascular disease.
- Such subjects who lack traditional risk factors for an arteriovascular disease can be verified as those subjects having a serum cholesterol level less than 200 mg/dl, systolic blood pressure less than or equal to 120 mm Hg, diastolic blood pressure less than or equal to 80 mm Hg, non-current smoker, no history of diagnosed diabetes, no previously diagnosed acute coronary syndrome or hypertension, among other aforementioned other risk factors, or can be verified by another invasive or non-invasive diagnostic test of arteriovascular disease known in the art, such as but not limited to, electrocardiogram (ECG), carotid B-mode ultrasound (for intima-medial thickness measurement), electron beam computed tomography (EBCT), coronary calcium scoring, multi-slice high resolution computed tomography, nuclear magnetic resonance, stress exercise testing, angiography, intra-
- ECG electro
- such subjects are monitored and/or periodically retested for a diagnostically relevant period of time (“longitudinal studies”) following such test to verify continued absence from arteriovascular disease or acute arteriovascular events (disease or event free survival).
- a diagnostically relevant period of time may be one year, two years, two to five years, five years, five to ten years, ten years, or ten or more years from the initial testing date for determination of the reference value.
- retrospective measurement of ARTERIORISKMARKERS in properly banked historical subject samples may be used in establishing these reference values, thus shortening the study time required, presuming the subjects have been appropriately followed during the intervening period through the intended horizon of the product claim.
- a reference value can also comprise the amounts of ARTERIORISKMARKERS derived from subjects who show an improvement in arteriovascular risk factors as a result of treatments and/or therapies for arteriovascular diseases.
- Such improvements include a reduction in body mass index, a reduction in total cholesterol, a reduction in LDL levels, an increase in HDLC levels, a reduction in systolic and/or diastolic blood pressure, or other aforementioned risk factor or combinations thereof.
- a reference value can also comprise the amounts of ARTERIORISKMARKERS derived from subjects who have confirmed disease by one of the above invasive or non-invasive techniques, or are at high risk for developing an arteriovascular event, or who are at high risk for developing an atherosclerotic or atherothrombotic plaque rupture, or who have suffered from an arteriovascular event or plaque rupture.
- a subject predisposed to developing an arteriovascular disease such as atherosclerosis, atherothrombosis, CAD, PAD, or CVD, or at increased risk of experiencing an arteriovascular event can be identified by measuring the levels of an effective amount (which may be two or more) of ARTERIORISKMARKERS in a subject-derived sample and the levels are then compared to a reference value. Alterations in the level of expression of proteins, polypeptides, nucleic acids and polynucleotides, polymorphisms of proteins, polypeptides, nucleic acids, and polynucleotides, or alterations in the molecular quantities of metabolites or other analytes in the subject sample compared to the reference value are then identified.
- a reference value can be relative to a number or value derived from population studies including without limitation, such subjects having the same or similar arteriovascular risk factors, which include atherosclerosis and/or atherothrombosis risk factors, such as similar body mass index or similar total cholesterol levels, similar LDL/HDLC levels, similar blood glucose levels, similar systolic or diastolic blood pressure, subjects of the same or similar age range, subjects in the same or similar ethnic group, subjects having family histories of atherosclerosis, atherothrombosis, or CAD, PAD, or CVD, subjects who exhibit similar symptoms of an arteriovascular disease, or relative to a value obtained from a starting sample of a subject undergoing treatment for an arteriovascular disease, subjects who have shown improvement in arteriovascular risk factors as a result of treatment for the arteriovascular disease, or subjects who are not at risk or at low risk for developing an arteriovascular disease, or subjects who are asymptomatic for arteriovascular disease.
- arteriovascular risk factors which include atherosclerosis and/or ather
- the reference value is the amount of ARTERIORISKMARKERS in a control sample derived from one or more subjects who are not at risk or at low risk for developing an arteriovascular disease, or subjects who are asymptomatic for arteriovascular disease.
- Such subjects who are not at risk or at low risk for developing an arteriovascular disease, or who are asymptomatic for arteriovascular disease can be verified by comparing the risk factors of the subjects against a number derived from longitudinal studies of subjects from which the likelihood of arteriovascular disease progression can be determined, including without limitation, such subjects having similar body mass index or similar total cholesterol levels, similar LDL/HDLC levels, similar blood glucose levels, similar systolic or diastolic blood pressure, subjects of the same or similar age range, subjects in the same or similar ethnic group, subjects who exhibit similar symptoms of an arteriovascular disease, or subjects having family histories of atherosclerosis, atherothrombosis, CAD, PAD, or CVD.
- the reference value is an index value or a baseline value.
- An index value or baseline value is a composite sample of an effective amount of ARTERIORISKMARKERS from one or more subjects who do not have an arteriovascular disease, such as atherosclerosis, atherothrombosis, CAD, PAD, or CVD, or subjects who are asymptomatic for an arteriovascular disease.
- a baseline value can also comprise the amounts of ARTERIORISKMARKERS in a sample derived from a subject who has shown an improvement in arteriovascular risk factors (encompassing atherosclerosis and/or atherothrombosis risk factors) as a result of arteriovascular treatments or therapies.
- Such improvements include, without limitation, a reduction in body mass index, a reduction in total cholesterol, a reduction in LDL levels, an increase in HDLC levels, a reduction in systolic and/or diastolic blood pressure, or combinations thereof.
- the amounts of ARTERIORISKMARKERS are similarly calculated and compared to the index value.
- subjects identified as having an arteriovascular disease, or being at increased risk of developing an arteriovascular disease are chosen to receive a therapeutic regimen to slow the progression of an arteriovascular disease, or decrease or prevent the risk of developing an arteriovascular disease.
- the progression of an arteriovascular disease, or effectiveness of an arteriovascular disease treatment regimen can be monitored by detecting a ARTERIORISKMARKER in an effective amount (which may be two or more) of samples obtained from a subject over time and comparing the amount of ARTERIORISKMARKERS detected. For example, a first sample can be obtained prior to the subject receiving treatment and one or more subsequent samples are taken after or during treatment of the subject.
- Arteriovascular diseases are considered to be progressive (or, alternatively, the treatment does not prevent progression) if the amount of ARTERIORISKMARKER changes over time relative to the reference value, whereas the arteriovascular disease is not progressive if the amount of ARTERIORISKMARKERS remains constant over time (relative to the reference population, or “constant” as used herein).
- the term “constant” as used in the context of the present invention is construed to include changes over time with respect to the reference value.
- therapeutic or prophylactic agents suitable for administration to a particular subject can be identified by detecting a ARTERIORISKMARKER in an effective amount (which may be two or more) in a sample obtained from a subject, exposing the subject-derived sample to a test compound that determines the amount (which may be two or more) of ARTERIORISKMARKERS in the subject-derived sample.
- treatments or therapeutic regimens for use in subjects having an arteriovascular disease, or subjects at risk for developing an arteriovascular disease can be selected based on the amounts of ARTERIORISKMARKERS in samples obtained from the subjects and compared to a reference value. Two or more treatments or therapeutic regimens can be evaluated in parallel to determine which treatment or therapeutic regimen would be the most efficacious for use in a subject to delay onset, or slow progression of an arteriovascular disease.
- the present invention further provides a method for screening for changes in marker expression associated with an arteriovascular disease, by determining the amount (which may be two or more) of ARTERIORISKMARKERS in a subject-derived sample, comparing the amounts of the ARTERIORISKMARKERS in a reference sample, and identifying alterations in amounts in the subject sample compared to the reference sample.
- the reference sample e.g., a control sample
- the reference sample is from a subject that does not have an arteriovascular disease, or if the reference sample reflects a value that is relative to a person that has a high likelihood of rapid progression to an arteriovascular disease
- a similarity in the amount of the ARTERIORISKMARKER analytes in the test sample and the reference sample indicates that the treatment is efficacious.
- a difference in the amount of the ARTERIORISKMARKER in the test sample and the reference sample indicates a less favorable clinical outcome or prognosis.
- Efficacious it is meant that the treatment leads to a decrease in the amount of a ARTERIORISKMARKER protein, nucleic acid, polymorphism, metabolite, or other analyte, decreases in systolic and/or diastolic blood pressure, decreases in total serum cholesterol and LDL cholesterol levels, increases in HDL cholesterol levels, or decreases in BMI. Assessment of the risk factors disclosed herein can be achieved using standard clinical protocols. Efficacy can be determined in association with any known method for diagnosing, identifying, or treating an arteriovascular disease.
- the present invention further encompasses methods of differentially diagnosing and distinguishing arteriovascular diseases, such as, but not limited to, Metabolic Syndrome, Syndrome X, arteriosclerosis, atherosclerosis, atherothrombosis, coronary artery disease, heart valve disease, arrhythmia, angina pectoris (stable and unstable), cardiomyopathy, congestive heart failure, hypertension, orthostatic hypotension, shock, endocarditis, diseases of the aorta and its branches (such as aortic stenosis), peripheral artery disease, cerebrovascular disease, and congenital heart disease.
- arteriovascular diseases such as, but not limited to, Metabolic Syndrome, Syndrome X, arteriosclerosis, atherosclerosis, atherothrombosis, coronary artery disease, heart valve disease, arrhythmia, angina pectoris (stable and unstable), cardiomyopathy, congestive heart failure, hypertension, orthostatic hypotension, shock, endocarditis, diseases of the aorta and its branches (
- One embodiment of the invention provides a method of differentially diagnosing and distinguishing the progressive stages of atherosclerosis and atherothrombosis based on the development of an occlusive or subocclusive thrombus (also known as a “plaque”), which may be ruptured or non-ruptured. Plaque rupture is the most common type of plaque complication, accounting for ⁇ 70% of fatal acute myocardial infarctions and/or sudden coronary deaths. Thus, there is an interdependent relationship between plaque growth and arterial thrombosis, providing the framework for precipitation of an acute arteriovascular event.
- Plaques within the arteriovascular system become “high-risk,““unstable,”, or “vulnerable” in response to a wide array of local and systemic influences, such as inflammation, composition of the plaque, prothrombotic milieu, among others (Wasserman, E. J. and Shipley, N. M. (2006) Mt. Sinai J. Med. 73L: 431-439). Plaque composition is a major pathophysiological determinant of arteriovascular disease. Measurement of plaque components can determine the probability of an arteriovascular event, and can be useful in diagnosing or identifying asymptomatic subjects.
- Endothelial dysfunction drives this process, which is marked by endothelial cell expression of leukocyte and vascular cell adhesion molecules (VCAMs) and increased endothelial permeability to lipoproteins, leukocytes, and other inflammatory mediators.
- VCAMs vascular cell adhesion molecules
- Increasing number of atherogenic lipoproteins and T-cells within the intima stimulate monocytes to differentiate to macrophages, which then become lipid-laden foam cells as they engulf and ingest modified lipoproteins.
- SMCs Smooth muscle cells migrate and proliferate, leukocyte recruitment amplifies, and platelet aggregates adhere to injured endothelium in response to a variety of inflammatory mediators secreted by ECs, activated leukocytes, SMCs, and platelets (Springer, T. A. and Cybulsky, M. I:, (1996) In: Atherosclerosis and coronary artery disease Vol. 1 Lippincott-Raven (Philadelphia), pp. 511-538). These lesions are commonly referred to in the art as “fatty streaks”.
- lipid deposits that surround increasing numbers of inflammatory cells, SMCs, and connective tissue elements, all of which comprise a pro-atherogenic, pro-thrombotic, dynamic extracellular matrix (ECM).
- ECM extracellular matrix
- cytokines and growth factors such as but not limited to transforming growth factor- ⁇ (TGF ⁇ )
- TGF ⁇ transforming growth factor- ⁇
- a fibrous cap composed primarily of SMCs and collagen, develops around the expanding lipid core, walling it off from the lumen.
- the atheromatous core accumulates larger, more confluent amounts of extracellular lipids along with pro-inflammatory mediators (e.g., interferon- ⁇ ) and proteolytic enzymes (e.g., matrix metalloproteinases (MMPs)) that contribute to the erosion of the-fibrous cap by digesting its components.
- pro-inflammatory mediators e.g., interferon- ⁇
- proteolytic enzymes e.g., matrix metalloproteinases (MMPs)
- Plaques are identified by several criteria, such as but not limited to plaque cap thickness, plaque lipid core size, presence or absence of a necrotic core, plaque stenosis (luminal narrowing), remodeling (expansive vs. constrictive remodeling), color (yellow, glistening yellow, red, etc.), collagen content vs. lipid content, mechanical stability (stiffness and elasticity), calcification burden and pattern (nodule vs. scattered, superficial vs.
- plaque activity/function such as plaque inflammation (comprising macrophage density, rate of monocyte infiltration, and density of activated T-cell), endothelial dysfunction measured by local nitric oxide production, anti-procoagulation properties of the endothelium, plaque oxidative stress, superficial platelet aggregation and fibrin deposition, rate of apoptosis, angiogenesis, leaking vasa vasorum, and intraplaque hemorrhage, the presence of matrix metalloproteinase activity in the cap, and the present of certain microbial antigens.
- Other criteria include pan-arterial measurements, such as transcoronary gradients of serum markers of vulnerability, total coronary calcium burden, total coronary vasoreactivity (endothelial function), total arterial burden of plaque including peripheral arterial burden, among others.
- Plaques which often, but do not always, create significant degrees of arterial luminal stenosis are characterized by a degraded fibrous cap with superimposed organizing thrombus and a well-formed, mostly acellular necrotic core containing oxygen radicals, oxidized lipids, dying foam cells, erythrocyte membranes, and apoptotic cellular debris (referred to in the art as “thin-cap fibroatheroma”).
- thin-cap fibroatheroma acellular necrotic core containing oxygen radicals, oxidized lipids, dying foam cells, erythrocyte membranes, and apoptotic cellular debris.
- thin-cap fibroatheroma apoptotic cellular debris
- These high-risk atheromas may progress to largely occlusive and calcified-or fibrotic atheromas, which may in turn trigger signs and symptoms of more progressive arteriovascular diseases, such as angina pectoris and which occur secondary to acute thrombosis or
- a fatty streak to a high-risk atheroma occurs through a continuous process of ECM remodeling.
- Dysregulation of ECM metabolism may result in an accelerated accumulation of lipids and foam cells, a net increase in collagen resorption with subsequent weakening of the fibrous cap and compensatory changes in vessel wall architecture.
- Neovascularization in atherosclerotic arteries introduces fragile intimal microvessels (also known as “vasa vasorum”), which may rupture into the core, resulting in repeated, often subclinical, intraplaque hemorrhage. As these clots reorganize and are layered with fibrous tissue, the lesion advances.
- Expansive ECM remodeling results in outward growth of the plaque, increasing the circumference of the diseased section of artery.
- the extent of luminal narrowing has been found to be inversely proportional to the degree of expansive remodeling (Pasterkamp, G. et al (1995) Circulation 91: 1444-1449).
- Inflammation plays a key role during thrombogenesis, or disruption of the plaque.
- Procoagulant factors within the ECM are exposed to luminal blood flow at sites where plaque disruption has occurred. Stimulated by inflammatory mediators, circulating platelets adhere to damaged endothelium and form aggregates that become trapped in fibrin. Given the appropriate mixture of disturbed blood flow, inflammation, and thrombogenic potential, occlusive thrombi may occur, causing an arteriovascular event even in the absence of visible plaque disruption.
- Hyperlipoproteinemia hypertension, diabetes, elevated levels of homocysteine as well as C-reactive protein, smoking, apoptosis, elevated levels of lipoprotein A, elevated levels of plasminogen activator inhibitor type-1 (PAI-1), high levels of MMPs, the presence of tissue factor, as well as other conditions, augment the inflammatory and hemodynamic response to vascular injury and feed the coagulation cascade, resulting in accelerated thrombogenesis.
- PAI-1 plasminogen activator inhibitor type-1
- the present invention also provides ARTERIORISKMARKER panels including one or more ARTERIORISKMARKERS that are indicative of a general physiological pathway associated with an arteriovascular disease (such as inflammation, coagulation, necrosis), an arteriovascular disease site (such as the heart or brain), the particular stage of the arteriovascular disease (such as platelet aggregation or plaque rupture), the rate of progression of the arteriovascular disease (i.e., speed or kinetics that the arteriovascular disease is progressing at), and one or more ARTERIORISKMARKERS that can be used to exclude or distinguish between different disease states or sequelae associated with arteriovascular disease.
- the ARTERIORISKMARKERS of the invention also provides categories or clusters of analytes that can be measured and detected according to signaling pathway or physiological pathway.
- a single ARTERIORISKMARKER may have several of the aforementioned characteristics according to the present invention, and may alternatively be used in replacement of one or more other ARTERIORISKMARKERS where appropriate for the given application of the invention.
- the present invention also comprises a kit with a detection reagent that binds to two or more ARTERIORISKMARKER proteins, nucleic acids, polymorphisms, metabolites, or other analytes.
- a detection reagent that binds to two or more ARTERIORISKMARKER proteins, nucleic acids, polymorphisms, metabolites, or other analytes.
- an array of detection reagents e.g., antibodies and/or oligonucleotides that can bind to two or more ARTERIORISKMARKER proteins or nucleic acids, respectively.
- the ARTERIORISKMARKER are proteins and the array contains antibodies that bind an effective amount of ARTERIORISKMARKERS 1- 1023 sufficient to measure a statistically significant alteration in ARTERIORISKMARKER expression compared to a reference value.
- the ARTERIORISKMARKERS are nucleic acids and the array contains oligonucleotides or aptamers that bind an effective amount of ARTERIORISKMARKERS 1-1023 sufficient to measure a statistically significant alteration in ARTERIORISKMARKER expression compared to a reference value.
- Also provided by the present invention is a method for treating one or more subjects at risk for developing an arteriovascular disease, comprising: detecting the presence of altered amounts of an effective amount of ARTERIORISKMARKERS present in a sample from the one or more subjects; and treating the one or more subjects with one or more arteriovascular disease-modulating drugs until altered amounts of the ARTERIORISKMARKERS return to a baseline value measured in one or more subjects at low risk for developing an arteriovascular disease, or alternatively, in subjects who do not exhibit any of the traditional risk factors for arteriovascular disease.
- Also provided by the present invention is a method for treating one or more subjects having an arteriovascular disease comprising: detecting the presence of altered levels of an effective amount of ARTERIORISKMARKERS present in a sample from the one or more subjects; and treating the one or more subjects with one or more arteriovascular disease-modulating drugs until altered amounts of the ARTERIORISKMARKERS return to a baseline value measured in one or more subjects at low risk for developing an arteriovascular disease.
- Also provided by the present invention is a method for evaluating changes in the risk of an arteriovascular event in a subject diagnosed with an arteriovascular disease, comprising detecting an effective amount of ARTERIORISKMARKERS (which may be two or more) in a first sample from the subject at a first period of time, detecting the amounts of the ARTERIORISKMARKERS in a second sample from the subject at a second period of time, and comparing the amounts of the ARTERIORISKMARKERS detected at the first and second periods of time.
- the present invention also encompasses a method for evaluating the risk of plaque rupture in a subject diagnosed with atherosclerosis or atherothrombosis, comprising detecting an effective amount of ARTERIORISKMARKERS (which may be two or more) in a first sample from the subject at a first period of time, detecting the the ARTERIORISKMARKERS in a second sample from the subject at a second period of time, and comparing the amounts of the ARTERIORISKMARKERS detected at the first and second periods of time.
- an effective amount of ARTERIORISKMARKERS which may be two or more
- a method for differentially diagnosing disease states associated with an arteriovascular disease in a subject comprising detecting an effective amount of ARTERIORISKMARKERS selected from the group consisting of ARTERIORISKMARKERS 1-1023, or the ARTERIORISKMARKER panels of the invention, in a sample from the subject; and comparing the amounts of the ARTERIORISKMARKERS to the arteriovascular disease subject profiles of the present invention, or to a reference value.
- Also provided by the present invention is a method of monitoring the progression of plaque formation in a subject comprising detecting an effective amount of ARTERIORISKMARKERS selected from the group consisting of CARDIORISKMAKRERS 1-1023, or the ARTERIORISKMARKER panels of the invention, in a sample from the subject; and comparing the amounts of the two or more ARTERIORISKMARKERS, or the ARTERIORISKMARKER panel, to the arteriovascular disease subject profiles of the present invention, or to a reference value.
- the invention allows the diagnosis and prognosis of arteriovascular disease or arteriovascular events.
- the risk of developing an arteriovascular disease can be detected by measuring an effective amount of ARTERIORISKMARKER proteins, nucleic acids, polymorphisms, metabolites, and other analytes (which may be two or more) in a test sample (e.g., a subject derived sample), and comparing the effective amounts to reference or index values, often utilizing mathematical algorithms or formula in order to combine information from results of multiple individual ARTERIORISKMARKERS and from non-analyte clinical parameters into a single measurement or index.
- Subjects identified as having an increased risk of an arteriovascular disease can optionally be selected to receive treatment regimens, such as administration of prophylactic or therapeutic compounds such as “arteriovascular disease-modulating agents” as defined herein, or implementation of exercise regimens, surgical interventions as defined elsewhere in this disclosure, or dietary supplements to prevent or delay the onset of an arteriovascular disease.
- treatment regimens such as administration of prophylactic or therapeutic compounds such as “arteriovascular disease-modulating agents” as defined herein, or implementation of exercise regimens, surgical interventions as defined elsewhere in this disclosure, or dietary supplements to prevent or delay the onset of an arteriovascular disease.
- the amount of the ARTERIORISKMARKER protein, nucleic acid, polymorphism, metabolite, or other analyte can be measured in a test sample and compared to the “normal control level,” utilizing techniques such as reference limits, discrimination limits, or risk defining thresholds to define cutoff points and abnormal values for arteriovascular disease or arteriovascular events, all as described in Vasan, 2006.
- the “normal control level” means the level of one or more ARTERIORISKMARKERS or combined ARTERIORISKMARKER indices typically found in a subject not suffering from an arteriovascular disease. Such normal control level and cutoff points may vary based on whether a ARTERIORISKMARKER is used alone or in a formula combining with other ARTERIORISKMARKERS into an index.
- the normal control level can be a database of ARTERIORISKMARKER patterns from previously tested subjects who did not convert to arteriovascular disease over a clinically relevant time horizon.
- the present invention may be used to make continuous or categorical measurements of the risk of conversion to arteriovascular disease, thus diagnosing and defining the risk spectrum of a category of subjects defined as at risk for having an arteriovascular event.
- the methods of the present invention can be used to discriminate between normal and arteriovascular disease subject cohorts.
- the present invention may be used so as to discriminate those at risk for having an arteriovascular event from those having more stable arteriovascular disease, those more rapidly progressing (or alternatively those with a shorter probable time horizon to an arteriovascular event) to an arteriovascular event from those more slowly progressing (or with a longer time horizon to an arteriovascular event), or those having arteriovascular disease from normal.
- Such differing use may require different ARTERIORISKMARKER combinations in individual panel, mathematical algorithm, and/or cut-off points, but be subject to the same aforementioned measurements of accuracy and other performance metrics relevant for the intended use.
- Identifying the subject at risk of having an arteriovascular event enables the selection and initiation of various therapeutic interventions or treatment regimens in order to delay, reduce or prevent that subject's conversion to an arteriovascular disease state.
- Levels of an effective amount of ARTERIORISKMARKER proteins, nucleic acids, polymorphisms, metabolites, or other analytes also allows for the course of treatment of arteriovascular disease or arteriovascular event to be monitored.
- a biological sample can be provided from a subject undergoing treatment regimens, e.g., drug treatments, for arteriovascular disease.
- Such treatment regimens can include, but are not limited to, exercise regimens, dietary supplementation, bariatric surgical intervention, and treatment with therapeutics or prophylactics used in subjects diagnosed or identified with arteriovascular disease or at risk of having an arteriovascular event. If desired, biological samples are obtained from the subject at various time points before, during, or after treatment.
- the present invention can also be used to screen patient or subject populations in any number of settings.
- a health maintenance organization, public health entity or school health program can screen a group of subjects to identify those requiring interventions, as described above, or for the collection of epidemiological data.
- Insurance companies e.g., health, life or disability
- Data collected in such population screens particularly when tied to any clinical progession to conditions like arteriovascular disease or arteriovascular events, will be of value in the operations of, for example, health maintenance organizations, public health programs and insurance companies.
- Such data arrays or collections can be stored in machine-readable media and used in any number of health-related data management systems to provide improved healthcare services, cost effective healthcare, improved insurance operation, etc.
- Such systems can access the data directly from internal data storage or remotely from one or more data storage sites as further detailed herein.
- risk of developing a arteriovascular condition for a subject or a population comprises analyzing arteriovascular disease risk factors
- the present invention provides an improvement comprising use of a data array encompassing the biomarker measurements as defined herein and/or the resulting evaluation of risk from those biomarker measurements.
- a machine-readable storage medium can comprise a data storage material encoded with machine readable data or data arrays which, when using a machine programmed with instructions for using said data, is capable of use for a variety of purposes, such as, without limitation, subject information relating to arteriovascular disease risk factors over time or in response to arteriovascular disease-modulating drug therapies, drug discovery, and the like.
- Measurements of effective amounts of the biomarkers of the invention and/or the resulting evaluation of risk from those biomarkers can implemented in computer programs executing on programmable computers, comprising, inter alia, a processor, a data storage system (including volatile and non-volatile memory and/or storage elements), at least one input device, and at least one output device.
- Program code can be applied to input data to perform the functions described above and generate output information.
- the output information can be applied to one or more output devices, according to methods known in the art.
- the computer may be, for example, a personal computer, microcomputer, or workstation of conventional design.
- Each program can be implemented in a high level procedural or object oriented programming language to communicate with a computer system. However, the programs can be implemented in assembly or machine language, if desired. The language can be a compiled or interpreted language. Each such computer program can be stored on a storage media or device (e.g., ROM or magnetic diskette or others as defined elsewhere in this disclosure) readable by a general or special purpose programmable computer, for configuring and operating the computer when the storage media or device is read by the computer to perform the procedures described herein.
- the health-related data management system of the invention may also be considered to be implemented as a computer-readable storage medium, configured with a computer program, where the storage medium so configured causes a computer to operate in a specific and predefined manner to perform various functions described herein.
- Levels of an effective amount of ARTERIORISKMARKER proteins, nucleic acids, polymorphisms, metabolites, or other analytes can then be determined and compared to a reference value, e.g. a control subject or population whose athersclerotic state is known or an index value or baseline value.
- the reference sample or index value or baseline value may be taken or derived from one or more subjects who have been exposed to the treatment, or may be taken or derived from one or more subjects who are at low risk of developing arteriovascular disease or an arteriovascular event, or may be taken or derived from subjects who have shown improvements in arteriovascular disease risk factors (such as clinical parameters or traditional laboratory risk factors as defined herein) as a result of exposure to treatment.
- the reference sample or index value or baseline value may be taken or derived from one or more subjects who have not been exposed to the treatment.
- samples may be collected from subjects who have received initial treatment for arteriovascular disease or an arteriovascular event and subsequent treatment for arteriovascular disease or an arteriovascular event to monitor the progress of the treatment.
- a reference value can also comprise a value derived from risk prediction algorithms or computed indices from population studies such as those disclosed herein.
- the ARTERIORISKMARKERS of the present invention can thus be used to generate a “reference ARTERIORISKMARKER profile” of those subjects who do not have arteriovascular disease or are not at risk of having an arteriovascular event, and would not be expected to develop arteriovascular disease or an arteriovascular event.
- the ARTERIORISKMARKERS disclosed herein can also be used to generate a “subject ARTERIORISKMARKER profile” taken from subjects who have arteriovascular disease or are at risk for having an arteriovascular event.
- the subject ARTERIORISKMARKER profiles can be compared to a reference ARTERIORISKMARKER profile to diagnose or identify subjects at risk for developing arteriovascular disease or an arteriovascular event, to monitor the progression of disease, as well as the rate of progression of disease, and to monitor the effectiveness of arteriovascular treatment modalities.
- the reference and subject ARTERIORISKMARKER profiles of the present invention can be contained in a machine-readable medium, such as but not limited to, analog tapes like those readable by a VCR, CD-ROM, DVD-ROM, USB flash media, among others.
- Such machine-readable media can also contain additional test results, such as, without limitation, measurements of clinical parameters and traditional laboratory risk factors.
- the machine-readable media can also comprise subject information such as medical history and any relevant family history.
- the machine-readable media can also contain information relating to other arteriovascular disease-risk algorithms and computed indices such as those described herein.
- Differences in the genetic makeup of subjects can result in differences in their relative abilities to metabolize various drugs, which may modulate the symptoms or risk factors of arteriovascular disease or arteriovascular events.
- Subjects that have arteriovascular disease, or at risk for developing arteriovascular disease or an arteriovascular event can vary in age, ethnicity, body mass index (BMI), total cholesterol levels, blood glucose levels, blood pressure, LDL and HDL levels, and other parameters. Accordingly, use of the ARTERIORISKMARKERS disclosed herein, both alone and together in combination with known genetic factors for drug metabolism, allow for a pre-determined level of predictability that a putative therapeutic or prophylactic to be tested in a selected subject will be suitable for treating or preventing arteriovascular disease or an arteriovascular event in the subject.
- a test sample from the subject can also be exposed to a therapeutic agent or a drug, and the level of one or more of ARTERIORISKMARKER proteins, nucleic acids, polymorphisms, metabolites or other analytes can be determined.
- the level of one or more ARTERIORISKMARKERS can be compared to sample derived from the subject before and after treatment or exposure to a therapeutic agent or a drug, or can be compared to samples derived from one or more subjects who have shown improvements in arteriovascular risk factors (e.g., clinical parameters or traditional laboratory risk factors) as a result of such treatment or exposure.
- Agents for reducing the risk of arteriovascular disease, an arteriovascular event, or arteriovascular complications include, without limitation of the following, insulin, hypoglycemic agents, anti-inflammatory agents, lipid reducing agents, anti-hypertensives such as calcium channel blockers, beta-adrenergic receptor blockers, cyclooxygenase-2 inhibitors, angiotensin system inhibitors, ACE inhibitors, rennin inhibitors, together with other common risk factor modifying agents (herein “arteriovascular disease-modulating drugs”).
- Insulin includes rapid acting forms, such as Insulin lispro rDNA origin: HUMALOG (1.5 mL, 10 mL, Eli Lilly and Company, Indianapolis, Ind.), Insulin Injection (Regular Insulin) form beef and pork (regular ILETIN I, Eli Lilly], human: rDNA: HUMULIN R (Eli Lilly), NOVOLIN R (Novo Nordisk, New York, N.Y.), Semisynthetic: VELOSULIN Human (Novo Nordisk), rDNA Human, Buffered: VELOSULIN BR, pork: regular Insulin (Novo Nordisk), purified pork: Pork Regular ILETIN II (Eli Lilly), Regular Purified Pork Insulin (Novo Nordisk), and Regular (Concentrated) ILETIN II U-500 (500 units/mL, Eli Lilly); intermediate-acting forms such as Insulin Zinc Suspension, beef and pork: LENTE ILETIN G I (Eli Lilly), Human, rDNA:
- “Hypoglycemic” agents are preferably oral hypoglycemic agents and include, without limitation, first-generation sulfonylureas: Acetohexamide (Dymelor), Chlorpropamide (Diabinese), Tolbutamide (Orinase); second-generation sulfonylureas: Glipizide (Glucotrol, Glucotrol XL), Glyburide (Diabeta; Micronase; Glynase), Glimepiride (Amaryl); Biguanides: Metformin (Glucophage); Alpha-glucosidase inhibitors: Acarbose (Precose), Miglitol (Glyset), Thiazolidinediones: Rosiglitazone (Avandia), Pioglitazone (Actos), Troglitazone (Rezulin); Meglitinides: Repaglinide (Prandin); and other hypoglycemics such as Acar
- Anti-inflammatory agents include Alclofenac; Alclometasone Dipropionate; Algestone Acetonide; Alpha Amylase; Amcinafal; Amcinafide; Amfenac Sodium; Amiprilose Hydrochloride; Anakinra; Anirolac; Anitrazafen; Apazone; Balsalazide Disodium; Bendazac; Benoxaprofen; Benzydamine Hydrochloride; Bromelains; Broperamole; Budesonide; Carprofen; Cicloprofen; Cintazone; Cliprofen; Clobetasol Propionate; Clobetasone Butyrate; Clopirac; Cloticasone Propionate; Cormethasone Acetate; Cortodoxone; Deflazacort; Desonide; Desoximetasone; Dexamethasone Dipropionate; Diclofenac Potassium; Diclofenac Sodium; Diflorasone Diacetate; Diflumidone Sodium
- cytokine inhibitors include cytokine antagonists (e.g., IL-6 receptor antagonists), aza-alkyl lysophospholipids (AALP), and Tumor Necrosis Factor-alpha (TNF-alpha) inhibitors, such as anti-TNF-alpha antibodies, soluble TNF receptor, TNF-alpha, anti-sense nucleic acid molecules, multivalent guanylhydrazone (CNI-1493), N-acetylcysteine, pentoxiphylline, oxpentifylline, carbocyclic nucleoside analogues, small molecule S9a, RP 55778 (a TNF-alpha synthesis inhibitor), Dexanabinol (HU-211, is a synthetic cannabinoid devoid of cannabimimetic effects, inhibits TNF-alpha production at a post-transcriptional stage), MDL 201,449A (9-[(1R), TNF-alpha inhibitors), TNF-alpha
- “Lipid reducing agents” include gemfibrozil, cholystyramine, colestipol, nicotinic acid, and HMG-CoA reductase inhibitors.
- HMG-CoA reductase inhibitors useful for administration, or co-administration with other agents according to the invention include, but are not limited to, simvastatin (U.S. Pat. No. 4,444,784), lovastatin (U.S. Pat. No. 4,231,938), pravastatin sodium (U.S. Pat. No. 4,346,227), fluvastatin (U.S. Pat. No. 4,739,073), atorvastatin (U.S. Pat. No.
- Anti-thrombotic and/or fibrinolytic agents include Plasminogen (to plasmin via interactions of prekallikrein, kininogens, Factors XII, XIIIa, plasminogen proactivator, and tissue plasminogen activator[TPA]) Streptokinase; Urokinase: Anisoylated Plasminogen-Streptokinase Activator Complex; Pro-Urokinase; (Pro-UK); rTPA (alteplase or activase; r denotes recombinant), rPro-UK; Abbokinase; Eminase; Sreptase Anagrelide Hydrochloride; Bivalirudin; Dalteparin Sodium; Danaparoid Sodium; Dazoxiben Hydrochloride; Efegatran Sulfate; Enoxaparin Sodium; Ifetroban; Ifetroban Sodium; Tinzaparin Sodium; retaplase
- Anti-platelet agents include Clopridogrel; Sulfinpyrazone; Aspirin; Dipyridamole; Clofibrate; Pyridinol Carbamate; PGE; Glucagon; Antiserotonin drugs; Caffeine; Theophyllin Pentoxifyllin; Ticlopidine; Anagrelide.
- Lipid reducing agents include gemfibrozil, cholystyramine, colestipol, nicotinic acid, probucol lovastatin, fluvastatin, simvastatin, atorvastatin, pravastatin, cirivastatin.
- Direct thrombin inhibitors include hirudin, hirugen, hirulog, agatroban, PPACK, thrombin aptamers.
- Glycoprotein IIb/IIIa receptor Inhibitors are both antibodies and non-antibodies, and include but are not limited to ReoPro (abcixamab), lamifiban, tirofiban.
- ReoPro abcixamab
- lamifiban abcixamab
- tirofiban a preferred agent
- Aspirin a preferred agent is aspirin.
- Calcium channel blockers are a heterogeneous group of drugs that belong to one of three major chemical groups of drugs, the dihydropyridines, such as nifedipine, the phenyl alkyl amines, such as verapamil, and the benzothiazepines, such as diltiazem.
- calcium channel blockers useful according to the invention include, but are not limited to, amrinone, amlodipine, bencyclane, felodipine, fendiline, flunarizine, isradipine, nicardipine, nimodipine, perhexilene, gallopamil, tiapamil and tiapamil analogues (such as 1993RO-11-2933), phenytoin, barbiturates, and the peptides dynorphin, omega-conotoxin, and omega-agatoxin, and the like and/or pharmaceutically acceptable salts thereof.
- Beta-adrenergic receptor blocking agents are a class of drugs that antagonize the cardiovascular effects of catecholamines in angina pectoris, hypertension, and cardiac arrhythmias.
- Beta-adrenergic receptor blockers include, but are not limited to, atenolol, acebutolol, alprenolol, befunolol, betaxolol, bunitrolol, carteolol, celiprolol, hedroxalol, indenolol, labetalol, levobunolol, mepindolol, methypranol, metindol, metoprolol, metrizoranolol, oxprenolol, pindolol, propranolol, practolol, practolol, sotalolnadolol, tiprenolol, tomalolol, timol
- COX-2 inhibitors include, but are not limited to, COX-2 inhibitors described in U.S. Pat. No. 5,474,995 “Phenyl heterocycles as cox-2 inhibitors”; U.S. Pat. No. 5,521,213 “Diaryl bicyclic heterocycles as inhibitors of cyclooxygenase-2”; U.S. Pat. No. 5,536,752 “Phenyl heterocycles as COX-2 inhibitors”; U.S. Pat. No. 5,550,142 “Phenyl heterocycles as COX-2 inhibitors”; U.S. Pat. No. 5,552,422 “Aryl substituted 5,5 fused aromatic nitrogen compounds as anti-inflammatory agents”; U.S.
- a number of the above-identified COX-2 inhibitors are prodrugs of selective COX-2 inhibitors, and exert their action by conversion in vivo to the active and selective COX-2 inhibitors.
- the active and selective COX-2 inhibitors formed from the above-identified COX-2 inhibitor prodrugs are described in detail in WO 95/00501, published Jan. 5, 1995, WO 95/18799, published Jul. 13, 1995 and U.S. Pat. No. 5,474,995, issued Dec. 12, 1995. Given the teachings of U.S. Pat. No.
- Angiotensin II antagonists are compounds which interfere with the activity of angiotensin II by binding to angiotensin II receptors and interfering with its activity.
- Angiotensin II antagonists are well known and include peptide compounds and non-peptide compounds.
- Most angiotensin II antagonists are slightly modified congeners in which agonist activity is attenuated by replacement of phenylalanine in position 8 with some other amino acid; stability can be enhanced by other replacements that slow degeneration in vivo.
- angiotensin II antagonists include: peptidic compounds (e.g., saralasin, [(San 1 )(Val 5 )(Ala 8 )]angiotensin-(1-8) octapeptide and related analogs); N-substituted imidazole-2-one (U.S. Pat. No. 5,087,634); imidazole acetate derivatives including 2-N-butyl-4-chloro-1-(2-chlorobenzile) imidazole-5-acetic acid (see Long et al., J. Pharmacol. Exp. Ther.
- peptidic compounds e.g., saralasin, [(San 1 )(Val 5 )(Ala 8 )]angiotensin-(1-8) octapeptide and related analogs
- N-substituted imidazole-2-one U.S. Pat. No. 5,087,634
- Angiotensin converting enzyme (ACE) inhibitors include amino acids and derivatives thereof, peptides, including di- and tri-peptides and antibodies to ACE which intervene in the renin-angiotensin system by inhibiting the activity of ACE thereby reducing or eliminating the formation of pressor substance angiotensin II.
- ACE inhibitors have been used medically to treat hypertension, congestive heart failure, myocardial infarction and renal disease.
- Classes of compounds known to be useful as ACE inhibitors include acylmercapto and mercaptoalkanoyl prolines such as captopril (U.S. Pat. No. 4,105,776) and zofenopril (U.S. Pat. No.
- Renin inhibitors are compounds which interfere with the activity of renin. Renin inhibitors include amino acids and derivatives thereof, peptides and derivatives thereof, and antibodies to renin. Examples of renin inhibitors that are the subject of United States patents are as follows: urea derivatives of peptides (U.S. Pat. No. 5,116,835); amino acids connected by nonpeptide bonds (U.S. Pat. No. 5,114,937); di- and tri-peptide derivatives (U.S. Pat. No. 5,106,835); amino acids and derivatives thereof (U.S. Pat. Nos. 5,104,869 and 5,095,119); diol sulfonamides and sulfinyls (U.S. Pat.
- Anti-platelet agents include but are not limited to, Clopridogrel; Sulfinpyrazone; Aspirin; Dipyridamole; Clofibrate; Pyridinol Carbamate; PGE; Glucagon; Antiserotonin drugs; Caffeine; Theophyllin Pentoxifyllin; Ticlopidine; Anagrelide.
- arteriovascular disease-modulating drugs include, but are not limited to, lipase inhibitors such as cetilistat (ATL-962); synthetic amylin analogs such as Symlin pramlintide with or without recombinant leptin; sodium-glucose cotransporter 2 (SGLT2) inhibitors like sergliflozin (869682; KGT-1251), YM543, dapagliflozin, GlaxoSmithKline molecule 189075, and Sanofi-Aventis molecule AVE2268; dual adipose triglyceride lipase and PI3 kinase activators like Adyvia (ID 1101); antagonists of neuropeptide Y2, Y4, and Y5 receptors like Nastech molecule PYY3-36, synthetic analog of human hormones PYY3-36 and pancreatic polypeptide (7TM molecule TM30338); Shionogi molecule S-2367; cannabinoid CB1
- a subject cell i.e., a cell isolated from a subject
- a candidate agent i.e., a cell isolated from a subject
- the pattern of ARTERIORISKMARKER expression in the test sample is measured and compared to a reference profile, e.g., an arteriovascular disease reference expression profile or a non-arteriovascular disease reference expression profile or an index value or baseline value.
- the test agent can be any compound or composition or combination thereof, including, dietary supplements.
- the test agents are agents frequently used in arteriovascular treatment regimens and are described herein.
- a subject suffering from or at risk of developing arteriovascular disease or an arteriovascular event may also be suffering from or at risk of developing Type 2 Diabetes, hypertension, or obesity.
- Type 2 Diabetes in particular and arteriovascular disease have many risk factors in common, and many of these risk factors are highly correlated with one another. The relationship samong these risk factors may be attributable to a small number of physiological phenomena, perhaps even a single phenomenon.
- Subjects suffering from or at risk of developing Diabetes, arteriovascular disease, hypertension or obesity are identified by methods known in the art.
- ARTERIORISKMARKERS and ARTERIORISKMARKER panels of the present invention may overlap or be encompassed by biomarkers of Type 2 Diabetes, Pre-Diabetes, or pre-diabetic conditions, and indeed may be useful in the diagnosis of the risk of Diabetes, Pre-Diabetes, or pre-diabetic conditions.
- the performance and thus absolute and relative clinical usefulness of the invention may be assessed in multiple ways as noted above.
- the invention is intended to provide accuracy in clinical diagnosis and prognosis.
- the accuracy of a diagnostic or prognostic test, assay, or method concerns the ability of the test, assay, or method to distinguish between subjects having arteriovascular disease, or at risk for arteriovascular disease or an arteriovascular event, is based on whether the subjects have an “effective amount” or a “significant alteration” in the levels of a ARTERIORISKMARKER.
- an appropriate number of ARTERIORISKMARKERS (which may be one or more) is different than the predetermined cut-off point (or threshold value) for that ARTERIORISKMARKER(S) and therefore indicates that the subject has arteriovascular disease or is at risk for having an arteriovascular event for which the ARTERIORISKMARKER(S) is a determinant.
- the difference in the level of ARTERIORISKMARKER between normal and abnormal is preferably statistically significant.
- an “acceptable degree of diagnostic accuracy”, is herein defined as a test or assay (such as the test of the invention for determining the clinically significant presence of ARTERIORISKMARKERS, which thereby indicates the presence of arteriovascular disease and/or a risk of having an arteriovascular event) in which the AUC (area under the ROC curve for the test or assay) is at least 0.60, desirably at least 0.65, more desirably at least 0.70, preferably at least 0.75, more preferably at least 0.80, and most preferably at least 0.85.
- a “very high degree of diagnostic accuracy” it is meant a test or assay in which the AUC (area under the ROC curve for the test or assay) is at least 0.80, desirably at least 0.85, more desirably at least 0.875, preferably at least 0.90, more preferably at least 0.925, and most preferably at least 0.95.
- the predictive value of any test depends on the sensitivity and specificity of the test, and on the prevalence of the condition in the population being tested. This notion, based on Bayes' theorem, provides that the greater the likelihood that the condition being screened for is present in an individual or in the population (pre-test probability), the greater the validity of a positive test and the greater the likelihood that the result is a true positive.
- pre-test probability the greater the likelihood that the condition being screened for is present in an individual or in the population
- a positive result has limited value (i.e., more likely to be a false positive).
- a negative test result is more likely to be a false negative.
- ROC and AUC can be misleading as to the clinical utility of a test in low disease prevalence tested populations (defined as those with less than 1% rate of occurrences (incidence) per annum, or less than 10% cumulative prevalence over a specified time horizon).
- absolute risk and relative risk ratios as defined elsewhere in this disclosure can be employed to determine the degree of clinical utility.
- Populations of subjects to be tested can also be categorized into quartiles by the test's measurement values, where the top quartile (25% of the population) comprises the group of subjects with the highest relative risk for developing arteriovascular disease or an arteriovascular event, and the bottom quartile comprising the group of subjects having the lowest relative risk for developing arteriovascular disease or an arteriovascular event.
- values derived from tests or assays having over 2.5 times the relative risk from top to bottom quartile in a low prevalence population are considered to have a “high degree of diagnostic accuracy,” and those with five to seven times the relative risk for each quartile are considered to have a “very high degree of diagnostic accuracy.” Nonetheless, values derived from tests or assays having only 1.2 to 2.5 times the relative risk for each quartile remain clinically useful are widely used as risk factors for a disease; such is the case with total cholesterol and for many inflammatory biomarkers with respect to their prediction of future arteriovascular events. Often such lower diagnostic accuracy tests must be combined with additional parameters in order to derive meaningful clinical thresholds for therapeutic intervention, as is done with the aforementioned global risk assessment indices.
- a health economic utility function is an yet another means of measuring the performance and clinical value of a given test, consisting of weighting the potential categorical test outcomes based on actual measures of clinical and economic value for each.
- Health economic performance is closely related to accuracy, as a health economic utility function specifically assigns an economic value for the benefits of correct classification and the costs of misclassification of tested subjects.
- As a performance measure it is not unusual to require a test to achieve a level of performance which results in an increase in health economic value per test (prior to testing costs) in excess of the target price of the test.
- diagnostic accuracy is commonly used for continuous measures, when a disease category or risk category (such as those ati risk for having an arteriovascular event) has not yet been clearly defined by the relevant medical societies and practice of medicine, where thresholds for therapeutic use are not yet established, or where there is no existing gold standard for diagnosis of the pre-disease.
- measures of diagnostic accuracy for a calculated index are typically based on curve fit and calibration between the predicted continuous value and the actual observed values (or a historical index calculated value) and utilize measures such as R squared, Hosmer- Lemeshow P-value statistics and confidence intervals.
- the degree of diagnostic accuracy i.e., cut points on a ROC curve
- defining an acceptable AUC value determining the acceptable ranges in relative concentration of what constitutes an effective amount of the ARTERIORISKMARKERS of the invention allows for one of skill in the art to use the ARTERIORISKMARKERS to identify, diagnose, or prognose subjects with a pre-determined level of predictability and performance.
- Age remains the most dominant factor in global risk assessment algorithms for predicting the risk of arteriovascular disease or of arteriovascular events (such as in the Framingham Risk Score), and furthermore remains the primary identification method and definition of appropriate categories of subjects for the testing and diagnosis of asymptomatic arteriovascular disease.
- the total unique combinations represent 521,855 unique panels. Achieving an AUC of at least 0.75 were 8,153, a less than one in fifty success rate; each of these four ARTERIORISKMARKER combinations are enumerated in FIG. 15 . A very high level of diagnostic accuracy, representing an AUC of 0.8 was finally achieved in 29 of the panels listed therein. This represents less than one per ten thousand of the total possible unique combinations of four or more ARTERIORISKMARKERS.
- Such methods include, but are not limited to, measurement of systolic and diastolic blood pressure, in vitro determination of total cholesterol, LDL, HDL, and glucose levels from blood samples, stress tests, ankle-brachial indices (ABI) which is the ratio of systolic blood pressure in the ankle arteries to the systolic blood pressure in the brachial arteries, measurement of human serum C-reactive protein (hsCRP), subfractions of LDL, electrocardiogram (ECG), imaging modalities such as computed tomography (CT), optical coherence tomography (OCT), intravascular ultrasonography (IVUS), carotid B-mode ultrasound, high-resolution IVUS, elastography (palpography), angioscopy, electron beam computed tomography (EBCT), magnetic resonance imaging (MRI) such as contrast-enhanced MRI with superparamagnetic iron oxide and gadolinium fluorine compounds, positron emission tomography (PET) such as fluorode
- subjects considered at lower risk for developing an arteriovascular disease or experiencing an arteriovascular event include, but are not limited to, the following favorable traditional risk factor traits: serum cholesterol less than 200 mg/dl, systolic blood pressure less than or equal to 120 mm Hg, diastolic blood pressure less than or equal to 80 mm Hg, non-current smoker, no history of diagnosed diabetes, normal insulin sensitivity and secretion, no previously diagnosed CAD, PAD, CVD or hypertension, and no base-line electrocardiogram (ECG) abnormalities.
- ECG electrocardiogram
- a subject's risk may be assessed by assessing either such single characteristics or by assessing an individual's “index score” constructed mathematically of such single measurement characteristics with reference to predicted risk from a longitudinal study series, as in the Framingham index and NCEP ATP III guidelines.
- index score constructed mathematically of such single measurement characteristics with reference to predicted risk from a longitudinal study series, as in the Framingham index and NCEP ATP III guidelines.
- subjects who are asymptomatic and/or subject who do not exhibit any of the aforementioned risk factors, or with low predicted risk, for arteriovascular disease may be at risk for an arteriovascular event.
- the ARTERIORISKMARKERS and methods of use disclosed herein provide for identification and diagnosis of arteriovascular disease or risk of arteriovascular events in such asymptomatic subjects, and to further and more accurately risk stratify both higher and lower risk subjects beyond their predicted risk as assessed by the presence or absence of arteriovascular disease symptoms, traditional risk factors, indices, and guidelines.
- Subjects considered at high risk may exhibit baseline ECG abnormalities.
- Normal heart rate observable by ECG is usually between 60 and 100 beats per minute and the rhythm appears regular.
- P waves, QRS complexes, T waves appear normal. ST segments are not elevated above or depressed below the baseline of the ECG tracing.
- the P wave is a record of the movement of electrical activity through the upper heart chambers (atria).
- the QRS complex is a record of the movement of electrical impulses through the lower heart chambers (ventricles).
- the ST segment usually appears as a straight, level line between the QRS complex and the T wave. Elevated or lowered ST segments may mean the heart muscle is damaged or not receiving enough blood.
- the T wave corresponds to the period when the lower heart chambers are relaxing electrically and preparing for their next muscle contraction. However, normal-appearing ECG can occur even in the presence of heart disease.
- Abnormalities observed by ECG include heart rhythm. There are many different kinds of irregular heartbeats (arrhythmias). A heart rate less than 60 beats per minutes is called a “bradycardia”. A heart rate greater than 100 beats per minutes is called a “tachycardia”. Examples of tachycardias may include a fast, irregular heart rhythm that originates in the ventricle (ventricular fibrillation) or a fast, regular heart rhythm that begins in the atrium (atrial flutter). Abnormal conduction of the electrical impulse in the heart can also be seen in other types of arrhythmias.
- the muscle may receive less oxygen and may begin to die (ischemia or heart attack). This damage to the heart muscle may show up on the electrocardiogram.
- ECG signs of poor blood flow to the heart may include lowered (depressed) ST segments.
- ECG signs of heart attack often include raised (elevated) ST segments. Later, as the heart attack persists, Q waves on the ECG may appear and become deeper.
- Certain changes in the ECG may suggest thickening of the muscle walls of one or more heart chambers.
- Conditions that may cause hypertrophy of one or more heart chambers include high blood pressure, coronary artery disease, heart failure, cardiomyopathy, or heart valve disease. Elevated ST segments on the ECG may indicate an inflammation of the heart muscle (myocarditis) or the sac that surrounds the heart (pericarditis).
- Proper contraction of the heart depends upon normal levels of electrolytes in the blood, such as calcium and potassium. Too much or too little of these electrolytes results in certain rhythm abnormalities, such as abnormal changes in the P wave, QRS complex, or T wave that can be seen on an electrocardiogram. Certain medications for the heart and other conditions can result in ECG changes.
- Subjects at increased risk for developing an arteriovascular disease, and for experiencing arteriorvascular events can include, without limitation, BMI over 25 (BMI between 25-29 are considered “overweight”, while BMI of 30 or above is considered “obese”), waist circumference of 40 inches or larger in men or 35 inches or larger in women; current smoking of at least 5 cigarettes per day on average, systolic blood pressure of greater than or equal to 140 mm Hg, diastolic blood pressure of greater than or equal to 90 mm Hg, fasting hyperglycemia, e.g., glucose levels of greater than or equal to 126 mg/dl (wherein subjects who exhibit these glucose levels are considered to be diabetic), and impaired fasting glucose (glucose greater than or equal to 100 mg/dl but below 126 mg/dl).
- BMI over 25 BMI between 25-29 are considered “overweight”, while BMI of 30 or above is considered “obese”
- waist circumference 40 inches or larger in men or 35 inches or larger in women
- risk prediction for arteriovascular disease or an arteriovascular event can also encompass risk prediction algorithms and computed indices that assess and estimate a subject's absolute risk for developing arteriovascular disease or an arteriovascular event with reference to a historical cohort. Risk assessment using such predictive mathematical algorithms and computed indices has increasingly been incorporated into guidelines for diagnostic testing and treatment, and encompass indices obtained from and validated with, inter alia, stratified samples from a representative population.
- the evidence-based, multiple risk factor assessment approach is only moderately accurate for the prediction of short- and long-term risk of manifesting an arteriovascular event, particularly sudden death, in asymptomatic or otherwise healthy subjects.
- risk prediction algorithms can be advatageously used with the ARTERIORISKMARKERS of the present invention to distinguish between subjects in a population of interest to determine the risk stratification of developing arteriovascular disease or an arteriovascular event.
- the ARTERIORISKMARKERS and methods of use disclosed herein provide tools that can be used in combination with such risk prediction algorithms to assess, identify, or diagnose subjects who are asymptomatic and do not exhibit the traditional risk factors.
- the data derived from risk factors, risk prediction algorithms, and from the methods of the present invention can be combined and compared by known statistical techniques in order to compare the relative performance of the invention to the other techniques.
- biomarkers and methods of the present invention allow one of skill in the art to identify, diagnose, or otherwise assess those subjects who do not exhibit any symptoms of arteriovascular disease or an arteriovascular event, but who nonetheless may be at risk for developing arteriovascular disease or an arteriovascular event, or experiencing symptoms characteristic of arteriovascular disease or an arteriovascular event.
- One thousand and twenty-three analyte-based biomarkers have been identified as being found to have altered or modified presence or concentration levels in subjects who have arteriovascular disease, or who exhibit symptoms characteristic of arteriovascular disease or an arteriovascular event.
- Table 2 comprises the one thousand and twenty-three analyte-based ARTERIORISKMARKERS of the present invention, where the ARTERIORISKMARKER can be assigned to a single gene or gene product, and specifically excluding.
- the ARTERIORISKMARKERS presented herein encompasses all forms and variants, including but not limited to, polymorphisms, isoforms, mutants, derivatives, precursors including nucleic acids and pro-proteins, cleavage products, receptors (including soluble and transmembrane receptors), ligands, protein-ligand complexes, and post-translationally modified variants (such as cross-linking or glycosylation), fragments, and degradation products, as well as any multi-unit nucleic acid, protein, and glycoprotein structures comprised of any of the ARTERIORISKMARKERS as constituent sub-units of the fully assembled structure.
- kinase II beta chain CaMK-II beta subunit; calcium/calmodulin-dependent protein kinase IIB; calcium/calmodulin-dependent protein kinase type II beta chain; proline rich calmodulin-dependent protein kinase 111 caspase 3, apoptosis-related cysteine caspase-3: PARP cleavage protease; SREBP CASP3 peptidase cleavage activity 1; Yama; apopain; caspase 3; caspase 3, apoptosis-related cysteine protease; cysteine protease CPP32; procaspase3 112 caspase 8, apoptosis-related cysteine caspase 8 - CAP4, FLICE, MACH, MCH5, CASP8 peptidase FADD-homologous ICE/CED-3-like protease; MACH-alpha-1/2/3 protein; MACH-beta-1/2/3/4 protein; Mch
- CD40L platelet-bound CD40L
- CD154 CD40L
- CD40 ligand T-B cell-activating molecule; TNF-related activation protein; tumor necrosis factor (ligand) superfamily member 5; tumor necrosis factor (ligand) superfamily, member 5 (hyper-IgM syndrome); tumor necrosis factor ligand superfamily member 5 150 CD44 molecule (Indian blood group) CD44, CDW44 - ECMR-III, IN, LHR, MC56, CD44 MDU2, MDU3, MIC4, MUTCH-I, Pgp1, CD44 antigen; CD44 antigen (Indian blood group); CD44 antigen (homing function and Indian blood group system); CD44 epithelial domain (CD44E); CDW44 antigen; GP90 lymphocyte homing/adhesion receptor; Hermes antigen
- Cdc6 CDC18 (cell division cycle 18, S. pombe , CDC6 homolog)-like; CDC6 (cell division cycle 6, S. cerevisiae ) homolog; CDC6 homolog; CDC6- related protein 932 cadherin 1, type 1, E-cadherin (epithelial) Arc-1, CD324, CDHE, ECAD, LCAM, UVO, CDH1 cadherin 1, E-cadherin (epithelial); cadherin 1, type 1; calcium-dependent adhesion protein, epithelial; cell-CAM 120/80; uvomorulin 933 cyclin-dependent kinase 4 CDK4: cell division kinase 4; melanoma CDK4 cutaneous malignant, 3 934 cyclin-dependent kinase 5 cyclin-dependent kinase 5, PSSALRE, protein CDK5 kinase CDK5 splicing 935 cyclin-dependent
- Chk1 CHK1 (checkpoint, S. pombe ) homolog; CHEK1 CHK1 checkpoint homolog; Checkpoint, S. pombe , homolog of, 1 157 CHK2 checkpoint homolog ( S. pombe ) Chk2: CHK2 (checkpoint, S.
- pombe homolog
- CHEK2 checkpoint-like protein CHK2 protein kinase CHK2; serine/threonine-protein kinase CHK2
- chromogranin A parathyroid secretory protein 1
- parathyroid secretory protein 1 159 chitinase 1 (chitotriosidase) chitotriosidase - chitotriosidase; plasma CHIT1 methylumbelliferyl tetra-N-acetylchitotetraoside hydrolase 160 choline kinase alpha choline kinase - CHK, CKI CHKA 161 choline kinase beta choline kinase (CHK) - CHETK, CHKL, choline CHKB kinase-like, choline/ethanolamine kinase 162 cholinergic receptor,
- insulin-like growth IGF1 factor-1 428 insulin-like growth factor 1 receptor insulin like growth factor 1 receptor - CD221, IGF1R IGFIR, JTK13, clone 1900 unknown protein 429 insulin-like growth factor binding protein 1 insulin-like growth factor binding protein-1 IGFBP1 (IGFBP-1) - AFBP, IBP1, IGF-BP25, PP12, hIGFBP-1, IGF-binding protein 1; alpha- pregnancy-associated endometrial globulin; amniotic fluid binding protein; binding protein- 25; binding protein-26; binding protein-28; growth hormone independent-binding protein; placental protein 12 430 insulin-like growth factor binding protein 3 insulin-like growth factor binding protein 3: IGFBP3 IGF-binding protein 3 - BP-53, IBP3, IGF- binding protein 3; acid stable subunit of the 140 K IGF complex; binding protein 29; binding protein 53; growth hormone-dependent binding protein 431 interleukin 10 IL-10, CSIF, IL-10,
- NR0B2 member 2 Member 2 (NR0B2) - SHP, SHP1, orphan nuclear receptor SHP; short heterodimer partner; small heterodimer partner 627 nuclear receptor subfamily 1, group D, Human Nuclear Receptor NR1D1 - EAR1, NR1D1 member 1 THRA1, THRAL, ear-1, hRev, Rev-erb-alpha; thyroid hormone receptor, alpha-like 628 nuclear receptor subfamily 1, group H, Liver X Receptor Beta - LXR-b, LXRB, NER, NR1H2 member 2 NER-I, RIP15, UNR, LX receptor beta; liver X receptor beta; nuclear orphan receptor LXR-beta; oxysterols receptor LXR-beta; steroid hormone- nuclear receptor NER; ubiquitously-expressed nuclear receptor 629 nuclear receptor subfamily 1, group H, LXR-alpha - LXR-a, LXRA, RLD-1, liver X NR1
- ARTERIORISKMARKERS In addition to the above listed analyte-based ARTERIORISKMARKERS, all of the previously described Clinical Parameters and Traditional Laboratory Risk Factors are also considered ARTERIORISKMARKERS.
- ARTERIORISKMARKERS come from a diverse set of physiological and biological pathways, including many which are not commonly accepted to be related to arteriovascular disease. These groupings of different ARTERIORISKMARKERS, even within those high significance segments, may passage differing signals of the stage or rate of the progression of the disease. Such distinct groupings of ARTERIORISKMARKERS may allow a more biologically detailed and clinically useful signal from the ARTERIORISKMARKERS as well as opportunities for pattern recognition within the ARTERIORISKMARKER algorithms combining the multiple ARTERIORISKMARKER signals.
- the present invention concerns, in one aspect, a subset of ARTERIORISKMARKERS; other ARTERIORISKMARKERS and even biomarkers which are not listed in the above Table 2, but related to these physiological and biological pathways, may prove to be useful given the signal and information provided from these studies.
- biomarker pathway participants i.e., other biomarker participants in common pathways with those biomarkers contained within the list of ARTERIORISKMARKERS in the above Table 2
- biomarker pathway participants are also relevant pathway participants in arteriovascular disease or an arteriovascular event, they may be functional equivalents to the biomarkers thus far disclosed in Table 2.
- biomarkers will be very highly correlated with the biomarkers listed as ARTERIORISKMARKERS in Table 1 (for the purpose of this application, any two variables will be considered to be “very highly correlated” when they have a Coefficient of Determination (R 2 ) of 0.5 or greater).
- the present invention encompasses such functional and statistical equivalents to the aforementioned ARTERIORISKMARKERS.
- the statistical utility of such additional ARTERIORISKMARKERS is substantially dependent on the cross-correlation between multiple biomarkers and any new biomarkers will often be required to operate within a panel in order to elaborate the meaning of the underlying biology.
- One or more, preferably two or more of the listed ARTERIORISKMARKERS can be detected in the practice of the present invention. For example, two (2), three (3), four (4), five (5), ten (10), fifteen (15), twenty (20), forty (40), fifty (50), seventy-five (75), one hundred (100), one hundred and twenty five (125), one hundred and fifty (150), one hundred and seventy-five (175), two hundred (200), two hundred and ten (210), two hundred and twenty (220), two hundred and thirty (230), two hundred and forty (240), two hundred and fifty (250), two hundred and sixty (260) or more, four hundred (400) or more, six hundred (600) or more, eight hundred (800) or more, and 1000 (1000) or more ARTERIORISKMARKERS can be detected.
- all 1023 ARTERIORISKMARKERS listed herein can be detected.
- Preferred ranges from which the number of ARTERIORISKMARKERS can be detected include ranges bounded by any minimum selected from between one and 1,023, particularly two, five, ten, twenty, fifty, seventy-five, one hundred, one hundred and twenty five, one hundred and fifty, one hundred and seventy-five, two hundred, two hundred and ten, two hundred and twenty, two hundred and thirty, two hundred and forty, two hundred and fifty, five hundred, seven hundred, and 1000 paired with any maximum up to the total known ARTERIORISKMARKERS, particularly five, ten, twenty, fifty, and seventy-five.
- Particularly preferred ranges include two to five (2-5), two to ten (2-10), two to fifty (2-50), two to seventy-five (2-75), two to one hundred (2-100), five to ten (5-10), five to twenty (5-20), five to fifty (5-50), five to seventy-five (5-75), five to one hundred (5-100), ten to twenty (10-20), ten to fifty (10-50), ten to seventy-five (10-75), ten to one hundred (10-100), twenty to fifty (20-50), twenty to seventy-five (20-75), twenty to one hundred (20-100), fifty to seventy-five (50-75), fifty to one hundred (50-100), one hundred to one hundred and twenty-five (100-125), one hundred and twenty-five to one hundred and fifty (125-150), one hundred and fifty to one hundred and seventy five (150-175), one hundred and seventy-five to two hundred (175-200), two hundred to two hundred and ten (200-210), two hundred and ten to two hundred and twenty (210-220), two
- a “panel” within the context of the present invention means a group of biomarkers (whether they are ARTERIORISKMARKERS, clinical parameters, or traditional laboratory risk factors) that includes more than one ARTERIORISKMARKER.
- a panel can also comprise additional biomarkers, e.g., clinical parameters, traditional laboratory risk factors, known to be present or associated with arteriovascular disease, in combination with a selected group of the ARTERIORISKMARKERS listed in Table 2.
- a common measure of statistical significance is the p-value, which indicates the probability that an observation has arisen by chance alone; preferably, such p-values are 0.05 or less, representing a 5% or less chance that the observation of interest arose by chance.
- Such p-values depend significantly on the power of the study performed.
- none of the individual ARTERIORISKMARKERS demonstrated a very high degree of diagnostic accuracy when used by itself for the diagnosis of arteriovascular disease or an arteriovascular event, even though many showed statistically significant differences between the study populations (as seen in FIG. 4 and FIG. 5 in the Examples).
- each ARTERIORISKMARKER is taken individually to assess the individual subjects of the population, such ARTERIORISKMARKERS are of limited use in the intended risk indications for the invention (as is shown in FIG. 14 ).
- Combinations of multiple clinical parameters used singly alone or together in formulas is another approach, but also generally has difficulty in reliably achieving a high degree of diagnostic accuracy for individual subjects when tested across multiple study populations except when the blood-borne biomarkers are included (by way of example, FIG. 6 demonstrates this in the Examples). Even when individual traditional laboratory risk factors that are blood-borne biomarkers are added to clinical parameters, as with HDLC within the Framingham Risk Score of Wilson (1998), it is difficult to reliably achieve a high degree of diagnostic accuracy for individual subjects when tested across multiple study populations.
- a formula or biomarker used herein, for a formula or biomarker (including ARTERIORISKMARKERS, clinical parameters, and traditional laboratory risk factors) to “reliably achieve” a given level of diagnostic accuracy measnt to achieve this metric under cross-validation (such as LOO-CV or 10-Fold CV within the original population) or in more than one population (e.g., demonstrate it beyond the original population in which the formula or biomarker was originally measured and trained).
- cross-validation such as LOO-CV or 10-Fold CV within the original population
- more than one population e.g., demonstrate it beyond the original population in which the formula or biomarker was originally measured and trained.
- ARTERIORISKMARKER performance, and the general performance of formulas combining only the traditional clinical parameters and few traditional laboratory risk factors
- the present inventors have noted that certain specific combinations of two or more ARTERIORISKMARKERS can also be used as multi-biomarker panels comprising combinations of ARTERIORISKMARKERS that are known to be involved in one or more physiological or biological pathways, and that such information can be combined and made clinically useful through the use of various formulae, including statistical classification algorithms and others, combining and in many cases extending the performance characteristics of the combination beyond that of the individual ARTERIORISKMARKERS.
- These specific combinations show an acceptable level of diagnostic accuracy, and, when sufficient information from multiple ARTERIORISKMARKERS is combined in a trained formula, often reliably achieve a high level of diagnostic accuracy transportable from one population to another.
- the suboptimal performance in terms of high false positive rates on a single biomarker measured alone may very well be an indicator that some important additional information is contained within the biomarker results—information which would not be elucidated absent the combination with a second biomarker and a mathematical formula.
- formula such as statistical classification algorithms can be directly used to both select ARTERIORISKMARKERS and to generate and train the optimal formula necessary to combine the results from multiple ARTERIORISKMARKERS into a single index.
- techniques such as forward (from zero potential explanatory parameters) and backwards selection (from all available potential explanatory parameters) are used, and information criteria, such as AIC or BIC, are used to quantify the tradeoff between the performance and diagnostic accuracy of the panel and the number of ARTERIORISKMARKERS used.
- information criteria such as AIC or BIC
- ARTERIORISKMARKERS are frequently selected across many different formulas and model types for biomarker selection and model formula construction.
- One aspect of the present invention relates to selected key biomarkers that are categorized based on the frequency of the presence of the ARTERIORISKMARKERS and in the best fit models of given types taken across multiple population studies.
- ARTERIORISKMARKERS One such grouping of several classes of ARTERIORISKMARKERS is presented below in Table 3 and again in FIG. 1 .
- Glucose includes fasting plasma glucose (Glucose), or glucose levels during and after oral glucose tolerance (Gluc120) or other challenge testing.
- INS includes fasting insulin (Insulin), or insulin levels during and after oral glucose tolerance (Ins120) or other challenge testing. Used generally, it includes its precursor pro-insulin, and cleavage product soluble C-peptide (SCp).
- Table 3 above may be used to construct an ARTERIORISKMARKER panel comprising a series of individual ARTERIORISKMARKERS.
- the table derived using the above statistical and pathway informed classification techniques, is intended to assist in the construction of preferred embodiments of the invention by choosing individual ARTERIORISKMARKERS from selected categories of multiple ARTERIORISKMARKERS.
- biomarkers from one or more of the above lists of Clinical Parameters, Traditional Laboratory Risk Factors, Core Markers I and II, Supplemental Markers I and II, and Additional Markers I and II are selected, however, the invention also concerns selection of at least two, at least three, at least four, at least five, at least six, at least seven, at least eight, at least nine, at least ten, at least eleven, and at least twelve of these biomarkers, and larger panels up to the entire set of biomarkers listed herein.
- At least two, at least three, at least four, at least five, at least six, at least seven, at least eight, at least nine, at least ten, at least eleven, or at least twelve biomarkers can be selected from Core Biomarkers I and II, or from Supplemental Biomarkers I and II.
- a preferred approach involves first choosing one or more ARTERIORISKMARKERS from the columns labeled Core Biomarkers I and II, which represents those ARTERIORISKMARKERS most frequently chosen using the various selection algorithms.
- ARTERIORISKMARKERS listed in the Core Biomarkers I and II columns shown above for the discrimination of subjects likely to convert to arteriovascular events from those who are not likely to do so.
- the higher performing ARTERIORISKMARKER panels generally contain ARTERIORISKMARKERS chosen first from the list in the Core Biomarker I column, with the highest levels of performance when several ARTERIORISKMARKERS are chosen from this category.
- ARTERIORISKMARKERS in the Core Biomarker II column can also be chosen first, and, in sufficiently large panels may also achieve high degrees of accuracy, but generally are most useful in combination with the ARTERIORISKMARKERS in the Core Biomarker I column shown above.
- Panels of ARTERIORISKMARKERS chosen in the above fashion may also be supplemented with one or more ARTERIORISKMARKERS chosen from either or both of the columns labeled Supplemental Markers I and Additional Markers II or from the columns labeled “Traditional Laboratory Risk Factors” and “Clinical Parameters.”
- Supplemental Markers I and Additional Markers II or from the columns labeled “Traditional Laboratory Risk Factors” and “Clinical Parameters.”
- Clinical Parameters preference is given to Age and measures of blood pressure (SBP and DBP) and of waist or hip circumference.
- Such Additional Biomarkers can be added to panels constructed from one or more ARTERIORISKMARKERS from the Core Biomarker I and/or Core Biomarker II columns.
- Supplemental Biomarkers can also be used individually as initial seeds in construction of several panels together with other ARTERIORISKMARKERS.
- the ARTERIORISKMARKERS identified in the Supplemental Biomarkers I and Supplemental Biomarkers II column are identified as common substitution strategies for Core Biomarkers particularly in larger panels, and panels so constructive often still arrive at acceptable diagnostic accuracy and overall ARTERIORISKMARKER panel performance.
- some substitutions of Core Biomarkers for Supplemental Biomarkers are beneficial for panels over a certain size, and can result in different models and selected sets of ARTERIORISKMARKERS in the panels selected using forward versus stepwise (looking back and testing each previous ARTERIORISKMARKER's individual contribution with each new ARTERIORISKMARKER addition to a panel) selection formula.
- biomarker substitutes for individual Core Biomarkers may also be derived from substitution analysis (presenting only a constrained set of biomarkers, without the relevant Core Biomarker, to the selection formula used, and comparing the before and after panels constructed) and replacement analysis (replacing the relevant Core Biomarker with every other potential biomarker parameter, reoptimizing the formula coefficients or weights appropriately, and ranking the best replacements by a performance criteria).
- initial and subsequent Core or Supplemental Biomarkers, or Traditional Laboratory Risk Factors or Clinical Parameters may also be deliberately selected from a field of many potential ARTERIORISKMARKERS by ARTERIORISKMARKER selection formula, including the actual performance of each derived statistical classifier algorithm itself in a training subject population, in order to maximize the improvement in performance at each incremental addition of a ARTERIORISKMARKER.
- many acceptably performing panels can be constructed using any number of ARTERIORISKMARKERS up to the total set measured in one's individual practice of the invention (as summarized in FIG. 7 , and in detail in FIGS. 10, 11 , 20 and 21 for the relevant Example populations).
- FIG. 2 is a flow chart depicting ARTERIORISKMARKER pathophysiology and progression and biomarker functions, pathways and other categories over the spectrum of arteriovascular disease, including numerical references to the canonical molecular pathways as currently listed within the Kyoto University Encyclopedia of Genes and Genomes (KEGG) web site.
- KEGG Kyoto University Encyclopedia of Genes and Genomes
- Two or more ARTERIORISKMARKERS of the present invention can also be combined into marker panels comprising combinations of ARTERIORISKMARKERS that are known to be involved in one or more physiological pathways.
- Examples of ARTERIORISKMARKER Component Categories and a representative number of ARTERIORISKMARKERS implicated in the physiological pathways for such Component Categories are disclosed herein, without limitation of the forgoing techniques of marker panel construction, or of the applicability of alternative ARTERIORISKMARKERS or biomarkers from functionally equivalent classes which are also involved in the same Component Categories and their constituent physiological pathways.
- ARTERIORISKMARKERS can be classified into panels that comprise biomarkers specific to a particular disease pathway, disease site, disease stage, disease kinetics, and can also comprise markers that can be used to exclude and distinguish arteriovascular diseases from each other (“exclusion markers”).
- Such panels can comprise two or more ARTERIORISKMARKERS, but can also comprise one ARTERIORISKMARKER, where that one ARTERIORISKMARKER can provide information about several pathways, diseases, disease kinetics, or disease stages.
- pathway activity marker panels can comprise one or more ARTERIORISKMARKERS that are indicative of general physiological pathways that are active in the subject and associated with an arteriovascular disease, such as, but not limited to inflammation, platelet aggregation, apoptosis, angiogenesis, lipid metabolism, and vascular calcification.
- Disease site marker panels can comprise one or more ARTERIORISKMARKERS that are indicative of a particular site of disease, such as sites involved in CAD (coronary arteries), PAD (peripheral arteries), or CVD (cerebrovascular arteries).
- Such panels can comprise markers of necrosis at high sensitivity, such as, but not limited to ARTERIORISKMARKERS corresponding to creatine kinase MB isozyme (CKMB), troponin I, and troponin T.
- markers of necrosis at high sensitivity such as, but not limited to ARTERIORISKMARKERS corresponding to creatine kinase MB isozyme (CKMB), troponin I, and troponin T.
- Another marker panel that is useful in the practice of the present invention is a disease stage marker, wherein one or more ARTERIORISKMARKERS are indicative of the expression kinetics that vary with the absolute stage of progression for the thrombosis prior to the subject exhibiting symptoms of the arteriovascular disease.
- ARTERIORISKMARKERS include, without limitation, thrombus precursor protein (TpP) and d-dimer.
- the invention also concerns marker panels that comprise one or more ARTERIORISKMARKERS that are indicative of the speed of progression of an arteriovascular disease, wherein the ARTERIORISKMARKERS provide information on the kinetics of expression and how they vary with the speed of disease progression.
- ARTERIORISKMARKERS include, without limitation, chemoattractants and cell activation markers having enzymatic effects on disease development progression.
- An additional marker panel provided by the present invention comprises “exclusion markers”, wherein one or more ARTERIORISKMARKERS are indicative of a common disease that do not correspond to or are not involved in arteriovascular disease, or which distinguish among different characteristics and sequelae associated with a particular type of arteriovascular disease.
- FIG. ARTERIORISKMARKERS Adipocytokine KEGG 4920; TNF, LEP, ADIPOQ, PPARA, Signaling Pathway PPARD, PPARG Insulin Signaling KEGG 4910; INS, INSR, PDE3, GSK3B, PDK1, Pathway PDK2
- FIG. ARTERIORISKMARKERS Complement and Coagulation KEGG 4610; FIG. 2 -L C3, C4, vWF, F2, F3, F5, F7, F9, F10, Cascade Pathway F12, F13, CpB2, TFPI, PROC (Protein C), SERPIN G1, PLAT (TPA), PLG (Plasminogen), CD55 (DAF) Extracellular Matrix (ECM) - KEGG 4512; FIG.
- FIG. ARTERIORISKMARKERS Cellular Necrosis CKMB, Troponin I, Troponin C, Troponin T, Tropomyosin, Myoglobin, Myosin Light Chain, Total CK, Actin, Myosin, Fibronectin Hemodynamic Stress and — BNP, proNT-BNP, ANP Remodelling
- FIG. ARTERIORISKMARKERS Physiological — Blood Pressure, Weight, Body- Mass ARTERIORISKMARKERS Index, Resting Heart Rate, Sex, Age, Diabetes, Smoking, Hip or Waist Circumference
- FIG. ARTERIORISKMARKERS Statistical and Syntactic — Linear classifiers (Fisher's linear (Structural) Classification discriminant, Logistic regression, Algorithms and Index Na ⁇ ve Bayes classifier, Perceptron), k- Construction Methods nearest neighbor, Boosting, Decision Trees, Neural Networks, Bayesian Networks, Support Vector Machines, Hidden Markov Models
- ARTERIORISKMARKERS need not be limited or bound by the categories A-G as disclosed above, but may also be analyzed in total or individually, or in clusters not reflected in categories A-G. Furthermore, the above component marker listings do not purport to be complete; further references to the KEGG pathways contained within FIG. 2 are made above so as to enable the more rapid addition of new biomarkers into the above groupings when they are shown to be functional or statistical equivalents of an existing ARTERORISKMARKER.
- Table 11 provides a summary of specific example ARTERIORISKMARKER panels and their inclusion of one or more biomarkers from one or more categories A-G, as indicated below.
- the manifestations of the ARTERIORISKMARKERS and the categories proceeds with the progression of the disease, allowing several of such categories to serve as a measure of disease status or of the speed of disease progression.
- constituent ARTERIORISKMARKERS within categories such as the Cellular Necrosis group can also provide specificity as to the focal organ site of the arteriovascular disease, for example, whether CAD, PAD, or CVD, as certain ARTERIORISKMARKERS have particular tissue specificity, as is the case with the cardiac troponins (I and T), which are highly specific for CAD.
- markers may be usable in this “site of disease indicator” role (as part of an overall panel) earlier than in the acute symptomatic phase where they are currently used.
- a prerequisite to this is that sufficient assay analytical performance is achieved to allow lower limits of detection and quantification of necrotic markers coming from asymptomatic microvasculature ischemic events.
- the ARTERIORISKMARKER panels of the present invention can also be used to generate reference values from a population of subjects who exhibit no symptoms (or who are asymptomatic) for an arteriovascular disease, or subjects who exhibit similar risk factors for an arteriovascular disease, such as similar body mass index, similar total cholesterol, similar LDL/HDL levels, similar blood glucose levels, similar systolic and/or diastolic blood pressure, subjects of same or similar age, subjects in the same or similar ethnic group, subjects exhibiting similar symptoms of an arteriovascular disease, or subjects having family histories of atherosclerosis, atherothrombosis, CAD, PAD, or CVD.
- similar body mass index such as similar body mass index, similar total cholesterol, similar LDL/HDL levels, similar blood glucose levels, similar systolic and/or diastolic blood pressure, subjects of same or similar age, subjects in the same or similar ethnic group, subjects exhibiting similar symptoms of an arteriovascular disease, or subjects having family histories of atherosclerosis, atherothrombosis
- any formula may be used to combine ARTERIORISKMARKER results into indices useful in the practice of the invention.
- indices may indicate, among the various other indications, the probability, likelihood, absolute or relative risk, time to or rate of conversion from one to another disease states, or make predictions of future biomarkers measurements of arteriovascular disease such as HDLC, LDL, CRP, coronary calcium scoring, used in the diagnosis of frank arteriovascular disease. This may be for a specific time period or horizon, or for remaining lifetime risk, or simply be provided as an index relative to another reference subject population.
- model and formula types beyond those mentioned herein and in the definitions above are well known to one skilled in the art.
- the actual model type or formula used may itself be selected from the field of potential models based on the performance and diagnostic accuracy characteristics of its results in a training population.
- the specifics of the formula itself may commonly be derived from ARTERIORISKMARKER results in the relevant training population.
- such formula may be intended to map the feature space derived from one or more ARTERIORISKMARKER inputs to a set of subject classes (e.g. useful in predicting class membership of subjects as normal, at risk for having an arteriovascular event, having arteriovascular disease), to derive an estimation of a probability function of risk using a Bayesian approach (e.g. the risk of arteriovascular disease or an arteriovascular event), or to estimate the class-conditional probabilities, then use Bayes' rule to produce the class probability function as in the previous case.
- subject classes e.g. useful in predicting class membership of subjects as normal, at risk for having an arteriovascular event
- Preferred formulas include the broad class of statistical classification algorithms, and in particular the use of discriminant analysis.
- the goal of discriminant analysis is to predict class membership from a previously identified set of features.
- LDA linear discriminant analysis
- features can be identified for LDA using an eigengene based approach with different thresholds (ELDA) or a stepping algorithm based on a multivariate analysis of variance (MANOVA). Forward, backward, and stepwise algorithms can be performed that minimize the probability of no separation based on the Hotelling-Lawley statistic.
- Eigengene-based Linear Discriminant Analysis is a feature selection technique developed by Shen et al. (2006). The formula selects features (e.g. biomarkers) in a multivariate framework using a modified eigen analysis to identify features associated with the most important eigenvectors. “Important” is defined as those eigenvectors that explain the most variance in the differences among samples that are trying to be classified relative to some threshold.
- a support vector machine is a classification formula that attempts to find a hyperplane that separates two classes.
- This hyperplane contains support vectors, data points that are exactly the margin distance away from the hyperplane.
- the dimensionality is expanded greatly by projecting the data into larger dimensions by taking non-linear functions of the original variables (Venables and Ripley, 2002).
- filtering of features for SVM often improves prediction.
- Features e.g., biomarkers
- KW non-parametric Kruskal-Wallis
- a random forest (RF, Breiman, 2001) or recursive partitioning (RPART, Breiman et al., 1984) can also be used separately or in combination to identify biomarker combinations that are most important. Both KW and RF require that a number of features be selected from the total. RPART creates a single classification tree using a subset of available biomarkers.
- an overall predictive formula for all subjects, or any known class of subjects may itself be recalibrated or otherwise adjusted based on adjustment for a population's expected prevalence and mean biomarker parameter values, according to the technique outlined in D'Agostino et al, (2001) JAMA 286:180-187, or other similar normalization and recalibration techniques.
- Such epidemiological adjustment statistics may be captured, confirmed, improved and updated continuously through a registry of past data presented to the model, which may be machine readable or otherwise, or occasionally through the retrospective query of stored samples or reference to historical studies of such parameters and statistics. Additional examples that may be the subject of formula recalibration or other adjustments include statistics used in studies by Pepe, M. S. et al, 2004 on the limitations of odds ratios; Cook, N. R., 2007 relating to ROC curves; and Vasan, R. S., 2006 regarding biomarkers of cardiovascular disease.
- numeric result of a classifier formula itself may be transformed post-processing by its reference to an actual clinical population and study results and observed endpoints, in order to calibrate to absolute risk and provide confidence intervals for varying numeric results of the classifier or risk formula.
- An example of this is the presentation of absolute risk, and confidence intervals for that risk, derivied using an actual clinical study, chosen with reference to the output of the recurrence score formula in the Oncotype Dx product of Genomic Health, Inc. (Redwood City, Calif.).
- a further modification is to adjust for smaller sub-populations of the study based on the output of the classifier or risk formula and defined and selected by their Clinical Parameters, such as age or sex.
- An ARTERIORISKMARKER panel can be constructed and formula derived specifically to enhance performance for use also in subjects undergoing therapeutic interventions, or a separate panel and formula may alternatively be used solely in such patient populations.
- An aspect of the invention is the use of specific known characteristics of ARTERIORISKMARKERS and their changes in such subjects for such panel construction and formula derivation. Such modifications may enhance the performance of various indications noted above in arteriovascular disease prevention, and diagnosis, therapy, monitoring, and prognosis of arteriovascular disease or arteriovascular events.
- ARTERIORISKMARKERS are known to those skilled in the art to vary predictably under therapeutic intervention, whether lifestyle (e.g. diet and exercise), surgical (e.g. coronary artery bypass graft (CABG), percutaneous intervention (PCI), bare metal, bioabsorbable or drug eluting (DES) stent placement, bariatric surgery) or pharmaceutical (e.g, one of the various classes of drugs mentioned herein or known to modify common risk factors or risk of arterio) intervention.
- lifestyle e.g. diet and exercise
- surgical e.g. coronary artery bypass graft (CABG), percutaneous intervention (PCI), bare metal, bioabsorbable or drug eluting (DES) stent placement, bariatric surgery
- DES drug eluting
- POMC proopiomelanocortin
- biomarkers listed most particularly the Clinical Parameters and the Traditional Laboratory Risk Factors (including such biomarkers as SBP, DBP, CHOL, HDL, and HBA1c), are furthermore traditionally used as surrogate or primary endpoint markers of efficacy for entire classes of arteriovascular disease-modulating agents, thus most certainly changing in a statistically significant way.
- genetic biomarkers such as those polymorphisms known in the PPARG and INSR (and generally all genetic biomarkers absent somatic mutation) are similarly known not to vary in their measurement under particular therapeutic interventions. Such variation may or may not impact the general validity of a given panel, but will often impact the index values reported, and may require different marker selection, the formula to be re-optimized or other changes to the practice of the invention.
- Alternative model calibrations may also be practiced in order to adjust the normally reported results under a therapeutic intervention, including the use of manual table lookups and adjustment factors.
- ARTERIORISKMARKERS Such properties of the individual ARTERIORISKMARKERS can thus be anticipated and exploited to select, guide, and monitor therapeutic interventions.
- specific ARTERIORISKMARKERS may be added to, or subtracted from, the set under consideration in the construction of the ARTERIORISKMARKER PANELS, based on whether they are known to vary, or not to vary, under therapeutic intervention.
- such ARTERIORISKMARKERS may be individually normalized or formula recalibrated to adjust for such effects according to the above and other means well known to those skilled in the art.
- Clinical Parameters may be used in the practice of the invention as an ARTERIORISKMARKER input to a formula or as a pre-selection criteria defining a relevant population to be measured using a particular ARTERIORISKMARKER panel and formula.
- Clinical Parameters may also be useful in the biomarker normalization and pre-processing, or in ARTERIORISKMARKER selection, panel construction, formula type selection and derivation, and formula result post-processing.
- a similar approach can be taken with the Traditional Laboratory Risk Factors, as either an input to a formula or as a pre-selection criteria.
- Biomarkers may be measured in using several techniques designed to achieve more predictable subject and analytical variability.
- subject variability many of the above ARTERIORISKMARKERS are commonly measured in a fasting state, and most commonly in the morning, providing a reduced level of subject variability due to both food consumption and metabolism and diurnal variation.
- the invention hereby claims all fasting and temporal-based sampling procedures using the ARTERIORISKMARKERS described herein. Pre-processing adjustments of ARTERIORISKMARKER results may also be intended to reduce this effect.
- the actual measurement of levels or amounts of the ARTERIORISKMARKERS can be determined at the protein or nucleic acid level using any method known in the art. For example, at the nucleic acid level, Northern and Southern hybridization analysis, as well as ribonuclease protection assays using probes which specifically recognize one or more of these sequences can be used to determine gene expression. Alternatively, amounts of ARTERIORISKMARKERS can be measured using reverse-transcription-based PCR assays (RT-PCR), e.g., using primers specific for the differentially expressed sequence of genes. Amounts of ARTERIORISKMARKERS can also be determined at the protein level, e.g., by measuring the levels of peptides encoded by the gene products described herein, or activities thereof.
- RT-PCR reverse-transcription-based PCR assays
- Such methods include, e.g., immunoassays based on antibodies to proteins encoded by the genes, aptamers or molecular imprints. Any biological material can be used for the detection/quantification of the protein or its activity. Alternatively, a suitable method can be selected to determine the activity of proteins encoded by the marker genes according to the activity of each protein analyzed.
- the ARTERIORISKMARKER proteins, polypeptides, mutations, and polymorphisms thereof can be detected in any suitable manner, but is typically detected by contacting a sample from the subject with an antibody which binds the ARTERIORISKMARKER protein, polypeptide, mutation, or polymorphism and then detecting the presence or absence of a reaction product.
- the antibody may be monoclonal, polyclonal, chimeric, or a fragment of the foregoing, as discussed in detail above, and the step of detecting the reaction product may be carried out with any suitable immunoassay.
- the sample from the subject is typically a biological fluid as described above, and may be the same sample of biological fluid used to conduct the method described above.
- Immunoassays carried out in accordance with the present invention may be homogeneous assays or heterogeneous assays.
- the immunological reaction usually involves the specific antibody (e.g., anti-ARTERIORISKMARKER protein antibody), a labeled analyte, and the sample of interest.
- the signal arising from the label is modified, directly or indirectly, upon the binding of the antibody to the labeled analyte.
- Both the immunological reaction and detection of the extent thereof can be carried out in a homogeneous solution.
- Immunochemical labels which may be employed include free radicals, radioisotopes, fluorescent dyes, enzymes, bacteriophages, or coenzymes.
- the reagents are usually the sample, the antibody, and means for producing a detectable signal.
- Samples as described above may be used.
- the antibody can be immobilized on a support, such as a bead (such as protein A and protein G agarose beads), plate or slide, and contacted with the specimen suspected of containing the antigen in a liquid phase.
- the support is then separated from the liquid phase and either the support phase or the liquid phase is examined for a detectable signal employing means for producing such signal.
- the signal is related to the presence of the analyte in the sample.
- Means for producing a detectable signal include the use of radioactive labels, fluorescent labels, or enzyme labels.
- an antibody which binds to that site can be conjugated to a detectable group and added to the liquid phase reaction solution before the separation step.
- the presence of the detectable group on the solid support indicates the presence of the antigen in the test sample.
- suitable immunoassays are oligonucleotides, immunoblotting, immunofluorescence methods, immunoprecipitation, chemiluminescence methods, electrochemiluminescence (ECL) or enzyme-linked immunoassays.
- Antibodies can be conjugated to a solid support suitable for a diagnostic assay (e.g., beads such as protein A or protein G agarose, microspheres, plates, slides or wells formed from materials such as latex or polystyrene) in accordance with known techniques, such as passive binding.
- Antibodies as described herein may likewise be conjugated to detectable labels or groups such as radiolabels (e.g., 35 S, 125 I, 131 I), enzyme labels (e.g., horseradish peroxidase, alkaline phosphatase), and fluorescent labels (e.g., fluorescein, Alexa, green fluorescent protein, rhodamine) in accordance with known techniques.
- a diagnostic assay e.g., beads such as protein A or protein G agarose, microspheres, plates, slides or wells formed from materials such as latex or polystyrene
- Antibodies as described herein may likewise be conjugated to detectable labels or groups such as radiolabel
- Antibodies can also be useful for detecting post-translational modifications of ARTERIORISKMARKER proteins, polypeptides, mutations, and polymorphisms, such as tyrosine phosphorylation, threonine phosphorylation, serine phosphorylation, glycosylation (e.g., O-GlcNAc).
- Such antibodies specifically detect the phosphorylated amino acids in a protein or proteins of interest, and can be used in immunoblotting, immunofluorescence, and ELISA assays described herein. These antibodies are well-known to those skilled in the art, and commercially available.
- Post-translational modifications can also be determined using metastable ions in reflector matrix-assisted laser desorption ionization-time of flight mass spectrometry (MALDI-TOF) (Wirth, U. et al. (2002) Proteomics 2(10): 1445-51).
- MALDI-TOF reflector matrix-assisted laser desorption ionization-time of flight mass spectrometry
- the activities can be determined in vitro using enzyme assays known in the art.
- enzyme assays include, without limitation, kinase assays, phosphatase assays, reductase assays, among many others.
- Modulation of the kinetics of enzyme activities can be determined by measuring the rate constant KM using known algorithms, such as the Hill plot, Michaelis-Menten equation, linear regression plots such as Lineweaver-Burk analysis, and Scatchard plot.
- sequence information provided by the database entries for the ARTERIORISKMARKER sequences can be detected (if present) and measured using techniques well known to one of ordinary skill in the art.
- sequences within the sequence database entries corresponding to ARTERIORISKMARKER sequences, or within the sequences disclosed herein can be used to construct probes for detecting ARTERIORISKMARKER RNA sequences in, e.g., Northern blot hybridization analyses or methods which specifically, and, preferably, quantitatively amplify specific nucleic acid sequences.
- sequences can be used to construct primers for specifically amplifying the ARTERIORISKMARKER sequences in, e.g., amplification-based detection methods such as reverse-transcription based polymerase chain reaction (RT-PCR).
- amplification-based detection methods such as reverse-transcription based polymerase chain reaction (RT-PCR).
- RT-PCR reverse-transcription based polymerase chain reaction
- sequence comparisons in test and reference populations can be made by comparing relative amounts of the examined DNA sequences in the test and reference cell populations.
- RNA levels can be measured at the RNA level using any method known in the art. For example, Northern hybridization analysis using probes which specifically recognize one or more of these sequences can be used to determine gene expression. Alternatively, expression can be measured using reverse-transcription-based PCR assays (RT-PCR), e.g., using primers specific for the differentially expressed sequences. RNA can also be quantified using, for example, other target amplification methods (e.g., TMA, SDA, NASBA), or signal amplification methods (e.g., bDNA), and the like.
- RT-PCR reverse-transcription-based PCR assays
- RNA can also be quantified using, for example, other target amplification methods (e.g., TMA, SDA, NASBA), or signal amplification methods (e.g., bDNA), and the like.
- ARTERIORISKMARKER protein and nucleic acid metabolites can be measured.
- the term “metabolite” includes any chemical or biochemical product of a metabolic process, such as any compound produced by the processing, cleavage or consumption of a biological molecule (e.g., a protein, nucleic acid, carbohydrate, or lipid).
- Metabolites can be detected in a variety of ways known to one of skill in the art, including the refractive index spectroscopy (RI), ultra-violet spectroscopy (UV), fluorescence analysis, radiochemical analysis, near-infrared spectroscopy (near-IR), nuclear magnetic resonance spectroscopy (NMR), light scattering analysis (LS), mass spectrometry, pyrolysis mass spectrometry, nephelometry, dispersive Raman spectroscopy, gas chromatography combined with mass spectrometry, liquid chromatography combined with mass spectrometry, matrix-assisted laser desorption ionization-time of flight (MALDI-TOF) combined with mass spectrometry, ion spray spectroscopy combined with mass spectrometry, capillary electrophoresis, NMR and IR detection.
- RI refractive index spectroscopy
- UV ultra-violet spectroscopy
- fluorescence analysis radiochemical analysis
- radiochemical analysis near-inf
- the invention also includes a ARTERIORISKMARKER-detection reagent, e.g., nucleic acids that specifically identify one or more ARTERIORISKMARKER nucleic acids by having homologous nucleic acid sequences, such as oligonucleotide sequences, complementary to a portion of the ARTERIORISKMARKER nucleic acids or antibodies to proteins encoded by the ARTERIORISKMARKER nucleic acids packaged together in the form of a kit.
- the oligonucleotides can be fragments of the ARTERIORISKMARKER genes.
- the oligonucleotides can be 200, 150, 100, 50, 25, 10 or less nucleotides in length.
- the kit may contain in separate containers a nucleic acid or antibody (either already bound to a solid matrix or packaged separately with reagents for binding them to the matrix), control formulations (positive and/or negative), and/or a detectable label such as fluorescein, green fluorescent protein, rhodamine, cyanine dyes, Alexa dyes, luciferase, radiolabels, among others.
- Instructions e.g., written, tape, VCR, CD-ROM, etc.
- the assay may for example be in the form of a Northern hybridization or a sandwich ELISA as known in the art.
- ARTERIORISKMARKER detection reagents can be immobilized on a solid matrix such as a porous strip to form at least one ARTERIORISKMARKER detection site.
- the measurement or detection region of the porous strip may include a plurality of sites containing a nucleic acid.
- a test strip may also contain sites for negative and/or positive controls. Alternatively, control sites can be located on a separate strip from the test strip.
- the different detection sites may contain different amounts of immobilized nucleic acids, e.g., a higher amount in the first detection site and lesser amounts in subsequent sites.
- the number of sites displaying a detectable signal provides a quantitative indication of the amount of ARTERIORISKMARKERS present in the sample.
- the detection sites may be configured in any suitably detectable shape and are typically in the shape of a bar or dot spanning the width of a test strip.
- the kit contains a nucleic acid substrate array comprising one or more nucleic acid sequences.
- the nucleic acids on the array specifically identify one or more nucleic acid sequences represented by ARTERIORISKMARKERS 1-1023.
- the expression of 2, 3, 4, 5, 6, 7, 8, 9, 10, 15, 20, 25, 40, 50, 100, 125, 150, 175, 200, 300, 400, 500, 600, 700, 800, 900, 1000 or more of the sequences represented by ARTERIORISKMARKERS 1-1023 can be identified by virtue of binding to the array.
- the substrate array can be on, e.g., a solid substrate, e.g., a “chip” as described in U.S. Pat. No. 5,744,305.
- the substrate array can be a solution array, e.g., xMAP (Luminex, Austin, Tex.), Cyvera (Illumina, San Diego, Calif.), CellCard (Vitra Bioscience, Mountain View, Calif.) and Quantum Dots' Mosaic (Invitrogen, Carlsbad, Calif.).
- xMAP Luminex, Austin, Tex.
- Cyvera Illumina, San Diego, Calif.
- CellCard Vitra Bioscience, Mountain View, Calif.
- Quantum Dots' Mosaic Invitrogen, Carlsbad, Calif.
- Suitable sources for antibodies for the detection of ARTERIORISKMARKERS includecommercially available sources such as, for example, Abazyme, Abnova, Affinity Biologicals, AntibodyShop, Biogenesis, Biosense Laboratories, Calbiochem, Cell Sciences, Chemicon International, Chemokine, Clontech, Cytolab, DAKO, Diagnostic BioSystems, eBioscience, Endocrine Technologies, Enzo Biochem, Eurogentec, Fusion Antibodies, Genesis Biotech, GloboZymes, Haematologic Technologies, Immunodetect, Immunodiagnostik, Immunometrics, Immunostar, Immunovision, Biogenex, Invitrogen, Jackson ImmunoResearch Laboratory, KMI Diagnostics, Koma Biotech, LabFrontier Life Science Institute, Lee Laboratories, Lifescreen, Maine Biotechnology Services, Mediclone, MicroPharm Ltd., ModiQuest, Molecular Innovations, Molecular Probes, Neoclone, Neuromics, New England Biolabs, Novocastra, Novus Biologicals
- nucleic acid probes e.g., oligonucleotides, aptamers, siRNAs, antisense oligonucleotides, against any of the ARTERIORISKMARKERS in Table 2.
- Source Reagents A-large and diverse array of vendors that were used to source immunoreagents as a starting point for assay development, such as, but not limited to, Abazyme, Abnova, Affinity Biologicals, AntibodyShop, Biogenesis, Biosense Laboratories, Calbiochem, Cell Sciences, Chemicon International, Chemokine, Clontech, Cytolab, DAKO, Diagnostic BioSystems, eBioscience, Endocrine Technologies, Enzo Biochem, Eurogentec, Fusion Antibodies, Genesis Biotech, GloboZymes, Haematologic Technologies, Immunodetect, Immunodiagnostik, Immunometrics, Immunostar, Immunovision, Biogenex, Invitrogen, Jackson ImmunoResearch Laboratory, KMI Diagnostics, Koma Biotech, LabFrontier Life Science Institute, Lee Laboratories, Lifescreen, Maine Biotechnology Services, Mediclone, MicroPharm Ltd., ModiQuest, Molecular Innovations, Molecular Probes, Neoclone, Neuromics, New England Bio
- Immunoassays were developed in three steps: Prototyping, Validation, and Kit Release.
- Prototyping was conducted using standard ELISA formats when the two antibodies used in the assay were from different host species. Using standard conditions, anti-host secondary antibodies conjugated with horse radish peroxidase were evaluated in a standard curve. If a good standard curve was detected, the assay proceeded to the next step. Assays that had the same host antibodies went directly to the next step (e.g., mouse monoclonal sandwich assays).
- Validation of working assays was performed using the Zeptosense detection platform from Singulex, Inc. (St. Louis, Mo.).
- the detection antibody was first conjugated to the fluorescent dye Alexa 647.
- the conjugations used standard NHS ester chemistry, for example, according to the manufacturer.
- the assay was tested in a sandwich assay format using standard conditions. Each assay well was solubilized in a denaturing buffer, and the material was read on the Zeptosense platform.
- assays were typically applied to 24-96 serum samples to determine the normal distribution of the target analyte across clinical samples.
- the amount of serum required to measure the biomarker within the linear dynamic range of the assay was determined, and the assay proceeded to kit release.
- 0.004 microliters were used per well on average.
- kits including manufacturer, catalog numbers, lot numbers, stock and working concentrations, standard curve, and serum requirements were complied into a standard operating procedures for each biomarker assay. This kit was then released for use to test clinical samples.
- Example 1 presents the practice of the invention in a longitudinal case-control study design.
- the starting sample was a large population based longitudinal study following approximately 6,300 patients over a minimum of five years to date.
- patients were first selected based on no prior history of acute arteriovascular events at baseline study entry, and risk enriched to an estimated applicable clinical population most likely to be tested by an ARTERIORISKMARKER combination panel by applying an “entry” baseline requirement of age greater than or equal to 39 years old and body mass index of greater than or equal to 25.
- This population was then filtered to remove those who subsequently experienced an arteriovascular event during the study, such events including a broad definition of myocardial infarction, unstable angina, revascularization (such as thrombolysis, PCI or CABG), or ischemic stroke (hemorrhagic strokes were removed).
- An randomized sampling of 33 of these subjects who ultimately converted to arteriovascular events during the course of the study were initially selected as a Case arm for marker discovery and initial algorithm training.
- Example 1 herein focuses on a subset Case group of 26 subjects of the 33, excluding those 7 subjects who experienced strokes (and without any other arteriovascular events) during the duration of the study, resulting in a subset comprising solely those who experienced myocardial infarction (14 subjects), angina requiring hospitalization (11 patients), any revascularization procedure (17 patients), or any combination of these arteriovascular events. None of these 26 patients also experienced stokes during this period.
- each ARTERIORISKMARKER assay plate was reviewed for pass/fail criteria. Parameters taken into consideration included number of samples within range of the standard curve, serum control within the range of the standard curve, CVs of samples and dynamic range of assay.
- FIG. 6 is a chart depicting the Receiver Operator Characteristic (ROC) curve of a global risk assessment index according to the Framingham model for risk of future cardiovascular events, as measured and calculated for the Example 1 populations (sensitivity and specificity of the Framingham model to cardiovascular events excluding stroke patients from the analysis) and with the Area Under the Curve (AUC) statistic of 0.61 calculated and shown in the legend.
- ROC Receiver Operator Characteristic
- Example 1 various best fit models for the populations of Example 1 were also constructing using all of the Clinical Parameters and Traditional Laboratory Risk Factors of the invention (which include all of the aforementioned Framingham variables), this is presented, together with full models encompassing all of the blood-bourne ATERIORISKMARKERS and the total tested set of ATERIORISKMARKERS in FIG. 16 .
- ARTERIORISKMARKER parameters were transformed, according to the methodologies shown for each ARTERIORISKMARKER in FIG. 4 , and missing results were imputed. If the amount of missing data was greater than 1%, various imputation techniques were employed to evaluate the effect on the results, otherwise the k-nearest neighbor method (library EMV, R Project) was used using correlation as the distance metric and 6 nearest neighbors to estimate the missing values.
- the given concentrations represent population based means and standard deviations useful in the construction and optimization of assays in the practice of the invention.
- FIG. 5 is is a table further dividing the Cases cohort into sub-groupings based on the event type, separating stroke into one cohort, and, for the non-stroke subjects, based on the time elapsed from the baseline entry date to the study (also the sample collection date for the samples tested for ARTERIORISKMARKERS) to the earliest arteriovascular event date. Subsequent examination of subject records also indicated a group of 3 subjects who likely had an arteriovascular event prior to the baseline, these were also separated into a cohort. This table also provides the measured means and variances for each sub-group as otherwise described in FIG.
- Characteristics of the populations of Example 1 were considered in various predictive models, model types, and model parameters, and the AUC results of these formula are summarized in FIG. 19 .
- stepwise marker addition algorithms were constructed from null and full sets, as well as groupings seeded by initial markers and alternative selection strategies as described herein; an example of a cumulative step analysis and ROC curve result is presented in FIG. 7 for the ARTERIORISKMARKER of POMC, which evidenced strong prognostic value in the populations of the example, particularly when combined with Core Markers, Clinical Parameters and the Traditional Laboratory Risk Factors disclosed in the invention.
- FIG. 7 for the ARTERIORISKMARKER of POMC, which evidenced strong prognostic value in the populations of the example, particularly when combined with Core Markers, Clinical Parameters and the Traditional Laboratory Risk Factors disclosed in the invention.
- FIG. 7 is a chart depicting the ROC curves of multiple fitted linear discrimant analysis (LDA) models for risk of future arteriovascular events, as measured and calculated for the Example 1 populations, starting with a single ARTERIORISKMARKER clinical parameter (Age) ROC curve, then adding an additional ARTERIORISKMARKER (POMC, HDLC, and BMI) and reoptimizing the model at each subsequent ROC curve, with the AUC calculated and shown in the legend for each step.
- LDA linear discrimant analysis
- FIG. 8 is a chart depicting the ROC curves of a seven biomarker fitted LDA model for risk of future arteriovascular events, as measured and calculated for the Example 1 populations, with the AUC calculated and shown in the legend.
- This LDA model was forward selected from a group limited to blood-bourne ARTERIORISKMARKERS as its sole parameters, and included POMC, HDLC, VEGF, LEP, IL6ST, Ins120, and IGF1 as inputs, with a calculated AUC of 0.8.
- FIG. 9 is a chart depicting the ROC curves of a nine biomarker fitted LDA model for risk of future arteriovascular events, as measured and calculated for the Example 1 populations, with the AUC calculated and shown in the legend.
- This LDA model was forward selected from the complete group of both the selected blood-bourne analyte and clinical parameter ARTERIORISKMARKERS, and included Age, POMC, HDLC, CCL2, BMI, VEGF, IL18, IL6ST, EGF, with a calculated AUC of 0.88.
- FIG. 10 and FIG. 11 present two such analyses performed using the results from the Example 1 population.
- FIG. 10 is a chart depicting the ROC curve calculated AUC statistics for multiple expanding “best forward selected” LDA models, starting from a single ARTERIORISKMARKER and then at each step adding one more incremental forward selected ARTERIORISKMARKER, re-optimizing the LDA model, and graphing the derived AUC statistic. This continues through 53 selected ARTERIORISKMARKERS selected from a total set of the selected blood-bourne ARTERIORISKMARKERS, Sex and Family History (FamHX).
- a superimposed line shows the parallel changes in Akaike's Information Criterion (AIC), a measure of the goodness of fit of an estimated statistical model which trades off model complexity (size in total number of ARTERIORISKMARKER inputs) against how well the model fits the data (a lower AIC is relatively better than a higher one).
- AIC Akaike's Information Criterion
- FIG. 11 is also a chart depicting the ROC curve calculated AUC statistics for multiple expanding “best forward selected” LDA models, starting from a single ARTERIORISKMARKER and then at each step adding one more incremental forward selected ARTERIORISKMARKER, re-optimizing the LDA model, and graphing the derived AUC statistic.
- ARTERIORISKMARKERS representing the complete group of both the selected blood-bourne analyte and clinical parameter ARTERIORISKMARKERS.
- the AIC is included as in the previous chart.
- FIG. 12 is a table summarizing the complete enumeration of fitted LDA models for all single, two, three, and four ARTERIORISKMARKER combinations possible from a starting set of 61 selected ARTERIORISKMARKERS, including both blood-bourne analytes and clinical parameters.
- the table indicates first the total possible panel combinations, which expands from 61 for single ARTERIORISKMARKERS to 521,855 for four ARTERIORISKMARKER combinations.
- FIGS. 13 through 15 The highest performing subsets of the complete enumerated combinations, as measured in the populations of Example 1, are presented in FIGS. 13 through 15 .
- FIG. 13 is a table listing all 200 individual two marker combinations (10.93% out of a total 1,830 unique combinations possible) achieving an AUC of 0.65 or better according to the analysis summarized previously.
- FIG. 14 is a table listing all 2,573 individual two marker combinations (7.15% out of a total 1,830 unique combinations possible) achieving an AUC of 0.70 or better according to the analysis summarized previously.
- FIG. 15 is a table listing all 8,153 individual two marker combinations (1.56% out of a total 521,855 unique combinations possible) achieving an AUC of 0.75 or better according to the analysis summarized previously.
- FIG. 16 is a chart depicting the ROC curves of multiple fitted full models, utilizing the best model of any type by achieved ROC curve (chosen from model types including LDA (multiple selection and model size criteria), SVM (Random Forest, Top Kruskal-Wallis), and ELDA (multiple thresholds)) for risk of future arteriovascular events, as measured and calculated for the Example 1 populations.
- This chart encompasses models selected from three different overlapping subsets of ARTERIORISKMARKERS from a total set of 61 selected ARTERIORISKMARKERS.
- ARTERIORISKMARKERS One subset encompassed all ” Clinical Marker” ARTERIORISKMARKERS, including both the non-analyte clinical parameters as well as only the blood-bourne traditional laboratory risk factors most commonly used in current global risk assessment models: CHOL, HDLC, LDL, HBA1C, Glucose, and Insulin; it achieved a maximum AUC of 0.82.
- FIG. 17 is a chart depicting the ROC curve of the best blood-bourne ARTERIORISKMARKER model from FIG. 16 , selected from only the blood-borne ARTERIORISKMARKERS, including its AUC statistic of 0.86 as shown in the legend.
- FIG. 18 is a chart depicting the ROC curve of the best total ARTERIORISKMARKER model from FIG. 16 , selected from all 61 possible ARTERIORISKMARKERS, including its AUC statistic of 0.90 as shown in the legend.
- LDA Linear Discriminant Analysis
- biomarker1 biological marker 1
- biomarker2 biological marker 3
- concentrations generally being log transformed
- LDL being transformed using the square root function
- Age, HBA IC, HT, SCp values being used raw. Transformations were performed to correct the biomarkers for violations of univariate normality.
- Table 12 shows the results of an LDA calculation for the LDA model presented as an ROC curve in FIG. 8 , using actual transformed values for two subjects, one Case and one Control.
- Table 13 shows similar results for the LDA model of FIG. 9 .
- LDA operations and analysis techniques can be used to then categorize an individual subject as at risk for a future arteriovascular event, including deriving an optimized direct LDA value “cutoff” using the LDA function output directly as the result, as is commonly done in diagnostics using biomarker ROC curve analysis for new disease markers, or using a normal distance function from the overall Case and Control Mean LDA values and applying the results to the pre-test probability of experiencing an arteriovascular event by using Bayesian methods.
- Example 2 Similar analysis was performed for the populations of Example 2, which included stoke in the Case arm, as was summarized in FIG. 3 .
- FIG. 19 is a table providing information on the inputs used under different ARTERIORISKMARKER model types and selection techniques, with resulting “best” models given model design and constraints, within both of the different case populations of Example 1 (excluding stroke from the Case arm) and Example 2 (including stroke in the Case arm).
- markers which are the Core Markers of the invention, across three or more model types, multiple model constraints, and marker selection techniques.
- FIG. 20 is a chart depicting the ROC curve calculated AUC statistics for multiple expanding “best forward selected” LDA models, starting from a single ARTERIORISKMARKER and then at each step adding one more incremental forward selected ARTERIORISKMARKER, re-optimizing the LDA model, and graphing the derived AUC statistic. This continues through 53 selected ARTERIORISKMARKERS selected from a total set of the selected blood-bourne ARTERIORISKMARKERS, Sex and Family History (FamHX). The AIC is included as in the previous charts.
- FIG. 21 is a chart depicting the ROC curve calculated AUC statistics for multiple expanding “best forward selected” LDA models, starting from a single ARTERIORISKMARKER and then at each step adding one more incremental forward selected ARTERIORISKMARKER, re-optimizing the LDA model, and graphing the derived AUC statistic.
- ARTERIORISKMARKERS representing the complete group of both the selected blood-bourne analyte and clinical parameter ARTERIORISKMARKERS.
- the AIC is included as in the previous charts.
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Abstract
Description
- This application claims priority from U.S. Provisional Application Ser. No. 60/811,996, filed on Jun. 7, 2006. Each of the applications and patents cited in this text, as well as each document or reference cited in each of the applications and patents (including during the prosecution of each issued patent; “application cited documents”), and each of the U.S. and foreign applications or patents corresponding to and/or claiming priority from any of these applications and patents, and each of the documents cited or referenced in each of the application cited documents, are hereby expressly incorporated herein by reference. More generally, documents or references are cited in this text, either in a Reference List before the claims, or in the text itself; and, each of these documents or references (“herein-cited references”), as well as each document or reference cited in each of the herein-cited references (including any manufacturer's specifications, instructions, etc.), is hereby expressly incorporated herein by reference. Documents incorporated by reference into this text may be employed in the practice of the invention.
- The present invention relates generally to the identification of biological markers associated with arteriovascular events and methods of using such biological markers in screening, prevention, diagnosis, therapy, monitoring, and prognosis of arteriovascular disease.
- Arteriovascular disease continues to be a leading cause of morbidity and mortality among adults in Europe and North America. Although age-adjusted death rates have declined over the past two decades, the absolute mortality rate from arteriovascular disease has not. Arteriovascular disease accounts for over one-half million deaths (1 out of every 5) in the U.S. yearly. The lifetime risk of arteriovascular disease after
age 40 has been estimated at 49% for men and 32% for women. Even for those who survive toage 70 years, the lifetime risk for arteriovascular disease has been estimated at 35% for men and 24% for women. Arteriovascular diseases include atherosclerosis and atherothrombosis, coronary artery disease (CAD), peripheral artery disease (PAD), and cerebrovascular disease (CVD). - Risk factors for arteriovascular disease currently account for a large proportion of the burden of heart disease in the United States, suggesting that risk-factor identification and risk-lowering treatments could postpone or prevent the majority of ateriovascular events. Identified risk factors for arteriovascular disease include independent risk factors, such as cigarette smoking, elevated blood pressure (hypertension), elevated serum total cholesterol (CHOL) and low-density lipoprotein (LDL) cholesterol, low serum high-density lipoprotein (HDL) cholesterol, diabetes mellitus, and advancing age. Conditional risk factors for arteriovascular disease include elevated serum triglycerides (TRIG), small LDL particles, elevated serum homocysteine levels, elevated serum lipoprotein (a) (LPA), prothrombotic factors such as fibrinogen (FGA), and inflammatory markers like C-reactive protein (CRP), whose contribution to risk may vary upon their relationship to other identified risk factors. Other risk factors include obesity (measured by weight (WT), height (HT), Body Mass Index (BMI), and abdominal girth comparisons such as waist (“Waist”) or hip (“Hip”) circumference, ankle-brachial index, physical inactivity, family history of arteriovascular disease, ethnicity, and psychosocial factors. Arteriovascular disease risk factors have been the subject of many studies, including those presented in Pasternak, R. C. et al (2003) JACC 41(11): 1855-1917 and Grundy, S. M. (1999) Circulation 100: 988-998.
- Typically, a patient suspected of having arteriovascular disease is assessed on several of the “traditional” or “conventional” risk factors: age, sex, total cholesterol concentration, HDL and LDL cholesterol concentration, smoking status, diabetic status, and blood pressure (systolic and diastolic), as well as many of the above conditional risk factors, such as LPA, FGA, CRP, and homocysteine, amongst others. These risk factors have been incorporated into useful predictive models of future arteriovascular events, such as the Framingham Risk Score presented in Wilson, P. W., et al (1998) Circulation 97: 1837-1847, however this “evidence-based” multiple risk factor or “global risk assessment” approach is only moderately accurate for predicting short- and long-term risk of manifesting a major arteriovascular event, particularly an event such as acute coronary syndromes (ACS, comprising myocardial infarction and unstable angina), stroke or sudden death, in healthy populations or asymptomatic individuals. In particular, while such approaches may, at typical clinical measurement cut-off levels, be relatively sensitive to individuals who have multiple risk factors, experienced past arteriovascular events or who have already confirmed arteriovascular disease (who would be “true positives” if they subsequently experience an acute arteriovascular event), they suffer from specificity, also identifying large portions of the population who do not subsequently experience acute arteriovascular events (“false positives”). In the typical adult population, these algorithms yield many more false positives than true positives, particularly in the low (<6% ten year risk of an acute event) and intermediate risk (6-20% ten year risk of an acute event) populations that make up the majority of those tested. While performance metrics for global risk assessment indices may evidence high clinical utility in the population in which the index algorithm was trained, occasionally exhibiting an AUC as high as 0.8, but more commonly an AUC around 0.7 (Wilson et al. above reported 0.74 for men and 0.77 for females for the Framingham Risk Score), such predictive models show relatively low transferability between populations, which may differ based on genetic and other factors, and absent substantial recalibration and re-optimization, often the AUC will drop to below 0.65, as shown in the example. They also are often difficult for clinicians to effectively implement and perform within an active clinical environment, involving complex calculations and numerical manipulations.
- Thus, the general concept of applying one or more biomarkers to the task of classifying current and predicting future arteriovascular disease or risk of future arteriovascular events is not new in the clinical practice, literature or patent art. Several specific biomarkers, biomarker combinations, and methods have been proposed over time, with limited adoption to date due to several issues including technical difficulty, analytical performance, clinical performance, reliability, and practical clinician application of complex algorithms combining more than one such biomarker. By way of example, Ridker, P. et al. in U.S. Pat. No. 6,040,147 dated Mar. 21, 2000, suggested the use of a marker of systemic inflammation (including the use of CRP, a cytokine or a cellular adhesion marker such as soluble ICAM-1) could be useful in assessing the risk profile of an apparently healthy individuals risk profile for developing a future myocardial infarction, either alone or in combination with traditional risk factors such as CHOL or HDLC; such use of CRP has now become routine. Schönbeck, U. et al., in U.S. Pat. No. 7,189,518 B2 dated Mar. 13, 2007, suggested similar usage for soluble CD40 ligand (CD40LG) in predicting future cardiovascular disorders, such as myocardial infarction or stroke, in apparently healthy individuals; this has not been clinically adopted due to inadequate performance as a single marker. Anderson, L. (2004) in J. Physiological Society 563.1: 23-60, suggested 177 individual candidate biomarker proteins with reported associations to cardiovascular disease and stroke that might be of use in constructing panels of disease-related proteins for several applications, including the anticipation of future myocardial infarction or stroke, if it were found that several of the biomarkers were independent and not strongly correlated with each other, and thus able to be combined together into panels and “composite indices” more useful than the information gathered from the single biomarkers used individually; beyond referencing the previously mentioned relationships with CRP and cholesterol, no such useful individual panel involving was disclosed by Anderson, and several technical barriers and shortcomings of existing multi-marker analytical techniques in future discovery of such multi-marker associations were mentioned. Puskas, R. et al., in US Patent Publication 2006/0078998 A1 published Apr. 13, 2006, disclosed an technical technique useful for such single or multiplexed biomarker single molecule counting in samples, and mentions a wide analytical range of potential biomarkers and functional biomarker groupings potentially useful in multiple diseases, including cardiovascular disease; no specific combination of biomarkers for predicting the future risk of arteriovascular events was mentioned, nor were all of the individual biomarkers of the current invention disclosed therein.
- Tabibiazar, R. et al., in US Patent Publication 2007/0070099239 A1 published May 3, 2007, disclosed the use of several specific panels of biomarkers combined with various algorithms and analytical processes, in the discrimination and classification of atherosclerotic patients with past acute myocardial infarction from such patients with known stable cardiovascular disease, from those with no history of cardiovascular disease or atherosclerosis, or amongst various classification of atherosclerotic staging and current medication use within known atherosclerotic patients. Although various “predictive” algorithms are mentioned therein, and the suggestion made that certain of such disclosed biomarker panels may be useful in the prediction of future cardiovascular events, no specific panel for prediction of future cardiovascular events or future cardiovascular status tested within an asymptomatic and previously undiagnosed population is disclosed. Nor is such clearly claimed in the application as filed, nor are any examples given within the published patent of study designs involving the measurement of apparently healthy and asymptomatic individuals prior to known cardiovascular events (or confirmed symptoms and/or diagnosed atherosclerosis) and then subsequently following their health status for a sufficient longitudinal time period allowing the development of subsequent cardiovascular events. Although certain of the individual panels of biomarkers disclosed therein may be useful in such applications, it is unlikely that the panels, algorithms and analytical processes disclosed therein, selected and trained on past events and known symptomatic disease, will successfully predict the future risk of cardiovascular events in asymptomatic and previously undiagnosed subjects with as high a degree of diagnostic accuracy as is presented and claimed in Tabibiazar over a specific multi-year time horizon, absent substantial and predictive model re-training, re-modeling, optimization and re-purposing likely not possible absent inputs from such longitudinal studies, which may include changes to cutoffs, reference values and other formula. Although overlap of certain individual biomarkers disclosed in Tabibiazar with individual biomarkers and a subset of the panels of the current invention is acknowledged, each of the individual biomarkers mentioned in Tabibiazar which are also claimed herein in specific panel combinations of the current invention (and specifically CCL2, IGF1, LEP, VEGF, and IL8) were also previously disclosed in the prior published art as associated with cardiovascular disease (each of them were notably mentioned and reviewed in the aforementioned Anderson reference, amongst others). Such specific clinical applications, additional biomarkers, specific biomarker combination panels, study designs, and analytical techniques and formula are key aspects of the current invention.
- Recently, several studies in the scientific literature have been published examining various individual and multiple biomarker strategies, most notably Folsom, A. R. et al. (2006) Arch. Intern Med 166:1368-1373 and Wang, T. J. et al. (2006) N Eng J Med 355: 2631-2639. These studies, utilizing retrospective samples from longitudinal clinical studies such as the Atherosclerosis Risk in Communities Study and the Framingham Heart Study, combined subject clinical parameters and traditional laboratory risk factors (including using such traditional laboratory based biomarkers such as CHOL, CRP, FGA, HDLC, LPA, and Homocysteine), as well as novel markers such as Albumin-to-creatine ratios, Aldosterone, ANP (NPPA), BNP (NPPB), D-dimer, ICAM1, IL6, LEP, MMP1, PLA2G7, PLAT, PLG, REN, SELE, SERPINE1, TIMP1, THBD, amongst others, both as individual markers and incrementally as additions to multi-marker indices. Both studies found little improvement in the ability to predict future arteriovascular events with novel markers over the models incorporating the basic clinical parameters and traditional laboratory risk factors. As a result, the use of such novel markers remains clinically controversial.
- Given the foregoing, it is clear that an important discrepancy has arisen in understanding the role of the aforementioned risk factors and biomarkers compared to the development of arteriovascular disease events. In contrast to the relative ease of recognition and clarity of treatment and prevention strategies in patients with symptomatic arteriovascular disease (i.e., exhibit symptoms such as active chest pain, claudication, transient ischemic attacks (TIAs) or mild cognitive impairment (MCI), a major problem of detection, treatment, and prevention of arteriovascular disease exists in the large, apparently healthy, population who have no symptoms, yet are at an increased risk to develop arteriovascular disease or experience major arteriovascular events. A large number of victims of the disease who are apparently healthy die or have initial acute arteriovascular events suddenly without prior symptoms. Despite the many available risk assessment approaches, a substantial gap remains in the detection of asymptomatic individuals who ultimately develop arteriovascular disease. Currently available screening and diagnostic methods are insufficient to identify asymptomatic individuals before such acute events associated with arteriovascular disease occur. Of those who experience a major arteriovascular event as many as 20% have none of the traditional risk factors. There remains an unmet need in the art to directly diagnose and predict the risk of arteriovascular disease and events, particularly in those individuals who do not exhibit symptoms or few or none of the traditional risk factors currently measured by physicians.
- All of the foregoing references, including Tabibiazar, are herein referred to and incorporated in their entirety.
- The present invention relates in part to the discovery that certain biological markers, such as proteins, nucleic acids, polymorphisms, metabolites, and other analytes, as well as certain physiological conditions and states, are present in subjects with an increased risk of arteriovascular events, such as, but not limited to, acute coronary syndromes such as myocardial infarction and unstable angina, as well as other acute events associated with an arteriovascular disease, including those associated with atherosclerosis, atherothrombosis, coronary artery disease (CAD), peripheral artery disease (PAD), and cerebrovascular disease (CVD), but where such subjects do not exhibit some or all of the traditional risk factors of these diseases, or subjects who are asymptomatic for these diseases.
- Accordingly, the invention provides biological markers of arteriovascular events that, when used together in combinations of three or more such biomarker combinations, or “panels,” can be used to assess the risk of subjects experiencing said arteriovascular events, to diagnose or identify subjects with an arteriovascular disease, to monitor the risk factors for development of an arteriovascular disease, to monitor subjects that are undergoing therapies for an arteriovascular disease, to differentially diagnose disease states associated with an arteriovascular disease from other diseases or within sub-classifications of arteriovascular diseases, to evaluate changes in the risk of arteriovascular events in subjects with an arteriovascular disease, and to select or modify therapies or interventions for use in treating subjects with an arteriovascular disease, or for use in subjects who are at risk for developing an arteriovascular disease.
- An aspect of the present invention provides use of a panel of biological markers, some of which are unrelated to arteriovascular disease or have not heretofore been identified as related to the risk of future arteriovascular disease or events, but are related to early biological changes that can lead to the development of arteriovascular disease or arteriovascular events, to detect and identify subjects who exhibit none of the symptoms or few or none of the traditional risk factors for arteriovascular disease, i.e., who are asymptomatic for arteriovascular disease and have only non-specific indicators of potential arteriovascular events, such as arteriovascular risk factors, or who exhibit none or few of the traditional risk factors of arteriovascular disease, yet remain at risk.
- Significantly, many of the individual biomarkers disclosed herein have shown little individual significance in the diagnosis of arteriovascular disease, or individually for assessing the risk of arteriovascular disease or events, but when used in combination with other disclosed biomarkers and combined with the various herein disclosed algorithms, traditional laboratory risk factors of arteriovascular disease, and other clinical parameters of arteriovascular disease, become significant discriminates of a subject having arteriovascular disease or a subject who is at risk for developing an arteriovascular event, from one who is not at risk for arteriovascular disease or is not at significant risk of developing arteriovascular disease or an arteriovascular event. The methods of the present invention provide an improvement over currently available methods of risk evaluation of the development of arteriovascular disease and/or arteriovascular events in a subject by measurement of the biomarkers defined herein.
- Accordingly, in certain embodiments an aspect of the invention is directed to a method for assessing a risk of developing an arteriovascular disease in a subject. In certain embodiments, the method allows for assessing risk with a predetermined level of predictability. In certain embodiments, the method includes, measuring a level of an effective amount of two or more ARTERIORISKMARKERS. For instance, the ARTERIORISKMARKERS may include one or more of the ARTERIORISKMARKERS 1-1023, which markers are in a sample obtained from the subject. In certain embodiments, the level of expression of five or more, ten-or more, twenty-five or more, or fifty or more ARTERIORISKMARKERS are measured. The method may further include measuring a clinically significant alteration in the level of the two or more ARTERIORISKMARKERS in the sample, for instance, where the alteration indicates an increased risk of developing an arteriovascular disease in the subject.
- In certain embodiments, an aspect of the subject invention is directed to a method of diagnosing or identifying a subject having an arteriovascular disease. In certain embodiments, the method allows for assessing risk with a predetermined level of predictability. In certain embodiments, the method includes measuring the level of an effective amount of two or more ARTERIORISKMARKERS that are selected from ARTERIORISKMARKERS 1-1023 in a sample from the subject. The method may further include comparing the level of the effective amount of the two or more ARTERIORISKMARKERS to a reference value. The reference value may be an index value or may be may be derived from one or more risk prediction algorithms or computed indices for the arteriovascular disease.
- In certain embodiments, an aspect of the subject invention is directed to a method for assessing the progression of an arteriovascular disease in a subject. In certain embodiments, the method allows for assessing the progression of an arteriovascular disease in a subject with a predetermined level of predictability. In certain embodiments, the method includes detecting the level of an effective amount of two or more ARTERIORISKMARKERS selected from ARTERIORISKMARKERS 1-1023 in a first sample from the subject at a first period of time, detecting the level of an effective amount of two or more ARTERIORISKMARKERS in a second sample from the subject at a second period of time, and comparing the level of the effective amount of the two or more ARTERIORISKMARKERS detected in the first step to the amount detected in second step, or to a reference value. In certain embodiments, the first sample is taken from the subject prior to being treated for the arteriovascular disease and/or the second sample is taken from the subject after being treated for the arteriovascular disease. Further, in certain embodiments, the reference value is derived from one or more subjects who have suffered from an arteriovascular event.
- In certain embodiments, an aspect of the subject invention is directed to a method for monitoring the effectiveness of treatment for an arteriovascular disease. In certain embodiments, the method allows for monitoring the effectiveness of treatment for an arteriovascular disease in a subject with a predetermined level of predictability. In certain embodiments, the method includes detecting the level of an effective amount of two or more ARTERIORISKMARKERS selected from ARTERIORISKMARKERS 1-1023 in a first sample from a subject at a first period of time; detecting the level of an effective amount of two or more ARTERIORISKMARKERS in a second sample from the subject at a second period of time; and comparing the level of the effective amount of the two or more ARTERIORISKMARKERS detected in the first step to the amount detected in the second step, or to a reference value, wherein the effectiveness of treatment is monitored by a change in the level of the effective amount of two or more ARTERIORISKMARKERS from the subject. In certain embodiments, the treatment for the arteriovascular disease to be monitored includes exercise regimens, dietary supplements, therapeutic agents, surgical intervention, and prophylactic agents. In certain embodiments, the effectiveness of treatment is additionally monitored by detecting changes in body mass index (BMI), total cholesterol levels, LDL levels, HDL levels, systolic and/or diastolic blood pressure, or combinations thereof. Further, the reference value is derived from one or more subjects who show an improvement in arteriovascular risk factors as a result of one or more treatments for arteriovascular disease.
- In certain embodiments, an aspect of the subject invention is directed to a method for selecting a treatment regimen for a subject diagnosed with or at risk for an arteriovascular disease. In certain embodiments, the method allows for selecting a treatment regimen for a subject diagnosed with or at risk for an arteriovascular disease with a predetermined level of predictability. In certain embodiments, the method includes detecting the level of an effective amount of two or more ARTERIORISKMARKERS selected from ARTERIORISKMARKERS 1-1023 in a first sample from the subject at a first period of time, optionally detecting the level of an effective amount of two or more ARTERIORISKMARKERS in a second sample from the subject at a second period of time and comparing the level of the effective amount of the two or more ARTERIORISKMARKERS detected in the first step to a reference value, or optionally to an amount detected in the second step. In certain embodiments, the reference value is derived from one or more subjects who show an improvement in arteriovascular disease risk factors as a result of one or more treatments for the arteriovascular disease. For instance, the improvement may be monitored by an imaging modality, by detecting a reduction in body mass index (BMI), a reduction in total cholesterol levels, a reduction in LDL levels, an increase in HDL levels, a reduction in systolic and/or diastolic blood pressure, or combinations thereof. In certain embodiments, the imaging modality may include one or more of: computed tomography (CT), optical coherence tomography (OCT), intravascular ultrasonography (IVUS), high-resolution IVUS, elastography (palpography), angioscopy, electron beam computed tomography (EBCT), magnetic resonance imaging (MRI), positron emission tomography (PET), single photon emission computed tomography (SPECT), immunoscintigraphy, and invasive angiography.
- In certain embodiments, an aspect of the subject invention is directed to a method for treating one or more subjects at risk for developing an arteriovascular disease. In certain embodiments, the method includes, detecting the presence of increased levels of at least two different ARTERIORISKMARKERS that are present in a sample from the one or more subjects; and treating the one or more subjects. For instance, the one or more subjects may be treated with one or more arteriovascular disease-modulating drugs until altered levels of the at least two different ARTERIORISKMARKERS return to a baseline value measured in one or more subjects at low risk for developing the arteriovascular disease, or a baseline value measured in one or more subjects who show improvements in arteriovascular risk markers as a result of treatment with one or more arteriovascular disease-modulating drugs. In certain embodiments, the arteriovascular disease-modulating drug comprises β-blockers, angiotensin-converting enzyme (ACE) inhibitors, diuretics, calcium channel blockers, angiotensin II receptor blockers, antiplatelet agents, anti-coagulant agents, sulfonylureas, biguanides, insulin, thiazolidinediones, nitrates, non-steroidal anti-inflammatory agents, statins, cilostazol, pentoxifylline, buflomedil, naftidrofuryl, and combinations thereof. Additionally, the improvements in arteriovascular risk markers may be as a result of treatment with the one or more arteriovascular disease-modulating drugs and may include a reduction in body mass index (BMI), a reduction in total cholesterol levels, a reduction in LDL levels, an increase in HDL levels, a reduction in systolic and/or diastolic blood pressure, or combinations thereof.
- In certain embodiments, an aspect of the subject invention is directed to a method of differentially diagnosing disease states associated with an arteriovascular disease in a subject. In certain embodiments, the method includes detecting the level of an effective amount of two or more ARTERIORISKMARKERS selected from ARTERIORISKMARKERS 1-1023 in a sample from the subject; and comparing the level of the effective amount of the two or more ARTERIORISKMARKERS detected in the first step to a arteriovascular disease subject expression profile, or to a reference value.
- The arteriovascular disease may include a metabolic syndrome, Syndrome X, atherosclerosis, atherothrombosis, coronary artery disease, heart valve disease, arrhythmia, angina pectoris, cardiomyopathy, congestive heart failure, hypertension, orthostatic hypotension, shock, endocarditis, aortic stenosis, peripheral artery disease, cerebrovascular disease, and/or congenital heart disease. The arteriovascular disease may be measured by any method well known in the art, for instance, such as electrophoretically or immunochemically, for instance, by radio-immunoassay, immunofluorescence assay or by an enzyme-linked immunosorbent assay. Additionally, the level of ARTERIORISKMARKERS may be measured by specific oligonucleotide hybridization.
- The subject maybe a subject that has not been previously diagnosed or identified as having or suffering from the arteriovascular disease or the subject may be one that is asymptomatic for the arteriovascular disease. Further, the subject may be one that has previously been identified and/or treated or has not previously been identified and/or treated for the arteriovascular disease. Additionally, the sample may be obtained by any means known in the art and may be serum, blood plasma, blood cells, endothelial cells, tissue biopsies, ascites fluid, bone marrow, interstitial fluid, sputum, urine, or the like.
- In certain embodiments, an aspect of the subject invention is directed to a method for assessing a risk of plaque development in a subject. In certain embodiments, the method allows for assessing risk with a predetermined level of predictability. In certain embodiments, the method includes measuring the level of an effective amount of two or more ARTERIORISKMARKERS, such as1-1023, in a sample from the subject. The method may further include measuring a clinically significant alteration in the level of the two or more ARTERIORISKMARKERS in the sample, for instance, wherein the alteration indicates an increased risk of developing a plaque in the subject. In certain embodiments, the subject has not been previously diagnosed as having a plaque, while in other embodiments the subject is asymptomatic for the plaque.
- In certain embodiments, an aspect of the subject invention is directed to a method of diagnosing or identifying a subject having a plaque. In certain embodiments, the method allows for diagnosing or identifying a subject having a plaque with a predetermined level of predictability. In certain embodiments, the method includes measuring the level of an effective amount of two or more ARTERIORISKMARKERS selected from ARTERIORISKMARKERS 1-1023 in a sample from the subject. The method may further include comparing the level of the effective amount of the two or more ARTERIORISKMARKERS to a reference value. In certain embodiments, the reference value is an index value and in other embodiments, the reference value is derived from one or more risk prediction algorithms or computed indices for plaque development.
- In certain embodiments, an aspect of the subject invention is directed to a method for assessing the progression of a plaque formation that associated with atherosclerosis or atherothrombosis in a subject. In certain embodiments, the method allows for assessing the progression of a plaque formation that associated with atherosclerosis or atherothrombosis in a subject with a predetermined level of predictability. In certain embodiments, the method includes detecting the level of an effective amount of two or more ARTERIORISKMARKERS selected from ARTERIORISKMARKERS 1-1023 in a first sample from the subject at a first period of time; detecting a level of an effective amount of two or more ARTERIORISKMARKERS in a second sample from the subject at a second period of time; and comparing the level of the effective amount of the two or more ARTERIORISKMARKERS detected in the first step to the amount detected in the second step, or to a reference value. In certain embodiments, the reference value is derived from one or more subjects who have suffered from plaque rupture.
- In certain embodiments, an aspect of the subject invention is directed to a method for evaluating changes in the risk of plaque formation in a subject diagnosed with or at risk for developing atherosclerosis or atherothrombosis. In certain embodiments, the method includes detecting the level of an effective amount of two or more ARTERIORISKMARKERS selected from ARTERIORISKMARKERS 1-1023 in a first sample from the subject at a first period of time; optionally detecting the level of an effective amount of two or more ARTERIORISKMARKERS in a second sample from. the subject at a second period of time; and comparing the level of the effective amount of the two or more ARTERIORISKMARKERS detected in the first step to a reference value, or optionally, to the amount in the second step. In certain embodiments, the first sample is taken from the subject prior to being treated for the atherosclerosis or atherothrombosis and/or the second sample is taken from the subject after being treated for the atherosclerosis or atherothrombosis. Additionally, in certain embodiments, the treatment for atherosclerosis or atherothrombosis comprises exercise regimens, dietary supplements, therapeutic agents, surgical intervention, and prophylactic agents. Furthermore, in certain embodiments, the reference value is derived from one or more subjects who have suffered from plaque rupture.
- In certain embodiments, the subject is suffering from atherosclerosis or atherothrombosis. In certain embodiments, the subject may or may not have been previously diagnosed or identified as having a plaque, suffering from atherosclerosis and/or atherothrombosis; and/or may or may not have been previously treated for atherosclerosis or atherothrombosis. Further, the subject may be asymptomatic for the plaque, atherosclerosis or atherothrombosis. In certain embodiments, the first sample is taken from the subject prior to being treated for the atherosclerosis or atherothrombosis and/or the second sample is taken from the subject after being treated for the atherosclerosis or atherothrombosis.
- In certain embodiments, an aspect of the subject invention is directed to an arteriovascular disease reference expression profile that includes a pattern of marker levels of an effective amount of two or more markers selected from ARTERIORISKMARKERS 1-1023, which is taken from one or more subjects who do not have the arteriovascular disease. In certain embodiments, the subject invention is directed to an atherosclerosis or atherothrombosis reference expression profile that includes a pattern of marker levels of an effective amount of two or more markers selected from ARTERIORISKMARKERS 1-1023, which are taken from one or more subjects who do not have atherosclerosis or atherothrombosis. In certain embodiments, the subject invention is directed to an arteriovascular disease subject expression profile, that includes a pattern of marker levels of an effective amount of two or more markers selected from ARTERIORISKMARKERS 1-1023, which are taken from one or more subjects who have the arteriovascular disease, are at risk for developing the arteriovascular disease, or are being treated for the arteriovascular disease. In certain embodiments, the subject invention is directed to an atherosclerosis or atherothrombosis subject expression profile, that includes a pattern of marker levels of an effective amount of two ore more markers selected from ARTERIORISKMARKERS 1-1023, which are taken from one or more subjects who have atherosclerosis or atherothrombosis and maybe at risk for developing atherosclerosis or atherothrombosis, or may be being treated for atherosclerosis or atherothrombosis.
- In certain embodiments, an aspect of the subject invention is directed to an array that includes a plurality of ARTERIORISKMARKER detection reagents, which detect the corresponding ARTERIORISKMARKERS selected from ARTERIORISKMARKERS 1-1023, and are sufficient to generate a profile(s). In certain embodiments, the detection reagent includes one or more antibodies or fragments thereof, one or more oligonucleotides, one or more aptamers, one or more arteriovascular disease reference expression profiles and/or optionally, additional test results and subject information. In certain embodiments, an aspect of the subject invention is directed to a machine readable media containing one or more of the atherosclerosis or atherothrombosis reference expression profiles and optionally, additional test results and subject information. In certain embodiments, an aspect of the subject invention is directed to a method of tracking a subject's status that includes collecting an arteriovascular disease reference expression profile and reporting the expression profile to a center.
- In certain embodiments, an aspect of the subject invention is directed to an ARTERIORISKMARKER panel. In certain embodiments, the one or more. ARTERIORISKMARKERS are indicative of a physiological pathway associated with an arteriovascular disease. In certain embodiments, the physiological pathway comprises inflammation, platelet aggregation, apoptosis, angiogenesis, lipid metabolism, necrosis, or vascular calcification.
- In certain embodiments, an aspect of the subject invention is directed to an ARTERIORISKMARKER panel that includes one or more ARTERIORISKMARKERS that are indicative of a site associated with an arteriovascular disease. In certain embodiments, the site includes one or more coronary arteries, peripheral arteries, or cerebrovascular arteries.
- In certain embodiments, an aspect of the subject invention is directed to an ARTERIORISKMARKER panel that includes one or more ARTERIORISKMARKERS that are indicative of the progression of an arteriovascular disease.
- In certain embodiments, an aspect of the subject invention is directed to an ARTERIORISKMARKER panel that includes one or more ARTERIORISKMARKERS that are indicative of the speed of progression of an arteriovascular disease.
- In certain embodiments, an aspect of the subject invention is directed to an ARTERIORISKMARKER panel that includes one or more ARTERIORISKMARKERS that are specific to one or more arteriovascular diseases.
- In certain embodiments, an aspect of the subject invention is directed to a method of evaluating changes in the risk of an arteriovascular event in a subject diagnosed with an arteriovascular disease. The method includes detecting the level of an effective amount of two or more ARTERIORISKMARKERS selected from ARTERIORISKMARKERS 1-1023 in a first sample from the subject at a first period of time; optionally detecting the level of an effective amount of two or more ARTERIORISKMARKERS in a second sample from the subject at a second period of time and comparing the level of the effective amount of the two or more ARTERIORISKMARKERS detected in the first step to a reference value, or optionally, to the amount in the second step.
- In certain embodiments, the subject has previously been treated for the arteriovascular disease. In certain embodiments, the subject is asymptomatic for the arteriovascular disease. In certain embodiments, the first sample is taken from the subject prior to being treated for the arteriovascular disease and/or the second sample is taken from the subject after being treated for the arteriovascular disease. In certain embodiments, the reference value is derived from one or more subjects who have suffered from an arteriovascular event. In certain embodiments, the arteriovascular event includes plaque rupture, myocardial infarction, unstable angina, blood clots of the leg, stroke, or aneurysm.
- Aspects of the invention include methods for evaluating the risk of a cardiovascular event for a subject. In certain embodiments, the method comprises measuring at least three component ARTERIORISKMARKERS for the individual selected from the component ARTERIORISKMARKERS within the groups consisting of Core Markers I, Core Markers II, Traditional Laboratory Risk Factors, Clinical Parameters, Supplemental Markers I, and Supplemental Markers II, provided at least one component ARTERIORISKMARKER is selected from the component ARTERIORISKMARKERS within Core Markers I. In a further embodiment, the method comprises any combination comprising at least two or more component ARTERIORISKMARKERS, providing at least two of such are selected from within Core Markers I.
- In certain aspects, we contemplate the use of POMC alone, while in other aspects POMC is used with other markers. In some embodiments, POMC is measured by itself and in other embodiments, POMC is used with markers selected from the group comprising HDLC, VEGF, CCL2, IL6ST, IL8, and LEP. In another embodiment, POMC is measured along with an additional clinical parameter. In certain embodiments, the additional parameters are selected from Age or BMI. In another embodiment, the invention includes a kit comprising at least one reagent for the detection or quantification of POMC.
- In a particular preferred embodiment, the invention relates to the use of four or more biomarkers from a given subject, with three or more of such biomarkers measured in samples from the subject, and two or more of such markers chosen from a set including angiogenin (ANG), CD40 molecule aka TNF receptor superfamily member 5 (CD40), dipeptidyl-
peptidase 4 aka CD26 (DPP4),interleukin 6 signal transducer (IL6ST), proopiomelanocortin aka adrenocorticotropin/beta-lipotropin/alpha-melanocyte stimulating hormone/beta-melanocyte stimulating hormone/beta-endorphin (POMC), vascular cell adhesion molecule 1 (VCAM1), monocyte chemoattractant protein-1 aka MCP-1 (CCL2), insulin-like growth factor I aka somatomedin C(IGF1), leptin (LEP), vascular endothelial growth factor A (VEGF), and a third or more additional biomarker measurements optionally chosen from any of the subject's clinical parameters, traditional laboratory risk factors (including, without limitation, any ARTERIORISKMARKERS or other biomarkers, identified herein), in the subject's sample. These four or more biomarkers are combined together by a mathematical process or formula into a single number reflecting the subject's risk for developing an arteriovascular event, or for use in selecting, tailoring, and monitoring effectiveness of various therapeutic interventions, such as treatment of subjects with arteriovascular disease and risk modulating drugs, for said conditions. - Another embodiment is a method of performance improvement to an existing combination of biomarkers used in multi-biomarker global risk assessment of a patient, and in particular combinations drawing three or more biomarker from the combined groups of Traditional Laboratory Risk Factors and Clinical Parameters, wherein that improvement comprises the addition of at least one, of the ARTERIORISKMARKERS chosen from the groups of Core Markers I or
Core Markers 2, and the combination of the results in a new analytical process. For example, the invention would cover the addition of POMC to the Framingham Risk Score, or of LEP to a risk factor counting algorithm for the multiple criterias defining metabolic syndrome under NCEP ATP III, or other existing clinical algorithm using the three or more such biomarkers, including the combination of Age, BMI, and CHOL, as well as the combination of such modifiable risk factors as LDL, HDLC, TRIG, CHOL, together with those of SBP, DBP, and Glucose, where such was combined using an analytical process. - Additional biomarkers beyond any of the starting amounts of biomarkers cited in these preceding preferred embodiments may also be added to the panel from any of ARTERIORISKMARKERS, clinical parameters, and traditional laboratory risk factors.
- Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention pertains. Although methods and materials similar or equivalent to those described herein can be used in the practice of the present invention, suitable methods and materials are described below. All publications, patent applications, patents, and other references mentioned herein are expressly incorporated by reference in their entirety. In cases of conflict, the present specification, including definitions, will control. In addition, the materials, methods, and examples described herein are illustrative only and are not intended to be limiting.
- Other features and advantages of the invention will be apparent from and encompassed by the following detailed description and claims.
- The following Detailed Description, given by way of example, but not intended to limit the invention to specific embodiments described, may be understood in conjunction with the accompanying Figures, incorporated herein by reference, in which:
-
FIG. 1 . is a table containing key ARTERIORISKMARKERS, including clinical parameters, traditional laboratory risk factors, and together with core, supplemental and additional biomarkers, that are used in the predictive models according to the present invention. These are identified based on the commonly used gene symbol as described in the detailed description on the invention. -
FIG. 2 is a flow chart depicting ARTERIORISKMARKER pathophysiology and progression and biomarker functions, pathways and other categories over the spectrum of arteriovascular disease, including numerical references to the canonical molecular pathways as currently listed within the Kyoto University Encyclopedia of Genes and Genomes (KEGG) web site. Such pathway diagrams listed at the KEGG web site include references to each of the various biomarker participants within the given pathway, relating biomarkers both directly and indirectly associated with arteriovascular disease. These KEGG pathways are depicted in the following FIGS. 2-A through 2-P. -
FIG. 2 -A isKEGG 4920, depicting the adipocytokine signaling pathway. -
FIG. 2 -B isKEGG 4910, depicting the insulin signaling pathway. -
FIG. 2 -C isKEGG 4060, depicting cytokine—cytokine receptor interaction pathways. -
FIG. 2 -D isKEGG 4514, depicting pathways and interactions between cell adhesion molecules. -
FIG. 2 -E isKEGG 4670, depicting leukocyte transendothelial migration pathways. -
FIG. 2 -F is KEGG.4660, which depicts the T-cell receptor signaling pathway. -
FIG. 2 -G isKEGG 4370, depicting the vascular endothelial growth factor (VEGF) signaling pathway. -
FIG. 2 -H isKEGG 4110, which depicts pathways involved in the cell cycle. -
FIG. 2 -I isKEGG 4010, depicting mitogen-activated protein kinase (MAPK) signaling pathways. -
FIG. 2 -J isKEGG 4210 and depicts pathways involved in apoptosis. -
FIG. 2 -K isKEGG 4020, depicting the calcium signaling pathway. -
FIG. 2 -L isKEGG 4610, and depicts the complement and coagulation cascades. -
FIG. 2 -M isKEGG 4512, depicting interactions between the extracellular matrix (ECM) and their receptors. -
FIG. 2 -N is KEGG 0564, which depicts pathways involved in glycerophospholipid metabolism. -
FIG. 2 -O is KEGG 0590, depicting pathways involved in arachidonic acid metabolism. -
FIG. 2 -P isKEGG 4810 and depicts pathways involved in regulation of the actin cytoskeleton. -
FIG. 3 is a table detailing the clinical study design of the various Examples given, showing the design and study subject clinical characteristics, both excluding stroke events (Cases per Example 1, n=26) and including stroke events (Cases per Example 2, n=33) within the Case (Converter to Arteriovascular Events) arms, and for the Control (Non-Converter to Cardiovascular Events, n=724) arm shared for both Examples. -
FIG. 4 is a is a table summarizing the measured values and variances of certain selected ARTERIORISKMARKERS studied within the Examples given, including their concentration or other measurement units, mathematical normalization transformations (used in model formula and multi-biomarker index construction), transformed mean and standard deviation values, and back-transformed (raw) mean biomarker concentration or other value as measured for both the Total Cases (Converter to Arteriovascular Events, n=33) and Total Controls (Non-Converter to Cardiovascular Events, n=724) of the Examples, as well as a comparison of the mean values with a statistical p-value given, using a two-tailed t-test for the null hypothesis (the probability that means are equal). -
FIG. 5 is is a table further dividing the Cases cohort into sub-groupings based on the event type and, for the non-stroke subjects, based on the time elapsed from the baseline entry date to the study (also the sample collection date for the samples tested for ARTERIORISKMARKERS) to the earliest arteriovascular event date. The table also provides the measured means and variances for each sub-group as otherwise described inFIG. 4 applying the same summary statistics, additionally providing statistical p-values for a one-way Analysis of Variance (ANOVA) and non-parametric Kruskal-Wallis analysis of variance (KW). Several markers show statistically significant differences across the sub-groups, indicating an ability to both distinguish stroke from other arteriovascular events and also to distinguish between early and late converters to arteriovascular events. -
FIG. 6 is a chart depicting the Receiver Operator Characteristic (ROC) curve of a global risk assessment index according to the Framingham model for risk of future cardiovascular events, as measured and calculated for the Example 1 populations (sensitivity and specificity of the Framingham model to cardiovascular events excluding stroke patients from the analysis) and with the Area Under the Curve (AUC) statistic of 0.61 calculated and shown in the legend. -
FIG. 7 is a chart depicting the ROC curves of multiple fitted linear discrimant analysis (LDA) models for risk of future arteriovascular events, as measured and calculated for the Example 1 populations, starting with a single ARTERIORISKMARKER clinical parameter (Age) ROC curve, then adding an additional ARTERIORISKMARKER (POMC, HDLC, and BMI) and reoptimizing the model at each subsequent ROC curve, with the AUC calculated and shown in the legend for each step. These increasing curve AUCs demonstrate the additional discrimination value imparted by the additional marker, increasing from 0.72 to 0.82. -
FIG. 8 is a chart depicting the ROC curves of a seven biomarker fitted LDA model for risk of future arteriovascular events, as measured and calculated for the Example 1 populations, with the AUC calculated and shown in the legend. This LDA model was forward selected from a group limited to blood-bourne ARTERIORISKMARKERS as its sole parameters, and included POMC, HDLC, VEGF, LEP, IL6ST, Ins120, and IGF1 as inputs, with a calculated AUC of 0.8. -
FIG. 9 is a chart depicting the ROC curves of a nine biomarker fitted LDA model for risk of future arteriovascular events, as measured and calculated for the Example 1 populations, with the AUC calculated and shown in the legend. This LDA model was forward selected from the complete group of both the selected blood-bourne analyte and clinical parameter ARTERIORISKMARKERS, and included Age, POMC, HDLC, CCL2, BMI, VEGF, IL18, IL6ST, EGF, with a calculated AUC of 0.88. -
FIG. 10 is a chart depicting the ROC curve calculated AUC statistics for multiple expanding “best forward selected” LDA models, starting from a single ARTERIORISKMARKER and then at each step adding one more incremental forward selected ARTERIORISKMARKER, re-optimizing the LDA model, and graphing the derived AUC statistic using the results from the Example 1 study populations. This continues through 53 selected ARTERIORISKMARKERS selected from a total set of the selected blood-bourne ARTERIORISKMARKERS, Sex and Family History (FamHX). A superimposed line shows the parallel changes in Akaike's Information Criterion (AIC), a measure of the goodness of fit of an estimated statistical model which trades off model complexity (size in total number of ARTERIORISKMARKER inputs) against how well the model fits the data (a lower AIC is relatively better than a higher one). -
FIG. 11 is a chart depicting the ROC curve calculated AUC statistics for multiple expanding “best forward selected” LDA models, starting from a single ARTERIORISKMARKER and then at each step adding one more incremental forward selected ARTERIORISKMARKER, re-optimizing the LDA model, and graphing the derived AUC statistic using the results from the Example 1 study populations. This continues through 61 ARTERIORISKMARKERS representing the complete group of both the selected blood-bourne analyte and clinical parameter ARTERIORISKMARKERS. The AIC is included as in the previous chart. -
FIG. 12 is a table summarizing the complete enumeration of fitted LDA models for all single, two, three, and four ARTERIORISKMARKER combinations possible from a starting set of 61 selected ARTERIORISKMARKERS, including both blood-bourne analytes and clinical parameters. The table indicates first the total possible panel combinations, which expands from 61 for single ARTERIORISKMARKERS to 521,855 for four ARTERIORISKMARKER combinations. It then gives the number of combinations which produce fitted LDA models that achieve an equal or greater AUC than that shown as the hurdle in the leftmost column of the table (all as calculated in the populations of Example 1). For example, in the row indicated 0.75, from all possible two ARTERIORISKMARKER combinations (1,830 combinations), only 2 combinations (0.11% of the total two ARTERIORISKMARKER combinations possible) resulted in a fitted LDA model that equalled or exceeded an AUC of 0.75, while only 198 three ARTERIORISKMARKER combinations (0.55% of 35,990 possible three ARTERIORISKMARKER combinations) resulted in fitted LDA models exceeding the same hurdle, and so on. No single markers reached this hurdle; in fact, in the data set used only Age and POMC equaled or exceeded an AUC of 0.65. -
FIGS. 13A-13D are tables listing all 200 individual two marker combinations (10.93% out of a total 1,830 unique combinations possible) achieving an AUC of 0.65 or better according to the analysis summarized previously. - FIGS. 14A-14TT list all 2,573 individual three marker combinations (7.15% out of a total 1,830 unique combinations possible) achieving an AUC of 0.70 or better according to the analysis summarized previously.
- FIGS. 15A-15FFFFFF lists all 8,153 individual four marker combinations (1.56% out of a total 521,855 unique combinations possible) achieving an AUC of 0.75 or better according to the analysis summarized previously.
-
FIG. 16 is a chart depicting the ROC curves of multiple fitted full models, utilizing the best model of any type by achieved ROC curve (chosen from model types including LDA (multiple selection and model size criteria), SVM (Random Forest, Top Kruskal-Wallis), and ELDA (multiple thresholds)) for risk of future arteriovascular events, as measured and calculated for the Example 1 populations. This chart encompasses models selected from three different overlapping subsets of ARTERIORISKMARKERS from a total set of 61 selected ARTERIORISKMARKERS. One subset encompassed all “Clinical Marker” ARTERIORISKMARKERS, including both the non-analyte clinical parameters as well as only the blood-bourne traditional laboratory risk factors most commonly used in current global risk assessment models: CHOL, HDLC, LDL, HBA1C, Glucose, and Insulin; it achieved a maximum AUC of 0.82. Another group included only the “Blood-Bourne Markers” analyte-based ARTERIORISKMARKERS without non-analyte clinical parameters; it achieved an ROC of 0.86. The final set included all 61 selected ARTERIORISKMARKERS; it achieved an AUC of 0.92. This analysis demonstrates selected use of blood-bourne ARTERIORISKMARKERS imparts incremental information even to the full set of standard clinical parameters and traditional laboratory risk factors. -
FIG. 17 is a chart depicting the ROC curve of the best blood-bourne ARTERIORISKMARKER model fromFIG. 16 , selected from only the blood-borne ARTERIORISKMARKERS, including its AUC statistic of 0.86 as shown in the legend. -
FIG. 18 is a chart depicting the ROC curve of the best total ARTERIORISKMARKER model fromFIG. 16 , selected from all 61 possible ARTERIORISKMARKERS, including its AUC statistic of 0.90 as shown in the legend. - FIGS. 19A-D provide information on the inputs used under different ARTERIORISKMARKER model types and selection techniques, with resulting “best” models given model design and constraints, within both of the different case populations of Example 1 (excluding stroke from the Case arm) and Example 2 (including stroke in the Case arm). Of particular note is the consistency of selection of certain markers, which are the Core Markers of the invention, across three or more model types, multiple model constraints, and marker selection techniques.
-
FIG. 20 is a chart depicting the ROC curve calculated AUC statistics for multiple expanding “best forward selected” LDA models, starting from a single ARTERIORISKMARKER and then at each step adding one more incremental forward selected ARTERIORISKMARKER, re-optimizing the LDA model, and graphing the derived AUC statistic using the results from the Example 2 study populations. This continues through 53 selected ARTERIORISKMARKERS selected from a total set of the selected blood-bourne ARTERIORISKMARKERS, Sex and Family History (FamHX). The AIC is included as in the previous charts. -
FIG. 21 is a chart depicting the ROC curve calculated AUC statistics for multiple expanding “best forward selected” LDA models, starting from a single ARTERIORISKMARKER and then at each step adding one more incremental forward selected ARTERIORISKMARKER, re-optimizing the LDA model, and graphing the derived AUC statistic using the results from the Example 2 study populations. This continues through 61 ARTERIORISKMARKERS representing the complete group of both the selected blood-bourne analyte and clinical parameter ARTERIORISKMARKERS. The AIC is included as in the previous charts. - Differences in marker selection using the same models and marker selection criteria across the different cohorts excluding versus including stroke converters, and amongst the markers when restricted to blood-bourne markers only versus allowed to select all variables, may demonstrate both the substitutability of certain biomarkers, where multiple solutions to the model optimization are likely, and the impact of population and diagnostic indication/intended use on the best fitted models. Several techniques of result normalization, model cross-validation, and model calibration are disclosed herein which may be employed in various scenarios as appropriate.
- The present invention relates to the identification of biomarkers associated with subjects having an arteriovascular disease such as atherosclerosis, atherothrombosis, CAD, PAD, and CVD, are predisposed to or at risk for developing an arteriovascular disease or are predisposed to or at risk of experiencing an acute arteriovascular event. Accordingly, the invention provides methods for identifying subjects who have an arteriovascular disease, or who are predisposed to or at risk for experiencing an arteriovascular event by the detection of biomarkers associated with an arteriovascular disease, including those subjects who are asymptomatic for an arteriovascular disease. These biomarkers are also useful for monitoring subjects undergoing treatments and therapies for an arteriovascular disease, and for selecting or modifying therapies and treatments that would be efficacious in subjects having an arteriovascular disease, wherein selection and use of such treatments and therapies slow the progression of an arteriovascular disease, or substantially delay or prevent its onset, or reduce or prevent the incidence of arteriovascular events.
- Definitions
- “Accuracy” refers to the degree of conformity of a measured or calculated quantity (a test reported value) to its actual (or true) value. Clinical accuracy relates to the proportion of true outcomes (true positives (TP) or true negatives (TN) versus misclassified outcomes (false positives (FP) or false negatives (FN)), and may be stated as a sensitivity, specificity, positive predictive values (PPV) or negative predictive values (NPV), or as a likelihood, odds ratio, among other measures.
- As used herein, “atherosclerosis” and “atherothrombosis” refer to systemic inflammatory disease states associated with complex inflammatory responses to multifaceted vascular pathologies involving inflammatory activation of the endothelium, inflammatory leukocytes as a source of thrombogenic stimuli, smooth muscle cells as a source of procoagulants and amplifier of the inflammatory response during thrombosis, and platelets as mediators of inflammation. Arteries harden and narrow due to buildup of a material called “plaque” on their inner walls. As the plaque develops and increases in size, the insides of the arteries get narrower (“stenosis”) and less blood can flow through them. Stenosis or plaque rupture may cause partial or complete occlusion of the affected vasculature. Tissues supplied by the vasculature are thus deprived of their source of oxygenation (ischemia) and cell death (necrosis) can occur.
- “Arteriovascular disease” as defined herein is a general term used to classify numerous conditions affecting the heart, heart valves, blood, and vasculature of the body and encompasses any disease affecting the heart or blood vessels, including, but not limited to, Metabolic Syndrome, Syndrome X, arteriosclerosis, atherosclerosis, atherothrombosis, coronary artery disease, heart valve disease, arrhythmia, angina pectoris (stable and unstable), cardiomyopathy, congestive heart failure, hypertension, orthostatic hypotension, shock, endocarditis, diseases of the aorta and its branches (such as aortic stenosis), peripheral artery disease, peripheral vascular disease, cerebrovascular disease, and congenital heart disease, and including, without limitation, any acute ischemic arteriovascular event. Arteriovascular disease as used herein is meant to most commonly refer to the ischemic or pro-ischemic disease, rather than generally to non-ischemic disease.
- “Arteriovascular event” is used interchangeably herein with the term “acute arteriovascular event”, “cardiac event”, or “cardiovascular event” and refers to sudden cardiac death, acute coronary syndromes such as, but not limited to, plaque rupture, myocardial infarction, unstable angina, as well as non-cardiac acute arteriovascular events such as blood clots of the leg, aneurysms, stroke and other arteriovascular ischemic events where arteriovascular blood flow and oxygenation is interrupted.
- “Biomarker” in the context of the present invention encompasses, without limitation, proteins, nucleic acids, and metabolites, together with their polymorphisms, mutations, variants, modifications, subunits, fragments, protein-ligand complexes, and degradation products, protein-ligand complexes, elements, related metabolites, and other analytes or sample-derived measures. Biomarkers can also include mutated proteins or mutated nucleic acids. Biomarkers also encompass non-blood borne factors or non-analyte physiological markers of health status, such as “clinical parameters” defined herein, as well as “traditional laboratory risk factors”, also defined herein. Biomarkers also include any calculated indices created mathematically or combinations of any one or more of the foregoing measurements, including temporal trends and differences. The term “analyte” as used herein can mean any substance to be measured and can encompass electrolytes and elements, such as calcium.
- Where available, and unless otherwise described herein, biomarkers which are gene products are identified based on the official letter abbreviation or gene symbol assigned by the international Human Genome Organization Naming Committee (HGNC) and listed at the date of this filing at the US National Center for Biotechnology Information (NCBI) web site (http://www.ncbi.nlm.nih.gov/sites/entrez?db=gene ), also known as Entrez Gene.
- “CAD” or “coronary artery disease” is an arteriovascular disease which occurs when the arteries that supply blood to the heart muscle (the coronary arteries) become calcified and/or narrowed. Eventually, blood flow to the heart muscle is reduced, and, because blood carries much-needed oxygen, the heart muscle is not able to receive the amount of oxygen it needs, and often undergoes necrosis. CAD encompasses disease states such as acute coronary syndromes (ACS), myocardial infarction (heart attack), angina (stable and unstable), and atherosclerosis and atherothrombosis that occurs in the blood vessels that supply the heart with oxygen-rich blood. An estimated 13 million Americans are currently diagnosed with CAD, with approximately 7 million being the survivors of past acute events. Over 1 million new acute CAD events occur each year, many resulting in death. The lifetime risk of CAD after
age 40 is 49 percent for men and 32 percent for women. - Subjects who are deemed clinically to be at low risk or no risk for developing arteriovascular disease such as CAD often exhibit none or few of the traditional risk factors for the arteriovascular disease, but nevertheless may still be at risk for an acute arteriovascular event. Approximately 20% of all acute CAD events occur in subjects with none of the traditional risk factors, and the majority of all acute CAD occur in subjects who have not been previously diagnosed with CAD. Often these subjects do not exhibit the symptoms of an acute CAD event, i.e. shortness of breath and/or chest pain, until the actual occurrence of such an acute event. A substantial detection gap remains for those who are at risk for an acute CAD event yet are asymptomatic, without traditional risk factors, or are currently deemed clinically to be at low risk and have not yet been diagnosed with CAD.
- “ARTERIORISKMARKER” OR “ARTERIORISKMARKERS” encompass one or more of all biomarkers whose levels are changed in subjects who have an arteriovascular disease or are predisposed to developing an arteriovascular disease, or at risk of an arteriovascular event.
- Individual analyte-based ARTERIORISKMARKERS are summarized in Table 2 and are collectively referred to herein as, inter alia, “arteriovascular event risk-associated proteins”, “ARTERIORISKMARKER polypeptides”, or “ARTERIORISKMARKER proteins”. The corresponding nucleic acids encoding the polypeptides are referred to as “cardiac event risk-associated nucleic acids”, “cardiac event risk-associated genes”, “ARTERIORISKMARKER nucleic acids”, or “ARTERIORISKMARKER genes”. Unless indicated otherwise, “ARTERIORISKMARKER”, “cardiac event risk-associated proteins”, “cardiac event risk-associated nucleic acids” are meant to refer to any of the sequences disclosed herein. The corresponding metabolites of the ARTERIORISKMARKER proteins or nucleic acids can also be measured, as well as any of the aforementioned traditional risk marker metabolites previously disclosed, including, without limitation, such metabolites as total cholesterol (CHOL), LDL, HDLC, cholesterol sub-fractions, and glucose, herein referred to as “ARTERIORISKMARKER metabolites”.
- Non-analyte physiological markers of health status (e.g., such as age, diastolic or systolic blood pressure, body-mass index, and other non-analyte measurements commonly used as traditional risk factors) are referred to as “ARTERIORISKMARKER physiology”. Calculated indices created from mathematically combining measurements of one or more, preferably two or more of the aforementioned classes of ARTERIORISKMARKERS are referred to as “ARTERIORISKMARKER indices”.
- “Clinical parameters” encompasses all non-sample or non-analyte biomarkers of subject health status or other characteristics, such as, without limitation, age (Age), ethnicity (RACE), gender (Sex), diastolic blood pressure (DBP) and systolic blood pressure (SBP), family history (FamHX), height (HT), weight (WT), waist (Waist) and hip (Hip) circumference, body-mass index (BMI), as well as others such as Type I or Type II Diabetes Mellitus or Gestational Diabetes Mellitus (DM or GDM, collectively referred to here as Diabetes), and resting heart rate.
- “CVD” or “cerebrovascular disease” is an arteriovascular disease in the blood vessels that feed oxygen-rich blood to the face and brain, such as atherosclerosis and atherothrombosis. This term is often used to describe “hardening” of the carotid arteries, which supply the brain with blood. It is a common comorbid disease with CAD and/or PAD. It is also referred to as an ischemic disease, or a disease that causes a lack of blood flow. CVD encompasses disease states such as “cerebrovascular ischemia,” “acute cerebral infarction,” “stroke,” “ischemic stroke,” “hemorrhagic stroke,” “aneurysm,” “mild cognitive impairment (MCI)” and “transient ischemic attacks” (TIA). Ischemic CVD is believed to closely related to CAD and PAD; non-ischemic CVD may have multiple pathophysiologies. An estimated 5 million Americans are the survivors of past diagnosed acute CVD events, with an estimated 700 thousand acute CVD events occurring each year. As disclosed herein, subjects deemed to be at low risk or no risk of CVD based on clinical assessments of traditional arteriovascular disease risk factors, or without symptoms such as TIAs, MCI or severe headache, may still be at risk for an acute CVD event.
- “FN” is false negative, which for a disease state test means classifying a disease subject incorrectly as non-disease or normal.
- “FP” is false positive, which for a disease state test means classifying a normal subject incorrectly as having disease.
- A “formula,” “algorithm,” or “model” is any mathematical equation, algorithmic, analytical or programmed process, or statistical technique that takes one or more continuous or categorical inputs (herein called “parameters”) and calculates an output value, sometimes referred to as an “index” or “index value.” Non-limiting examples of “formulas” include sums, ratios, and regression operators, such as coefficients or exponents, biomarker value transformations and normalizations (including, without limitation, those normalization schemes based on clinical parameters, such as gender, age, or ethnicity), rules and guidelines, statistical classification models, and neural networks trained on historical populations. Of particular use in combining ARTERIORISKMARKERS and other biomarkers are linear and non-linear equations and statistical classification analyses to determine the relationship between levels of ARTERIORISKMARKERS detected in a subject sample and the subject's risk of arteriovascular disease. In panel and combination construction, of particular interest are structural and synactic statistical classification algorithms, and methods of risk index construction, utilizing pattern recognition features, including established techniques such as cross-correlation, Principal Components Analysis (PCA), factor rotation, Logistic Regression (LogReg), Linear Discriminant Analysis (LDA), Eigengene Linear Discriminant Analysis (ELDA), Support Vector Machines (SVM), Random Forest (RF), Recursive Partitioning Tree (RPART), as well as other related decision tree classification techniques, Shrunken Centroids (SC), StepAIC, Kth-Nearest Neighbor, Boosting, Decision Trees, Neural Networks, Bayesian Networks, Support Vector Machines, and Hidden Markov Models, among others. Other techniques may be used in survival and time to event hazard analysis, including Cox, Weibull, Kaplan-Meier and Greenwood models well known to those of skill in the art. Many of these techniques are useful either combined with a ARTERIORISKMARKER selection technique, such as forward selection, backwards selection, or stepwise selection, complete enumeration of all potential panels of a given size, genetic algorithms, or they may themselves include biomarker selection methodologies in their own technique. These may be coupled with information criteria, such as Akaike's Information Criterion (AIC) or Bayes Information Criterion (BIC), in order to quantify the tradeoff between additional biomarkers and model improvement, and to aid in minimizing overfit. The resulting predictive models may be validated in other studies, or cross-validated in the study they were originally trained in, using such techniques as Bootstrap, Leave-One-Out (LOO) and 10-Fold cross-validation (10-Fold CV). At various steps, false discovery rates may be estimated by value permutation according to techniques known in the art. A “health economic utility function” is a formula that is derived from a combination of the expected probability of a range of clinical outcomes in an idealized applicable patient population, both before and after the introduction of a diagnostic or therapeutic intervention into the standard of care. It encompasses estimates of the accuracy, effectiveness and performance characteristics of such intervention, and a cost and/or value measurement (a utility) associated with each outcome, which may be derived from actual health system costs of care (services, supplies, devices and drugs, etc.) and/or as an estimated acceptable value per quality adjusted life year (QALY) resulting in each outcome. The sum, across all predicted outcomes, of the product of the predicted population size for an outcome multiplied by the respective outcome's expected utility is the total health economic utility of a given standard of care. The difference between (i) the total health economic utility calculated for the standard of care with the intervention versus (ii) the total health economic utility for the standard of care without the intervention results in an overall measure of the health economic cost or value of the intervention. This may itself be divided amongst the entire patient group being analyzed (or solely amongst the intervention group) to arrive at a cost per unit intervention, and to guide such decisions as market positioning, pricing, and assumptions of health system acceptance. Such health economic utility functions are commonly used to compare the cost-effectiveness of the intervention, but may also be transformed to estimate the acceptable value per QALY the health care system is willing to pay, or the acceptable cost-effective clinical performance characteristics required of a new intervention.
- For diagnostic (or prognostic) interventions of the invention, as each outcome (which in a disease classifying diagnostic test may be a TP, FP, TN, or FN) bears a different cost, a health economic utility function may preferentially favor sensitivity over specificity, or PPV over NPV based on the clinical situation and individual outcome costs and value, and thus provides another measure of health economic performance and value which may be different from more direct clinical or analytical performance measures. These different measurements and relative trade-offs generally will converge only in the case of a perfect test, with zero error rate (a.k.a., zero predicted subject outcome misclassifications or FP and FN), which all performance measures will favor over imperfection, but to differing degrees.
- “Measuring” or “measurement,” or alternatively “detecting” or “detection,” means assessing the presence, absence, quantity or amount (which can be an effective amount) of either a given substance within a clinical or subject-derived sample, including the derivation of qualitative or quantitative concentration levels of such substances, or otherwise evaluating the values or categorization of a subject's non-analyte clinical parameters.
- “Negative predictive value” or “NPV” is calculated by TN/(TN+FN) or the true negative fraction of all negative test results. It also is inherently impacted by the prevalence of the disease and pre-test probability of the population intended to be tested. See, e.g., O'Marcaigh A S, Jacobson R M, “Estimating The Predictive Value Of A Diagnostic Tesi, How To Prevent Misleading Or Confusing Results,” Clin. Ped. 1993, 32(8): 485-491, which discusses specificity, sensitivity, and positive and negative predictive values of a test, e.g., a clinical diagnostic test. Often, for binary disease state classification approaches using a continuous diagnostic test measurement, the sensitivity and specificity is summarized by Receiver Operating Characteristics (ROC) curves according to Pepe et al, “Limitations of the Odds Ratio in Gauging the Performance of a Diagnostic, Prognostic, or Screening Marker,”
Am. J. Epidemiol 2004, 159 (9): 882-890, and summarized by the Area Under the Curve (AUC) or c-statistic, an indicator that allows representation of the sensitivity and specificity of a test, assay, or method over the entire range of test (or assay) cut points with just a single value. See also, e.g., Shultz, “Clinical Interpretation Of Laboratory Procedures,”chapter 14 in Teitz, Fundamentals of Clinical Chemistry, Burtis and Ashwood (eds.), 4thedition 1996, W. B. Saunders Company, pages 192-199; and Zweig et al., “ROC Curve Analysis: An Example Showing The Relationships Among Serum Lipid And Apolipoprotein Concentrations In Identifying Subjects With Coronory Artery Disease,” Clin. Chem., 1992, 38(8): 1425-1428. An alternative approach using likelihood functions, odds ratios, information theory, predictive values, calibration (including goodness-of-fit), and reclassification measurements is summarized according to Cook, “Use and Misuse of the Receiver Operating Characteristic Curve in Risk Prediction,”Circulation 2007, 115: 928-935. - Finally, hazard ratios and absolute and relative risk ratios within subject cohorts defined by a test are a further measurement of clinical accuracy and utility. Multiple methods are frequently used to defining abnormal or disease values, including reference limits, discrimination limits, and risk thresholds as per Vasan, “Biomarkers of Cardiovascular Disease: Molecular Basis and Practical Considerations,”
Circulation 2006, 113: 2335-2362. - Analytical accuracy refers to the reproducibility and predictability of the measurement process itself, and may be summarized in such measurements as coefficients of variation, and tests of concordance and calibration of the same samples or controls with different times, users, equipment and/or reagents. These and other considerations in evaluating new biomarkers are also summarized in Vasan, 2006.
- “PAD” or “peripheral artery disease” encompasses disease states such as atherosclerosis and atherothrombosis that occur outside the heart and brain. It is a common comorbid disease with CAD. Subjects who are deemed to be at low risk or no risk of PAD based upon an assessment of traditional risk factors of PAD (or arteriovascular disease), or who are asymptomatic for PAD or an arteriovascular disease may nevertheless be at risk for an arteriovascular event, even in the absence of claudication. Claudication can be defined as pain or discomfort in the muscles of the legs occurring due to a decreased amount of blood flowing to a muscle from narrowing of the peripheral arteries, producing ischemia and often arterial occlusion, causing skeletal muscle and limb necrosis. The pain or discomfort often occurs when walking and dissipates under resting conditions (intermittent claudication). Pain, tightness, cramping, tiredness or weakness is often experienced as a result of claudication. An estimated 8 to 12 million Americans are estimated to have PAD, but only 25% or less are currently diagnosed and treated.
- PAD not only causes the hemodynamic alterations common in CAD, but also results in metabolic changes in skeletal muscle. When PAD has progressed to severe chronic and acute peripheral arterial occlusion, surgery and limb amputation often become the sole therapeutic options. PAD is widely considered to be an underdiagnosed disease, with the majority of confirmed diagnoses occurring only after symptoms are manifested, or only with other arteriovascular disease, and irreversible arteriovascular damage due to such ischemic events has already occurred.
- “Performance” is a term that relates to the overall usefulness and quality of a diagnostic or prognostic test, including, among others, clinical and analytical accuracy, other analytical and process characteristics, such as use characteristics (e.g., stability, ease of use), health economic value, and relative costs of components of the test. Any of these factors may be the source of superior performance and thus usefulness of the test, and may be measured by appropriate “performance metrics,” such as AUC, time to result, shelf life, etc. as relevant.
- “Positive predictive value” or “PPV” is calculated by TP/(TP+FP) or the true positive fraction of all positive test results. It is inherently impacted by the prevalence of the disease and pre-test probability of the population intended to be tested.
- “Risk” in the context of the present invention, relates to the probability that an event will occur over a specific time period, as in the conversion to arteriovascular events, and can can mean a subject's “absolute” risk or “relative” risk. Absolute risk can be measured with reference to either actual observation post-measurement for the relevant time cohort, or with reference to index values developed from statistically valid historical cohorts that have been followed for the relevant time period. Relative risk refers to the ratio of absolute risks of a subject compared either to the absolute risks of low risk cohorts or an average population risk, which can vary by how clinical risk factors are assessed. Odds ratios, the proportion of positive events to negative events for a given test result, are also commonly used (odds are according to the formula p/(1-p) where p is the probability of event and (1-p) is the probability of no event) to no-conversion. Alternative continuous measures which may be assessed in the context of the present invention include time to arteriovascular disease conversion and therapeutic arteriovascular disease conversion risk reduction ratios.
- “Risk evaluation,” or “evaluation of risk” in the context of the present invention encompasses making a prediction of the probability, odds, or likelihood that an event or disease state may occur, the rate of occurrence of the event or conversion from one disease state to another, i.e., from a normal condition to an arteriovascular condition or to one at risk of developing an arteriovascular event, or from at risk of an arteriovascular event to a more stable arteriovascular condition. Risk evaluation can also comprise prediction of future clinical parameters, traditional laboratory risk factor values, or other indices of arteriovascular disease, such as coronary calcium scores, other imaging or treadmill scores, passive or provocative tesing results, arteriovasculature percentage stenosis or occlusion and other measurements of plaque burden and activity, either in absolute or relative terms in reference to a previously measured population. The methods of the present invention may be used to make continuous or categorical measurements of the risk of conversion to arteriovascular disease and events, thus diagnosing and defining the risk spectrum of a category of subjects defined as being at risk for an arteriovascular event. In the categorical scenario, the invention can be used to discriminate between normal and other subject cohorts at higher risk for arteriovascular events. In other embodiments, the present invention may be used so as to discriminate those at risk for developing an arteriovascular event from those having arteriovascular disease, or those having arteriovascular disease from normal. Such differing use may require different ARTERIORISKMARKER combinations and individualized panels, mathematical algorithms, and/or cut-off points, but be subject to the same aforementioned measurements of accuracy and performance for the respective intended use.
- A “sample” in the context of the present invention is a biological sample isolated from a subject and can include, by way of example and not limitation, whole blood, serum, plasma, blood cells, endothelial cells, tissue biopsies, lymphatic fluid, ascites fluid, interstitital fluid (also known as “extracellular fluid” and encompasses the fluid found in spaces between cells, including, inter alia, gingival crevicular fluid), bone marrow, cerebrospinal fluid (CSF), saliva, mucous, sputum, sweat, urine, or any other secretion, excretion, or other bodily fluids.
- “Sensitivity” is calculated by TP/(TP+FN) or the true positive fraction of disease subjects.
- “Specificity” is calculated by TN/(TN+FP) or the true negative fraction of non-disease or normal subjects.
- By “statistically significant”, it is meant that the alteration is greater than what might be expected to happen by chance alone (which could be a “false positive”). Statistical significance can be determined by any method known in the art. Commonly used measures of significance include the p-value, which presents the probability of obtaining a result at least as extreme as a given data point, assuming the data point was the result of chance alone. A result is often considered highly significant at a p-value of 0.05 or less.
- A “subject” in the context of the present invention is preferably a mammal. The mammal can be a human, non-human primate, mouse, rat, dog, cat, horse, or cow, but are not limited to these examples. Mammals other than humans can be advantageously used as subjects that represent animal models of arteriovascular disease or arteriovascular events. A subject can be male or female. A subject can be one who has been previously diagnosed or identified as having arteriovascular disease or an arteriovascular event, and optionally has already undergone, or is undergoing, a therapeutic intervention for the arteriovascular disease or arteriovascular event. Alternatively, a subject can also be one who has not been previously diagnosed as having arteriovascular disease. For example, a subject can be one who exhibits one or more risk factors for arteriovascular disease, or a subject who does not exhibit arteriovascular risk factors, or a subject who is asymptomatic for arteriovascular disease or arteriovascular events. A subject can also be one who is suffering from or at risk of developing arteriovascular disease or an arteriovascular event.
- “TN” is true negative, which for a disease state test means classifying a non-disease or normal subject correctly.
- “TP” is true positive, which for a disease state test means correctly classifying a disease subject.
- “Traditional laboratory risk factors” correspond to biomarkers isolated or derived from subject samples and which are currently evaluated in the clinical laboratory and used in traditional global risk assessment algorithms, such as those from the San Antonio Heart Study, the Framingham Heart Study, and the National Cholesterol Education Program Expert Panel on Detection, Evaluation, and Treatment of High Blood Cholesterol in Adults (Adult Treatment Panel III), also known as NCEP/ATP III. Traditional laboratory risk factors commonly tested from subject blood samples include, but are not limited to, total cholesterol (CHOL), LDL (LDL), HDL (HDLC), VLDL (VLDL), triglycerides (TRIG), glucose, insulin and hemoglobin A1c (HBA1C). Glucose as used herein includes, without limitation, fasting glucose (Glucose) as well as glucose levels taken during and after the oral glucose tolerance test (OGTT), such as 120 minute Glucose (herein labeled “Gluc120”). Insulin (INS) as used herein includes, without limitation, fasting insulin (Insulin) and insulin levels taken during and after the OGTT, such as 120 minute Insulin (herein labeled “Ins120”), as well as insulin's precursors (such as pro-insulin) and their cleavage products such as soluble c-peptide (SCp). Traditional laboratory risk factors are also understood to encompass those ARTERIORISKMARKERS frequently tested in those at risk of arteriovascular or other thrombotic diseases, specifically including, without limitation, fibrinogen (FGA), lipoprotein (a) (LPA), c-reactive protein (CRP), D-dimer, and homocysteine.
- The methods disclosed herein are used with subjects at risk for experiencing an arteriovascular event, subjects who may or may not have already been diagnosed with an arteriovascular disease, and subjects undergoing treatment and/or therapies for an arteriovascular disease. The methods of the present invention can also be used to monitor or select a treatment regimen for a subject who has an arteriovascular disease, and to screen subjects who have not been previously diagnosed as having an arteriovascular disease, such as subjects who exhibit risk factors for an arteriovascular disease, or to assess a subject's future risk of an arteriovascular event. Preferably, the methods of the present invention are used to identify and/or diagnose subjects who are asymptomatic for an arteriovascular disease. “Asymptomatic” means not exhibiting the traditional symptoms, including chest pain and shortness of breath for CAD, claudication for PAD, and TIAs, MCI and severe headache for CVD.
- The methods of the present invention may also used to identify and/or diagnose subjects already at higher risk of arteriovascular disease based on solely on the traditional risk factors including, without limitation, gender; race, wherein the chances of developing an arteriovascular disease can be greater in certain ethnic groups; family history, wherein risk of developing an arteriovascular disease is thought to be due, in part, to genetics. Other traditional risk factors for developing an arteriovascular disease include cigarette smoking, elevated systolic (SBP) and diastolic blood pressure (DBP) aka hypertension, elevated serum total (CHOL) and LDL cholesterol levels, low serum HDL cholesterol (HDLC), diabetes mellitus (Diabetes), advancing age, obesity, physical inactivity, abnormal blood glucose (Glucose, Gluc120) and insulin (Insulin, Ins120, SCp) levels, elevated serum triglyceride (TRIG) levels, small LDL particles, elevated serum homocysteine, elevated serum lipoprotein (a) (LPA), prothrombotic factors such as fibrinogen (FGA), and inflammatory markers, such as C-reactive protein (CRP). Each of these may be used as an input variable and/or ARTERIORISKMARKER to multiple-ARTERIORISKMARKER models of the invention.
- A subject having an arteriovascular disease such as atherosclerosis, atherothrombosis, CAD, PAD, or CVD can be identified by measuring the amounts (including the presence or absence) of an effective number (which can be two or more) of ARTERIORISKMARKERS in a subject-derived sample and the amounts are then compared to a reference value. Alterations in the amounts and patterns of expression of biomarkers, such as proteins, polypeptides, nucleic acids and polynucleotides, polymorphisms of proteins, polypeptides, nucleic acids, and polynucleotides, mutated proteins, polypeptides, nucleic acids, and polynucleotides, or alterations in the molecular quantities of metabolites or other analytes (such as elemental calcium) in the subject sample compared to the reference value are then identified.
- A reference value can be relative to a number or value derived from population studies, including without limitation, such subjects having similar body mass index, total cholesterol levels, LDL/HDL levels, systolic or diastolic blood pressure, subjects of the same or similar age range, subjects in the same or similar ethnic group, subjects having family histories of atherosclerosis, atherothrombosis, or CAD, PAD, or CVD, or relative to the starting sample of a subject undergoing treatment for an arteriovascular disease, such as atherosclerosis, atherothrombosis, CAD, PAD, or CVD. Such reference values can be derived from statistical analyses and/or risk prediction data of populations obtained from mathematical algorithms and computed indices of arteriovascular disease, such as but not limited to, algorithms reported in the Framingham Study, NCEP/ATP III, among others. Reference ARTERIORISKMARKER indices can also be constructed and used using algorithms and other methods of statistical and structural classification.
- In one embodiment of the present invention, the reference value is the amount of ARTERIORISKMARKERS in a control sample derived from one or more subjects who are both asymptomatic and lack traditional risk factors for an arteriovascular disease. Such subjects who lack traditional risk factors for an arteriovascular disease can be verified as those subjects having a serum cholesterol level less than 200 mg/dl, systolic blood pressure less than or equal to 120 mm Hg, diastolic blood pressure less than or equal to 80 mm Hg, non-current smoker, no history of diagnosed diabetes, no previously diagnosed acute coronary syndrome or hypertension, among other aforementioned other risk factors, or can be verified by another invasive or non-invasive diagnostic test of arteriovascular disease known in the art, such as but not limited to, electrocardiogram (ECG), carotid B-mode ultrasound (for intima-medial thickness measurement), electron beam computed tomography (EBCT), coronary calcium scoring, multi-slice high resolution computed tomography, nuclear magnetic resonance, stress exercise testing, angiography, intra-vascular ultrasound (IVUS), other contrast and/or radioisotopic imaging techniques, or other provocative testing techniques. In a further embodiment, such subjects are monitored and/or periodically retested for a diagnostically relevant period of time (“longitudinal studies”) following such test to verify continued absence from arteriovascular disease or acute arteriovascular events (disease or event free survival). Such period of time may be one year, two years, two to five years, five years, five to ten years, ten years, or ten or more years from the initial testing date for determination of the reference value. Furthermore, retrospective measurement of ARTERIORISKMARKERS in properly banked historical subject samples may be used in establishing these reference values, thus shortening the study time required, presuming the subjects have been appropriately followed during the intervening period through the intended horizon of the product claim.
- A reference value can also comprise the amounts of ARTERIORISKMARKERS derived from subjects who show an improvement in arteriovascular risk factors as a result of treatments and/or therapies for arteriovascular diseases. Such improvements include a reduction in body mass index, a reduction in total cholesterol, a reduction in LDL levels, an increase in HDLC levels, a reduction in systolic and/or diastolic blood pressure, or other aforementioned risk factor or combinations thereof. A reference value can also comprise the amounts of ARTERIORISKMARKERS derived from subjects who have confirmed disease by one of the above invasive or non-invasive techniques, or are at high risk for developing an arteriovascular event, or who are at high risk for developing an atherosclerotic or atherothrombotic plaque rupture, or who have suffered from an arteriovascular event or plaque rupture.
- A subject predisposed to developing an arteriovascular disease such as atherosclerosis, atherothrombosis, CAD, PAD, or CVD, or at increased risk of experiencing an arteriovascular event can be identified by measuring the levels of an effective amount (which may be two or more) of ARTERIORISKMARKERS in a subject-derived sample and the levels are then compared to a reference value. Alterations in the level of expression of proteins, polypeptides, nucleic acids and polynucleotides, polymorphisms of proteins, polypeptides, nucleic acids, and polynucleotides, or alterations in the molecular quantities of metabolites or other analytes in the subject sample compared to the reference value are then identified.
- A reference value can be relative to a number or value derived from population studies including without limitation, such subjects having the same or similar arteriovascular risk factors, which include atherosclerosis and/or atherothrombosis risk factors, such as similar body mass index or similar total cholesterol levels, similar LDL/HDLC levels, similar blood glucose levels, similar systolic or diastolic blood pressure, subjects of the same or similar age range, subjects in the same or similar ethnic group, subjects having family histories of atherosclerosis, atherothrombosis, or CAD, PAD, or CVD, subjects who exhibit similar symptoms of an arteriovascular disease, or relative to a value obtained from a starting sample of a subject undergoing treatment for an arteriovascular disease, subjects who have shown improvement in arteriovascular risk factors as a result of treatment for the arteriovascular disease, or subjects who are not at risk or at low risk for developing an arteriovascular disease, or subjects who are asymptomatic for arteriovascular disease.
- In one embodiment of the present invention, the reference value is the amount of ARTERIORISKMARKERS in a control sample derived from one or more subjects who are not at risk or at low risk for developing an arteriovascular disease, or subjects who are asymptomatic for arteriovascular disease. Such subjects who are not at risk or at low risk for developing an arteriovascular disease, or who are asymptomatic for arteriovascular disease can be verified by comparing the risk factors of the subjects against a number derived from longitudinal studies of subjects from which the likelihood of arteriovascular disease progression can be determined, including without limitation, such subjects having similar body mass index or similar total cholesterol levels, similar LDL/HDLC levels, similar blood glucose levels, similar systolic or diastolic blood pressure, subjects of the same or similar age range, subjects in the same or similar ethnic group, subjects who exhibit similar symptoms of an arteriovascular disease, or subjects having family histories of atherosclerosis, atherothrombosis, CAD, PAD, or CVD.
- In another embodiment, the reference value is an index value or a baseline value. An index value or baseline value is a composite sample of an effective amount of ARTERIORISKMARKERS from one or more subjects who do not have an arteriovascular disease, such as atherosclerosis, atherothrombosis, CAD, PAD, or CVD, or subjects who are asymptomatic for an arteriovascular disease. A baseline value can also comprise the amounts of ARTERIORISKMARKERS in a sample derived from a subject who has shown an improvement in arteriovascular risk factors (encompassing atherosclerosis and/or atherothrombosis risk factors) as a result of arteriovascular treatments or therapies. Such improvements include, without limitation, a reduction in body mass index, a reduction in total cholesterol, a reduction in LDL levels, an increase in HDLC levels, a reduction in systolic and/or diastolic blood pressure, or combinations thereof. In this embodiment, to make comparisons to the subject-derived sample, the amounts of ARTERIORISKMARKERS are similarly calculated and compared to the index value. Optionally, subjects identified as having an arteriovascular disease, or being at increased risk of developing an arteriovascular disease are chosen to receive a therapeutic regimen to slow the progression of an arteriovascular disease, or decrease or prevent the risk of developing an arteriovascular disease.
- The progression of an arteriovascular disease, or effectiveness of an arteriovascular disease treatment regimen can be monitored by detecting a ARTERIORISKMARKER in an effective amount (which may be two or more) of samples obtained from a subject over time and comparing the amount of ARTERIORISKMARKERS detected. For example, a first sample can be obtained prior to the subject receiving treatment and one or more subsequent samples are taken after or during treatment of the subject. Arteriovascular diseases are considered to be progressive (or, alternatively, the treatment does not prevent progression) if the amount of ARTERIORISKMARKER changes over time relative to the reference value, whereas the arteriovascular disease is not progressive if the amount of ARTERIORISKMARKERS remains constant over time (relative to the reference population, or “constant” as used herein). The term “constant” as used in the context of the present invention is construed to include changes over time with respect to the reference value.
- Additionally, therapeutic or prophylactic agents suitable for administration to a particular subject can be identified by detecting a ARTERIORISKMARKER in an effective amount (which may be two or more) in a sample obtained from a subject, exposing the subject-derived sample to a test compound that determines the amount (which may be two or more) of ARTERIORISKMARKERS in the subject-derived sample. Accordingly, treatments or therapeutic regimens for use in subjects having an arteriovascular disease, or subjects at risk for developing an arteriovascular disease can be selected based on the amounts of ARTERIORISKMARKERS in samples obtained from the subjects and compared to a reference value. Two or more treatments or therapeutic regimens can be evaluated in parallel to determine which treatment or therapeutic regimen would be the most efficacious for use in a subject to delay onset, or slow progression of an arteriovascular disease.
- The present invention further provides a method for screening for changes in marker expression associated with an arteriovascular disease, by determining the amount (which may be two or more) of ARTERIORISKMARKERS in a subject-derived sample, comparing the amounts of the ARTERIORISKMARKERS in a reference sample, and identifying alterations in amounts in the subject sample compared to the reference sample.
- If the reference sample, e.g., a control sample, is from a subject that does not have an arteriovascular disease, or if the reference sample reflects a value that is relative to a person that has a high likelihood of rapid progression to an arteriovascular disease, a similarity in the amount of the ARTERIORISKMARKER analytes in the test sample and the reference sample indicates that the treatment is efficacious. However, a difference in the amount of the ARTERIORISKMARKER in the test sample and the reference sample indicates a less favorable clinical outcome or prognosis.
- By “efficacious”, it is meant that the treatment leads to a decrease in the amount of a ARTERIORISKMARKER protein, nucleic acid, polymorphism, metabolite, or other analyte, decreases in systolic and/or diastolic blood pressure, decreases in total serum cholesterol and LDL cholesterol levels, increases in HDL cholesterol levels, or decreases in BMI. Assessment of the risk factors disclosed herein can be achieved using standard clinical protocols. Efficacy can be determined in association with any known method for diagnosing, identifying, or treating an arteriovascular disease.
- The present invention further encompasses methods of differentially diagnosing and distinguishing arteriovascular diseases, such as, but not limited to, Metabolic Syndrome, Syndrome X, arteriosclerosis, atherosclerosis, atherothrombosis, coronary artery disease, heart valve disease, arrhythmia, angina pectoris (stable and unstable), cardiomyopathy, congestive heart failure, hypertension, orthostatic hypotension, shock, endocarditis, diseases of the aorta and its branches (such as aortic stenosis), peripheral artery disease, cerebrovascular disease, and congenital heart disease. One embodiment of the invention provides a method of differentially diagnosing and distinguishing the progressive stages of atherosclerosis and atherothrombosis based on the development of an occlusive or subocclusive thrombus (also known as a “plaque”), which may be ruptured or non-ruptured. Plaque rupture is the most common type of plaque complication, accounting for ˜70% of fatal acute myocardial infarctions and/or sudden coronary deaths. Thus, there is an interdependent relationship between plaque growth and arterial thrombosis, providing the framework for precipitation of an acute arteriovascular event. Plaques within the arteriovascular system become “high-risk,““unstable,”, or “vulnerable” in response to a wide array of local and systemic influences, such as inflammation, composition of the plaque, prothrombotic milieu, among others (Wasserman, E. J. and Shipley, N. M. (2006) Mt. Sinai J. Med. 73L: 431-439). Plaque composition is a major pathophysiological determinant of arteriovascular disease. Measurement of plaque components can determine the probability of an arteriovascular event, and can be useful in diagnosing or identifying asymptomatic subjects.
- The earliest changes begin within the endothelium, where activated endothelial cells (ECs) recruit monocytes and T-lymphocytes to the vessel wall (Springer, T. A. (1994) Cell 76: 301-314). Endothelial dysfunction drives this process, which is marked by endothelial cell expression of leukocyte and vascular cell adhesion molecules (VCAMs) and increased endothelial permeability to lipoproteins, leukocytes, and other inflammatory mediators. Increasing number of atherogenic lipoproteins and T-cells within the intima stimulate monocytes to differentiate to macrophages, which then become lipid-laden foam cells as they engulf and ingest modified lipoproteins. Smooth muscle cells (SMCs) migrate and proliferate, leukocyte recruitment amplifies, and platelet aggregates adhere to injured endothelium in response to a variety of inflammatory mediators secreted by ECs, activated leukocytes, SMCs, and platelets (Springer, T. A. and Cybulsky, M. I:, (1996) In: Atherosclerosis and coronary artery disease Vol. 1 Lippincott-Raven (Philadelphia), pp. 511-538). These lesions are commonly referred to in the art as “fatty streaks”. With continued progression, these plaques accumulate pools of extracellular lipid deposits that surround increasing numbers of inflammatory cells, SMCs, and connective tissue elements, all of which comprise a pro-atherogenic, pro-thrombotic, dynamic extracellular matrix (ECM). In response to cytokines and growth factors, such as but not limited to transforming growth factor-β (TGFβ), a fibrous cap, composed primarily of SMCs and collagen, develops around the expanding lipid core, walling it off from the lumen. The atheromatous core accumulates larger, more confluent amounts of extracellular lipids along with pro-inflammatory mediators (e.g., interferon-γ) and proteolytic enzymes (e.g., matrix metalloproteinases (MMPs)) that contribute to the erosion of the-fibrous cap by digesting its components.
- Plaques are identified by several criteria, such as but not limited to plaque cap thickness, plaque lipid core size, presence or absence of a necrotic core, plaque stenosis (luminal narrowing), remodeling (expansive vs. constrictive remodeling), color (yellow, glistening yellow, red, etc.), collagen content vs. lipid content, mechanical stability (stiffness and elasticity), calcification burden and pattern (nodule vs. scattered, superficial vs. deep, etc.), plaque activity/function, such as plaque inflammation (comprising macrophage density, rate of monocyte infiltration, and density of activated T-cell), endothelial dysfunction measured by local nitric oxide production, anti-procoagulation properties of the endothelium, plaque oxidative stress, superficial platelet aggregation and fibrin deposition, rate of apoptosis, angiogenesis, leaking vasa vasorum, and intraplaque hemorrhage, the presence of matrix metalloproteinase activity in the cap, and the present of certain microbial antigens. Other criteria include pan-arterial measurements, such as transcoronary gradients of serum markers of vulnerability, total coronary calcium burden, total coronary vasoreactivity (endothelial function), total arterial burden of plaque including peripheral arterial burden, among others.
- Plaques which often, but do not always, create significant degrees of arterial luminal stenosis are characterized by a degraded fibrous cap with superimposed organizing thrombus and a well-formed, mostly acellular necrotic core containing oxygen radicals, oxidized lipids, dying foam cells, erythrocyte membranes, and apoptotic cellular debris (referred to in the art as “thin-cap fibroatheroma”). These high-risk atheromas may progress to largely occlusive and calcified-or fibrotic atheromas, which may in turn trigger signs and symptoms of more progressive arteriovascular diseases, such as angina pectoris and which occur secondary to acute thrombosis or during periods of inadequate collateral/luminal blood flow.
- The progression of a fatty streak to a high-risk atheroma occurs through a continuous process of ECM remodeling. Dysregulation of ECM metabolism may result in an accelerated accumulation of lipids and foam cells, a net increase in collagen resorption with subsequent weakening of the fibrous cap and compensatory changes in vessel wall architecture. Neovascularization in atherosclerotic arteries introduces fragile intimal microvessels (also known as “vasa vasorum”), which may rupture into the core, resulting in repeated, often subclinical, intraplaque hemorrhage. As these clots reorganize and are layered with fibrous tissue, the lesion advances. Expansive ECM remodeling results in outward growth of the plaque, increasing the circumference of the diseased section of artery. The extent of luminal narrowing has been found to be inversely proportional to the degree of expansive remodeling (Pasterkamp, G. et al (1995) Circulation 91: 1444-1449).
- Inflammation plays a key role during thrombogenesis, or disruption of the plaque. Procoagulant factors within the ECM are exposed to luminal blood flow at sites where plaque disruption has occurred. Stimulated by inflammatory mediators, circulating platelets adhere to damaged endothelium and form aggregates that become trapped in fibrin. Given the appropriate mixture of disturbed blood flow, inflammation, and thrombogenic potential, occlusive thrombi may occur, causing an arteriovascular event even in the absence of visible plaque disruption. Hyperlipoproteinemia, hypertension, diabetes, elevated levels of homocysteine as well as C-reactive protein, smoking, apoptosis, elevated levels of lipoprotein A, elevated levels of plasminogen activator inhibitor type-1 (PAI-1), high levels of MMPs, the presence of tissue factor, as well as other conditions, augment the inflammatory and hemodynamic response to vascular injury and feed the coagulation cascade, resulting in accelerated thrombogenesis.
- The present invention also provides ARTERIORISKMARKER panels including one or more ARTERIORISKMARKERS that are indicative of a general physiological pathway associated with an arteriovascular disease (such as inflammation, coagulation, necrosis), an arteriovascular disease site (such as the heart or brain), the particular stage of the arteriovascular disease (such as platelet aggregation or plaque rupture), the rate of progression of the arteriovascular disease (i.e., speed or kinetics that the arteriovascular disease is progressing at), and one or more ARTERIORISKMARKERS that can be used to exclude or distinguish between different disease states or sequelae associated with arteriovascular disease. The ARTERIORISKMARKERS of the invention also provides categories or clusters of analytes that can be measured and detected according to signaling pathway or physiological pathway. A single ARTERIORISKMARKER may have several of the aforementioned characteristics according to the present invention, and may alternatively be used in replacement of one or more other ARTERIORISKMARKERS where appropriate for the given application of the invention.
- The present invention also comprises a kit with a detection reagent that binds to two or more ARTERIORISKMARKER proteins, nucleic acids, polymorphisms, metabolites, or other analytes. Also provided by the invention is an array of detection reagents, e.g., antibodies and/or oligonucleotides that can bind to two or more ARTERIORISKMARKER proteins or nucleic acids, respectively. In one embodiment, the ARTERIORISKMARKER are proteins and the array contains antibodies that bind an effective amount of ARTERIORISKMARKERS 1- 1023 sufficient to measure a statistically significant alteration in ARTERIORISKMARKER expression compared to a reference value. In another embodiment, the ARTERIORISKMARKERS are nucleic acids and the array contains oligonucleotides or aptamers that bind an effective amount of ARTERIORISKMARKERS 1-1023 sufficient to measure a statistically significant alteration in ARTERIORISKMARKER expression compared to a reference value.
- Also provided by the present invention is a method for treating one or more subjects at risk for developing an arteriovascular disease, comprising: detecting the presence of altered amounts of an effective amount of ARTERIORISKMARKERS present in a sample from the one or more subjects; and treating the one or more subjects with one or more arteriovascular disease-modulating drugs until altered amounts of the ARTERIORISKMARKERS return to a baseline value measured in one or more subjects at low risk for developing an arteriovascular disease, or alternatively, in subjects who do not exhibit any of the traditional risk factors for arteriovascular disease.
- Also provided by the present invention is a method for treating one or more subjects having an arteriovascular disease comprising: detecting the presence of altered levels of an effective amount of ARTERIORISKMARKERS present in a sample from the one or more subjects; and treating the one or more subjects with one or more arteriovascular disease-modulating drugs until altered amounts of the ARTERIORISKMARKERS return to a baseline value measured in one or more subjects at low risk for developing an arteriovascular disease.
- Also provided by the present invention is a method for evaluating changes in the risk of an arteriovascular event in a subject diagnosed with an arteriovascular disease, comprising detecting an effective amount of ARTERIORISKMARKERS (which may be two or more) in a first sample from the subject at a first period of time, detecting the amounts of the ARTERIORISKMARKERS in a second sample from the subject at a second period of time, and comparing the amounts of the ARTERIORISKMARKERS detected at the first and second periods of time.
- The present invention also encompasses a method for evaluating the risk of plaque rupture in a subject diagnosed with atherosclerosis or atherothrombosis, comprising detecting an effective amount of ARTERIORISKMARKERS (which may be two or more) in a first sample from the subject at a first period of time, detecting the the ARTERIORISKMARKERS in a second sample from the subject at a second period of time, and comparing the amounts of the ARTERIORISKMARKERS detected at the first and second periods of time.
- A method for differentially diagnosing disease states associated with an arteriovascular disease in a subject is provided, comprising detecting an effective amount of ARTERIORISKMARKERS selected from the group consisting of ARTERIORISKMARKERS 1-1023, or the ARTERIORISKMARKER panels of the invention, in a sample from the subject; and comparing the amounts of the ARTERIORISKMARKERS to the arteriovascular disease subject profiles of the present invention, or to a reference value.
- Also provided by the present invention is a method of monitoring the progression of plaque formation in a subject comprising detecting an effective amount of ARTERIORISKMARKERS selected from the group consisting of CARDIORISKMAKRERS 1-1023, or the ARTERIORISKMARKER panels of the invention, in a sample from the subject; and comparing the amounts of the two or more ARTERIORISKMARKERS, or the ARTERIORISKMARKER panel, to the arteriovascular disease subject profiles of the present invention, or to a reference value.
- The invention allows the diagnosis and prognosis of arteriovascular disease or arteriovascular events. The risk of developing an arteriovascular disease can be detected by measuring an effective amount of ARTERIORISKMARKER proteins, nucleic acids, polymorphisms, metabolites, and other analytes (which may be two or more) in a test sample (e.g., a subject derived sample), and comparing the effective amounts to reference or index values, often utilizing mathematical algorithms or formula in order to combine information from results of multiple individual ARTERIORISKMARKERS and from non-analyte clinical parameters into a single measurement or index. Subjects identified as having an increased risk of an arteriovascular disease can optionally be selected to receive treatment regimens, such as administration of prophylactic or therapeutic compounds such as “arteriovascular disease-modulating agents” as defined herein, or implementation of exercise regimens, surgical interventions as defined elsewhere in this disclosure, or dietary supplements to prevent or delay the onset of an arteriovascular disease.
- The amount of the ARTERIORISKMARKER protein, nucleic acid, polymorphism, metabolite, or other analyte can be measured in a test sample and compared to the “normal control level,” utilizing techniques such as reference limits, discrimination limits, or risk defining thresholds to define cutoff points and abnormal values for arteriovascular disease or arteriovascular events, all as described in Vasan, 2006. The “normal control level” means the level of one or more ARTERIORISKMARKERS or combined ARTERIORISKMARKER indices typically found in a subject not suffering from an arteriovascular disease. Such normal control level and cutoff points may vary based on whether a ARTERIORISKMARKER is used alone or in a formula combining with other ARTERIORISKMARKERS into an index. Alternatively, the normal control level can be a database of ARTERIORISKMARKER patterns from previously tested subjects who did not convert to arteriovascular disease over a clinically relevant time horizon.
- The present invention may be used to make continuous or categorical measurements of the risk of conversion to arteriovascular disease, thus diagnosing and defining the risk spectrum of a category of subjects defined as at risk for having an arteriovascular event. In the categorical scenario, the methods of the present invention can be used to discriminate between normal and arteriovascular disease subject cohorts. In other embodiments, the present invention may be used so as to discriminate those at risk for having an arteriovascular event from those having more stable arteriovascular disease, those more rapidly progressing (or alternatively those with a shorter probable time horizon to an arteriovascular event) to an arteriovascular event from those more slowly progressing (or with a longer time horizon to an arteriovascular event), or those having arteriovascular disease from normal. Such differing use may require different ARTERIORISKMARKER combinations in individual panel, mathematical algorithm, and/or cut-off points, but be subject to the same aforementioned measurements of accuracy and other performance metrics relevant for the intended use.
- Identifying the subject at risk of having an arteriovascular event enables the selection and initiation of various therapeutic interventions or treatment regimens in order to delay, reduce or prevent that subject's conversion to an arteriovascular disease state. Levels of an effective amount of ARTERIORISKMARKER proteins, nucleic acids, polymorphisms, metabolites, or other analytes also allows for the course of treatment of arteriovascular disease or arteriovascular event to be monitored. In this method, a biological sample can be provided from a subject undergoing treatment regimens, e.g., drug treatments, for arteriovascular disease. Such treatment regimens can include, but are not limited to, exercise regimens, dietary supplementation, bariatric surgical intervention, and treatment with therapeutics or prophylactics used in subjects diagnosed or identified with arteriovascular disease or at risk of having an arteriovascular event. If desired, biological samples are obtained from the subject at various time points before, during, or after treatment.
- The present invention can also be used to screen patient or subject populations in any number of settings. For example, a health maintenance organization, public health entity or school health program can screen a group of subjects to identify those requiring interventions, as described above, or for the collection of epidemiological data. Insurance companies (e.g., health, life or disability) may screen applicants in the process of determining coverage or pricing, or existing clients for possible intervention. Data collected in such population screens, particularly when tied to any clinical progession to conditions like arteriovascular disease or arteriovascular events, will be of value in the operations of, for example, health maintenance organizations, public health programs and insurance companies. Such data arrays or collections can be stored in machine-readable media and used in any number of health-related data management systems to provide improved healthcare services, cost effective healthcare, improved insurance operation, etc. See, for example, U.S. Patent Application No. 2002/0038227; U.S. Patent Application No.
US 2004/0122296; U.S. Patent Application No.US 2004/0122297; and U.S. Pat. No. 5,018,067. Such systems can access the data directly from internal data storage or remotely from one or more data storage sites as further detailed herein. Thus, in a health-related data management system, wherein risk of developing a arteriovascular condition for a subject or a population comprises analyzing arteriovascular disease risk factors, the present invention provides an improvement comprising use of a data array encompassing the biomarker measurements as defined herein and/or the resulting evaluation of risk from those biomarker measurements. - A machine-readable storage medium can comprise a data storage material encoded with machine readable data or data arrays which, when using a machine programmed with instructions for using said data, is capable of use for a variety of purposes, such as, without limitation, subject information relating to arteriovascular disease risk factors over time or in response to arteriovascular disease-modulating drug therapies, drug discovery, and the like. Measurements of effective amounts of the biomarkers of the invention and/or the resulting evaluation of risk from those biomarkers can implemented in computer programs executing on programmable computers, comprising, inter alia, a processor, a data storage system (including volatile and non-volatile memory and/or storage elements), at least one input device, and at least one output device. Program code can be applied to input data to perform the functions described above and generate output information. The output information can be applied to one or more output devices, according to methods known in the art. The computer may be, for example, a personal computer, microcomputer, or workstation of conventional design.
- Each program can be implemented in a high level procedural or object oriented programming language to communicate with a computer system. However, the programs can be implemented in assembly or machine language, if desired. The language can be a compiled or interpreted language. Each such computer program can be stored on a storage media or device (e.g., ROM or magnetic diskette or others as defined elsewhere in this disclosure) readable by a general or special purpose programmable computer, for configuring and operating the computer when the storage media or device is read by the computer to perform the procedures described herein. The health-related data management system of the invention may also be considered to be implemented as a computer-readable storage medium, configured with a computer program, where the storage medium so configured causes a computer to operate in a specific and predefined manner to perform various functions described herein.
- Levels of an effective amount of ARTERIORISKMARKER proteins, nucleic acids, polymorphisms, metabolites, or other analytes can then be determined and compared to a reference value, e.g. a control subject or population whose athersclerotic state is known or an index value or baseline value. The reference sample or index value or baseline value may be taken or derived from one or more subjects who have been exposed to the treatment, or may be taken or derived from one or more subjects who are at low risk of developing arteriovascular disease or an arteriovascular event, or may be taken or derived from subjects who have shown improvements in arteriovascular disease risk factors (such as clinical parameters or traditional laboratory risk factors as defined herein) as a result of exposure to treatment. Alternatively, the reference sample or index value or baseline value may be taken or derived from one or more subjects who have not been exposed to the treatment. For example, samples may be collected from subjects who have received initial treatment for arteriovascular disease or an arteriovascular event and subsequent treatment for arteriovascular disease or an arteriovascular event to monitor the progress of the treatment. A reference value can also comprise a value derived from risk prediction algorithms or computed indices from population studies such as those disclosed herein.
- The ARTERIORISKMARKERS of the present invention can thus be used to generate a “reference ARTERIORISKMARKER profile” of those subjects who do not have arteriovascular disease or are not at risk of having an arteriovascular event, and would not be expected to develop arteriovascular disease or an arteriovascular event. The ARTERIORISKMARKERS disclosed herein can also be used to generate a “subject ARTERIORISKMARKER profile” taken from subjects who have arteriovascular disease or are at risk for having an arteriovascular event. The subject ARTERIORISKMARKER profiles can be compared to a reference ARTERIORISKMARKER profile to diagnose or identify subjects at risk for developing arteriovascular disease or an arteriovascular event, to monitor the progression of disease, as well as the rate of progression of disease, and to monitor the effectiveness of arteriovascular treatment modalities. The reference and subject ARTERIORISKMARKER profiles of the present invention can be contained in a machine-readable medium, such as but not limited to, analog tapes like those readable by a VCR, CD-ROM, DVD-ROM, USB flash media, among others. Such machine-readable media can also contain additional test results, such as, without limitation, measurements of clinical parameters and traditional laboratory risk factors. Alternatively or additionally, the machine-readable media can also comprise subject information such as medical history and any relevant family history. The machine-readable media can also contain information relating to other arteriovascular disease-risk algorithms and computed indices such as those described herein.
- Differences in the genetic makeup of subjects can result in differences in their relative abilities to metabolize various drugs, which may modulate the symptoms or risk factors of arteriovascular disease or arteriovascular events. Subjects that have arteriovascular disease, or at risk for developing arteriovascular disease or an arteriovascular event can vary in age, ethnicity, body mass index (BMI), total cholesterol levels, blood glucose levels, blood pressure, LDL and HDL levels, and other parameters. Accordingly, use of the ARTERIORISKMARKERS disclosed herein, both alone and together in combination with known genetic factors for drug metabolism, allow for a pre-determined level of predictability that a putative therapeutic or prophylactic to be tested in a selected subject will be suitable for treating or preventing arteriovascular disease or an arteriovascular event in the subject.
- To identify therapeutics or drugs that are appropriate for a specific subject, a test sample from the subject can also be exposed to a therapeutic agent or a drug, and the level of one or more of ARTERIORISKMARKER proteins, nucleic acids, polymorphisms, metabolites or other analytes can be determined. The level of one or more ARTERIORISKMARKERS can be compared to sample derived from the subject before and after treatment or exposure to a therapeutic agent or a drug, or can be compared to samples derived from one or more subjects who have shown improvements in arteriovascular risk factors (e.g., clinical parameters or traditional laboratory risk factors) as a result of such treatment or exposure.
- Agents for reducing the risk of arteriovascular disease, an arteriovascular event, or arteriovascular complications include, without limitation of the following, insulin, hypoglycemic agents, anti-inflammatory agents, lipid reducing agents, anti-hypertensives such as calcium channel blockers, beta-adrenergic receptor blockers, cyclooxygenase-2 inhibitors, angiotensin system inhibitors, ACE inhibitors, rennin inhibitors, together with other common risk factor modifying agents (herein “arteriovascular disease-modulating drugs”).
- “Insulin” includes rapid acting forms, such as Insulin lispro rDNA origin: HUMALOG (1.5 mL, 10 mL, Eli Lilly and Company, Indianapolis, Ind.), Insulin Injection (Regular Insulin) form beef and pork (regular ILETIN I, Eli Lilly], human: rDNA: HUMULIN R (Eli Lilly), NOVOLIN R (Novo Nordisk, New York, N.Y.), Semisynthetic: VELOSULIN Human (Novo Nordisk), rDNA Human, Buffered: VELOSULIN BR, pork: regular Insulin (Novo Nordisk), purified pork: Pork Regular ILETIN II (Eli Lilly), Regular Purified Pork Insulin (Novo Nordisk), and Regular (Concentrated) ILETIN II U-500 (500 units/mL, Eli Lilly); intermediate-acting forms such as Insulin Zinc Suspension, beef and pork: LENTE ILETIN G I (Eli Lilly), Human, rDNA: HUMULIN L (Eli Lilly), NOVOLIN L (Novo Nordisk), purified pork: LENTE ILETIN II (Eli Lilly), Isophane Insulin Suspension (NPH): beef and pork: NPH ILETIN I (Eli Lilly), Human, rDNA: HUMULIN N (Eli Lilly), Novolin N (Novo Nordisk), purified pork: Pork NPH Iletin II (Eli Lilly), NPH-N (Novo Nordisk); and long-acting forms such as Insulin zinc suspension, extended (ULTRALENTE, Eli Lilly), human, rDNA: HUMULIN U (Eli Lilly).
- “Hypoglycemic” agents are preferably oral hypoglycemic agents and include, without limitation, first-generation sulfonylureas: Acetohexamide (Dymelor), Chlorpropamide (Diabinese), Tolbutamide (Orinase); second-generation sulfonylureas: Glipizide (Glucotrol, Glucotrol XL), Glyburide (Diabeta; Micronase; Glynase), Glimepiride (Amaryl); Biguanides: Metformin (Glucophage); Alpha-glucosidase inhibitors: Acarbose (Precose), Miglitol (Glyset), Thiazolidinediones: Rosiglitazone (Avandia), Pioglitazone (Actos), Troglitazone (Rezulin); Meglitinides: Repaglinide (Prandin); and other hypoglycemics such as Acarbose; Buformin; Butoxamine Hydrochloride; Camiglibose; Ciglitazone; Englitazone Sodium; Darglitazone Sodium; Etoformin Hydrochloride; Gliamilide; Glibornuride; Glicetanile Gliclazide Sodium; Gliflumide; Glucagon; Glyhexamide; Glymidine Sodium; Glyoctamide; Glyparamide; Linogliride; Linogliride Fumarate; Methyl Palmoxirate; Palmoxirate Sodium; Pirogliride Tartrate; Proinsulin Human;; Seglitide Acetate; Tolazamide; Tolpyrramide; Zopolrestat.
- “Anti-inflammatory” agents include Alclofenac; Alclometasone Dipropionate; Algestone Acetonide; Alpha Amylase; Amcinafal; Amcinafide; Amfenac Sodium; Amiprilose Hydrochloride; Anakinra; Anirolac; Anitrazafen; Apazone; Balsalazide Disodium; Bendazac; Benoxaprofen; Benzydamine Hydrochloride; Bromelains; Broperamole; Budesonide; Carprofen; Cicloprofen; Cintazone; Cliprofen; Clobetasol Propionate; Clobetasone Butyrate; Clopirac; Cloticasone Propionate; Cormethasone Acetate; Cortodoxone; Deflazacort; Desonide; Desoximetasone; Dexamethasone Dipropionate; Diclofenac Potassium; Diclofenac Sodium; Diflorasone Diacetate; Diflumidone Sodium; Diflunisal; Difluprednate; Diftalone; Dimethyl Sulfoxide; Drocinonide; Endrysone; Enlimomab; Enolicam Sodium; Epirizole; Etodolac; Etofenamate; Felbinac; Fenamole; Fenbufen; Fenclofenac; Fenclorac; Fendosal; Fenpipalone; Fentiazac; Flazalone; Fluazacort; Flufenamic Acid; Flumizole; Flunisolide Acetate; Flunixin; Flunixin Meglumine; Fluocortin Butyl; Fluorometholone Acetate; Fluquazone; Flurbiprofen; Fluretofen; Fluticasone Propionate; Furaprofen; Furobufen; Halcinonide; Halobetasol Propionate; Halopredone Acetate; Ibufenac; Ibuprofen; Ibuprofen Aluminum; Ibuprofen Piconol; Ilonidap; Indomethacin; Indomethacin Sodium; Indoprofen; Indoxole; Intrazole; Isoflupredone Acetate; Isoxepac; Isoxicam; Ketoprofen; Lofemizole Hydrochloride; Lomoxicam; Loteprednol Etabonate; Meclofenamate Sodium; Meclofenamic Acid; Meclorisone Dibutyrate; Mefenamic Acid; Mesalamine; Meseclazone; Methylprednisolone Suleptanate; Morniflumate; Naburnetone; Naproxen; Naproxen Sodium; Naproxol; Nimazone; Olsalazine Sodium; Orgotein; Orpanoxin; Oxaprozin; Oxyphenbutazone; Paranyline Hydrochloride; Pentosan Polysulfate Sodium; Phenbutazone Sodium Glycerate; Pirfenidone; Piroxicam; Piroxicam Cinnamate; Piroxicam Olamine; Pirprofen; Prednazate; Prifelone; Prodolic Acid; Proquazone; Proxazole; Proxazole Citrate; Rimexolone; Romazarit; Salcolex; Salnacedin; Salsalate; Salycilates; Sanguinarium Chloride; Seclazone; Sermetacin; Sudoxicam; Sulindac; Suprofen; Talmetacin; Talniflumate; Talosalate; Tebufelone; Tenidap; Tenidap Sodium; Tenoxicam; Tesicam; Tesimide; Tetrydamine; Tiopinac; Tixocortol Pivalate; Tolmetin; Tolmetin Sodium; Triclonide; Triflumidate; Zidometacin; Glucocorticoids; Zomepirac Sodium. An important anti-inflammatory agent is aspirin.
- Preferred anti-inflammatory agents are cytokine inhibitors. Important cytokine inhibitors include cytokine antagonists (e.g., IL-6 receptor antagonists), aza-alkyl lysophospholipids (AALP), and Tumor Necrosis Factor-alpha (TNF-alpha) inhibitors, such as anti-TNF-alpha antibodies, soluble TNF receptor, TNF-alpha, anti-sense nucleic acid molecules, multivalent guanylhydrazone (CNI-1493), N-acetylcysteine, pentoxiphylline, oxpentifylline, carbocyclic nucleoside analogues, small molecule S9a, RP 55778 (a TNF-alpha synthesis inhibitor), Dexanabinol (HU-211, is a synthetic cannabinoid devoid of cannabimimetic effects, inhibits TNF-alpha production at a post-transcriptional stage), MDL 201,449A (9-[(1R, 3R)-trans-cyclopentan-3-ol]adenine, and trichodimerol (BMS-182123). Preferred TNF-alpha inhibitors are Etanercept (ENBREL, Immunex, Seattle) and Infliximab (REMICADE, Centocor, Malvern, Pa.).
- “Lipid reducing agents” include gemfibrozil, cholystyramine, colestipol, nicotinic acid, and HMG-CoA reductase inhibitors. HMG-CoA reductase inhibitors useful for administration, or co-administration with other agents according to the invention include, but are not limited to, simvastatin (U.S. Pat. No. 4,444,784), lovastatin (U.S. Pat. No. 4,231,938), pravastatin sodium (U.S. Pat. No. 4,346,227), fluvastatin (U.S. Pat. No. 4,739,073), atorvastatin (U.S. Pat. No. 5,273,995), cerivastatin, and numerous others described in U.S. Pat. No. 5,622,985, U.S. Pat. No. 5,135,935, U.S. Pat. No. 5,356,896, U.S. Pat. No. 4,920,109, U.S. Pat. No. 5,286,895, U.S. Pat. No. 5,262,435, U.S. Pat. No. 5,260,332, U.S. Pat. No. 5,317,031, U.S. Pat. No. 5,283,256, U.S. Pat. No. 5,256,689, U.S. Pat. No. 5,182,298, U.S. Pat. No. 5,369,125, U.S. Pat. No. 5,302,604, U.S. Pat. No. 5,166,171, U.S. Pat. No. 5,202,327, U.S. Pat. No. 5,276,021, U.S. Pat. No. 5,196,440, U.S. Pat. No. 5,091,386, U.S. Pat. No. 5,091,378, U.S. Pat. No. 4,904,646, U.S. Pat. No. 5,385,932, U.S. Pat. No. 5,250,435, U.S. Pat. No. 5,132,312, U.S. Pat. No. 5,130,306, U.S. Pat. No. 5,116,870, U.S. Pat. No. 5,112,857, U.S. Pat. No. 5,102,911, U.S. Pat. No. 5,098,931, U.S. Pat. No. 5,081,136, U.S. Pat. No. 5,025,000, U.S. Pat. No. 5,021,453, U.S. Pat. No. 5,017,716, U.S. Pat. No. 5,001,144, U.S. Pat. No. 5,001,128, U.S. Pat. No. 4,997,837, U.S. Pat. No. 4,996,234, U.S. Pat. No. 4,994,494, U.S. Pat. No. 4,992,429, U.S. Pat. No. 4,970,231, U.S. Pat. No. 4,968,693, U.S. Pat. No. 4,963,538, U.S. Pat. No. 4,957,940, U.S. Pat. No. 4,950,675, U.S. Pat. No. 4,946,864, U.S. Pat. No. 4,946,860, U.S. Pat. No. 4,940,800, U.S. Pat. No. 4,940,727, U.S. Pat. No. 4,939,143, U.S. Pat. No. 4,929,620, U.S. Pat. No. 4,923,861, U.S. Pat. No. 4,906,657, U.S. Pat. No. 4,906,624 and U.S. Pat. No. 4,897,402, the disclosures of which patents are incorporated herein by reference.
- Anti-thrombotic and/or fibrinolytic agents include Plasminogen (to plasmin via interactions of prekallikrein, kininogens, Factors XII, XIIIa, plasminogen proactivator, and tissue plasminogen activator[TPA]) Streptokinase; Urokinase: Anisoylated Plasminogen-Streptokinase Activator Complex; Pro-Urokinase; (Pro-UK); rTPA (alteplase or activase; r denotes recombinant), rPro-UK; Abbokinase; Eminase; Sreptase Anagrelide Hydrochloride; Bivalirudin; Dalteparin Sodium; Danaparoid Sodium; Dazoxiben Hydrochloride; Efegatran Sulfate; Enoxaparin Sodium; Ifetroban; Ifetroban Sodium; Tinzaparin Sodium; retaplase; Trifenagrel; Warfarin; Dextrans.
- Anti-platelet agents include Clopridogrel; Sulfinpyrazone; Aspirin; Dipyridamole; Clofibrate; Pyridinol Carbamate; PGE; Glucagon; Antiserotonin drugs; Caffeine; Theophyllin Pentoxifyllin; Ticlopidine; Anagrelide.
- Lipid reducing agents include gemfibrozil, cholystyramine, colestipol, nicotinic acid, probucol lovastatin, fluvastatin, simvastatin, atorvastatin, pravastatin, cirivastatin.
- Direct thrombin inhibitors include hirudin, hirugen, hirulog, agatroban, PPACK, thrombin aptamers.
- Glycoprotein IIb/IIIa receptor Inhibitors are both antibodies and non-antibodies, and include but are not limited to ReoPro (abcixamab), lamifiban, tirofiban. One preferred agent is aspirin.
- “Calcium channel blockers” are a chemically diverse class of compounds having important therapeutic value in the control of a variety of diseases including several cardiovascular disorders, such as hypertension, angina, and cardiac arrhythmias (Fleckenstein, Cir. Res. v. 52, (suppl. 1), p. 13-16 (1983); Fleckenstein, Experimental Facts and Therapeutic Prospects, John Wiley, New York (1983); McCall, D., Curr Pract Cardiol, v. 10, p. 1-11 (1985)). Calcium channel blockers are a heterogeneous group of drugs that belong to one of three major chemical groups of drugs, the dihydropyridines, such as nifedipine, the phenyl alkyl amines, such as verapamil, and the benzothiazepines, such as diltiazem. Other calcium channel blockers useful according to the invention, include, but are not limited to, amrinone, amlodipine, bencyclane, felodipine, fendiline, flunarizine, isradipine, nicardipine, nimodipine, perhexilene, gallopamil, tiapamil and tiapamil analogues (such as 1993RO-11-2933), phenytoin, barbiturates, and the peptides dynorphin, omega-conotoxin, and omega-agatoxin, and the like and/or pharmaceutically acceptable salts thereof.
- “Beta-adrenergic receptor blocking agents” are a class of drugs that antagonize the cardiovascular effects of catecholamines in angina pectoris, hypertension, and cardiac arrhythmias. Beta-adrenergic receptor blockers include, but are not limited to, atenolol, acebutolol, alprenolol, befunolol, betaxolol, bunitrolol, carteolol, celiprolol, hedroxalol, indenolol, labetalol, levobunolol, mepindolol, methypranol, metindol, metoprolol, metrizoranolol, oxprenolol, pindolol, propranolol, practolol, practolol, sotalolnadolol, tiprenolol, tomalolol, timolol, bupranolol, penbutolol, trimepranol, 2-(3-(1,1-dimethylethyl)-amino-2-hyd-roxypropoxy)-3-pyridenecarbonitrilHCl, 1-butylamino-3-(2,5-dichlorophenoxy-)-2-propanol, 1-isopropylamino-3-(4-(2-cyclopropylmethoxyethyl)phenoxy)-2-propanol, 3-isopropylamino-1-(7-methylindan-4-yloxy)-2-butanol, 2-(3-t-butylamino-2-hydroxy-propylthio)-4-(5-carbamoyl-2-thienyl)thiazol, 7-(2-hydroxy-3-t-butylaminpropoxy)phthalide. The above-identified compounds can be used as isomeric mixtures, or in their respective levorotating or dextrorotating form.
- A number of selective “COX-2 inhibitors” are known in the art and include, but are not limited to, COX-2 inhibitors described in U.S. Pat. No. 5,474,995 “Phenyl heterocycles as cox-2 inhibitors”; U.S. Pat. No. 5,521,213 “Diaryl bicyclic heterocycles as inhibitors of cyclooxygenase-2”; U.S. Pat. No. 5,536,752 “Phenyl heterocycles as COX-2 inhibitors”; U.S. Pat. No. 5,550,142 “Phenyl heterocycles as COX-2 inhibitors”; U.S. Pat. No. 5,552,422 “Aryl substituted 5,5 fused aromatic nitrogen compounds as anti-inflammatory agents”; U.S. Pat. No. 5,604,253 “N-benzylindol-3-yl propanoic acid derivatives as cyclooxygenase inhibitors”; U.S. Pat. No. 5,604,260 “5-methanesulfonamido-1-indanones as an inhibitor of cyclooxygenase-2”; U.S. Pat. No. 5,639,780 “N-benzyl indol-3-yl butanoic acid derivatives as cyclooxygenase inhibitors”; U.S. Pat. No. 5,677,318 “Diphenyl-1,2-3-thiadiazoles as anti-inflammatory agents”; U.S. Pat. No. 5,691,374 “Diaryl-5-oxygenated-2-(5H)-furanones as COX-2 inhibitors”; U.S. Pat. No. 5,698,584 “3,4-diaryl-2-hydroxy-2,5-dihy-drofurans as prodrugs to COX-2 inhibitors”; U.S. Pat. No. 5,710,140 “Phenyl heterocycles as COX-2 inhibitors”; U.S. Pat. No. 5,733,909 “Diphenyl stilbenes as prodrugs to COX-2 inhibitors”; U.S. Pat. No. 5,789,413 “Alkylated styrenes as prodrugs to COX-2 inhibitors”; U.S. Pat. No. 5,817,700 “Bisaryl cyclobutenes derivatives as cyclooxygenase inhibitors”; U.S. Pat. No. 5,849,943 “Stilbene derivatives useful as cyclooxygenase-2 inhibitors”; U.S. Pat. No. 5,861,419 “Substituted pyridines as selective cyclooxygenase-2 inhibitors”; U.S. Pat. No. 5,922,742 “Pyridinyl-2-cyclopenten-1-ones as selective cyclooxygenase-2 inhibitors”; U.S. Pat. No. 5,925,631 “Alkylated styrenes as prodrugs to COX-2 inhibitors”; all of which are commonly assigned to Merck Frosst Canada, Inc. (Kirkland, Calif.). Additional COX-2 inhibitors are also described in U.S. Pat. No. 5,643,933, assigned to G. D. Searle & Co. (Skokie, Ill.), entitled: “Substituted sulfonylphenyl-heterocycles as cyclooxygenase-2 and 5-lipoxygenase inhibitors.”
- A number of the above-identified COX-2 inhibitors are prodrugs of selective COX-2 inhibitors, and exert their action by conversion in vivo to the active and selective COX-2 inhibitors. The active and selective COX-2 inhibitors formed from the above-identified COX-2 inhibitor prodrugs are described in detail in WO 95/00501, published Jan. 5, 1995, WO 95/18799, published Jul. 13, 1995 and U.S. Pat. No. 5,474,995, issued Dec. 12, 1995. Given the teachings of U.S. Pat. No. 5,543,297, entitled: “Human cyclooxygenase-2 cDNA and assays for evaluating cyclooxygenase-2 activity,” a person of ordinary skill in the art would be able to determine whether an agent is a selective COX-2 inhibitor or a precursor of a COX-2 inhibitor, and therefore part of the present invention.
- “Angiotensin II antagonists” are compounds which interfere with the activity of angiotensin II by binding to angiotensin II receptors and interfering with its activity. Angiotensin II antagonists are well known and include peptide compounds and non-peptide compounds. Most angiotensin II antagonists are slightly modified congeners in which agonist activity is attenuated by replacement of phenylalanine in
position 8 with some other amino acid; stability can be enhanced by other replacements that slow degeneration in vivo. Examples of angiotensin II antagonists include: peptidic compounds (e.g., saralasin, [(San1)(Val5)(Ala8)]angiotensin-(1-8) octapeptide and related analogs); N-substituted imidazole-2-one (U.S. Pat. No. 5,087,634); imidazole acetate derivatives including 2-N-butyl-4-chloro-1-(2-chlorobenzile) imidazole-5-acetic acid (see Long et al., J. Pharmacol. Exp. Ther. 247(1), 1-7 (1988)); 4,5,6,7-tetrahydro-1H-imidazo [4,5-c] pyridine-6-carboxylic acid and analog derivatives (U.S. Pat. No. 4,816,463); N2-tetrazole beta-glucuronide analogs (U.S. Pat. No. 5,085,992); substituted pyrroles, pyrazoles, and tryazoles (U.S. Pat. No. 5,081,127); phenol and heterocyclic derivatives such as 1,3-imidazoles (U.S. Pat. No. 5,073,566); imidazo-fused 7-member ring heterocycles (U.S. Pat. No. 5,064,825); peptides (e.g., U.S. Pat. No. 4,772,684); antibodies to angiotensin II (e.g., U.S. Pat. No. 4,302,386); and aralkyl imidazole compounds such as biphenyl-methyl substituted imidazoles (e.g., EP Number 253,310, Jan. 20, 1988); ES8891 (N-morpholinoacetyl-(-1-naphthyl)-L-alany-1-(4, thiazolyl)-L-alanyl (35,45)-4-amino-3-hydroxy-5-cyclo-hexapentanoyl-N-hexylamide, Sankyo Company, Ltd., Tokyo, Japan); SKF108566 (E-alpha-2-[2-butyl-1-(carboxy phenyl)methyl]1H-imidazole-5-yl[methylan-e]-2-thiophenepropanoic acid, Smith Kline Beecham Pharmaceuticals, Pa.); Losartan (DUP753/MK954, DuPont Merck Pharmaceutical Company); Remikirin (RO42-5892, F. Hoffman LaRoche AG); A.sub.2 agonists (Marion Merrill Dow) and certain non-peptide heterocycles (G. D. Searle and Company). - “Angiotensin converting enzyme (ACE) inhibitors” include amino acids and derivatives thereof, peptides, including di- and tri-peptides and antibodies to ACE which intervene in the renin-angiotensin system by inhibiting the activity of ACE thereby reducing or eliminating the formation of pressor substance angiotensin II. ACE inhibitors have been used medically to treat hypertension, congestive heart failure, myocardial infarction and renal disease. Classes of compounds known to be useful as ACE inhibitors include acylmercapto and mercaptoalkanoyl prolines such as captopril (U.S. Pat. No. 4,105,776) and zofenopril (U.S. Pat. No. 4,316,906), carboxyalkyl dipeptides such as enalapril (U.S. Pat. No. 4,374,829), lisinopril (U.S. Pat. No. 4,374,829), quinapril (U.S. Pat. No. 4,344,949), ramipril (U.S. Pat. No. 4,587,258), and perindopril (U.S. Pat. No. 4,508,729), carboxyalkyl dipeptide mimics such as cilazapril (U.S. Pat. No. 4,512,924) and benazapril (U.S. Pat. No. 4,410,520), phosphinylalkanoyl prolines such as fosinopril (U.S. Pat. No. 4,337,201) and trandolopril.
- “Renin inhibitors” are compounds which interfere with the activity of renin. Renin inhibitors include amino acids and derivatives thereof, peptides and derivatives thereof, and antibodies to renin. Examples of renin inhibitors that are the subject of United States patents are as follows: urea derivatives of peptides (U.S. Pat. No. 5,116,835); amino acids connected by nonpeptide bonds (U.S. Pat. No. 5,114,937); di- and tri-peptide derivatives (U.S. Pat. No. 5,106,835); amino acids and derivatives thereof (U.S. Pat. Nos. 5,104,869 and 5,095,119); diol sulfonamides and sulfinyls (U.S. Pat. No. 5,098,924); modified peptides (U.S. Pat. No. 5,095,006); peptidyl beta-aminoacyl aminodiol carbamates (U.S. Pat. No. 5,089,471); pyrolimidazolones (U.S. Pat. No. 5,075,451); fluorine and chlorine statine or statone containing peptides (U.S. Pat. No. 5,066,643); peptidyl amino diols (U.S. Pat. Nos. 5,063,208 and 4,845,079); N-morpholino derivatives (U.S. Pat. No. 5,055,466); pepstatin derivatives (U.S. Pat. No. 4,980,283); N-heterocyclic alcohols (U.S. Pat. No. 4,885,292); monoclonal antibodies to renin (U.S. Pat. No. 4,780,401); and a variety of other peptides and analogs thereof (U.S. Pat. Nos. 5,071,837, 5,064,965, 5,063,207, 5,036,054, 5,036,053, 5,034,512, and 4,894,437).
- Anti-platelet” agents include but are not limited to, Clopridogrel; Sulfinpyrazone; Aspirin; Dipyridamole; Clofibrate; Pyridinol Carbamate; PGE; Glucagon; Antiserotonin drugs; Caffeine; Theophyllin Pentoxifyllin; Ticlopidine; Anagrelide.
- Other arteriovascular disease-modulating drugs include, but are not limited to, lipase inhibitors such as cetilistat (ATL-962); synthetic amylin analogs such as Symlin pramlintide with or without recombinant leptin; sodium-glucose cotransporter 2 (SGLT2) inhibitors like sergliflozin (869682; KGT-1251), YM543, dapagliflozin, GlaxoSmithKline molecule 189075, and Sanofi-Aventis molecule AVE2268; dual adipose triglyceride lipase and PI3 kinase activators like Adyvia (ID 1101); antagonists of neuropeptide Y2, Y4, and Y5 receptors like Nastech molecule PYY3-36, synthetic analog of human hormones PYY3-36 and pancreatic polypeptide (7TM molecule TM30338); Shionogi molecule S-2367; cannabinoid CB1 receptor antagonists such as rimonabant (Acomplia), taranabant, CP-945,598, Solvay molecule SLV319, Vernalis molecule V24343; hormones like oleoyl-estrone; inhibitors of serotonin, dopamine, and norepinephrine (also known in the art as “triple monoamine reuptake inhibitors”) like tesofensine (Neurosearch molecule NS2330); inhibitors of norepinephrine and dopamine reuptake, like Contrave (bupropion plus opioid antagonist naltrexone) and Excalia (bupropion plus anticonvulsant zonisaminde); inhibitors of 11β-hydroxysteroid dehydrogenase type 1 (11b-HSD1) like Incyte molecule INCB13739; inhibitors of cortisol synthesis such as ketoconazole (DiObex molecule DIO-902); inhibitors of gluconeogenesis such as Metabasis/Daiichi molecule CS-917; glucokinase activators like Roche molecule R1440; antisense inhibitors of protein tyrosine phosphatase-1B such as ISIS 113715; as well as other agents like NicOx molecule NCX 4016; injections of gastrin and epidermal growth factor (EGF) analogs such as Islet Neogenesis Therapy (E1-I.N.T.); and betahistine (Obecure molecule OBEIOI).
- A subject cell (i.e., a cell isolated from a subject) can be incubated in the presence of a candidate agent and the pattern of ARTERIORISKMARKER expression in the test sample is measured and compared to a reference profile, e.g., an arteriovascular disease reference expression profile or a non-arteriovascular disease reference expression profile or an index value or baseline value. The test agent can be any compound or composition or combination thereof, including, dietary supplements. For example, the test agents are agents frequently used in arteriovascular treatment regimens and are described herein.
- The aforementioned methods of the invention can be used to evaluate or monitor the progression and/or improvement of subjects who have been diagnosed with an arteriovascular disease, and who have undergone surgical interventions for these diseases, such as, for example, angioplasty, arteriovascular grafting of stents, including self-expanding stents and drug-eluting stents comprising for example paclitaxel, atherectomy, coronary artery bypass, aortic and mitral valve replacement, heart transplantation, ventricular remodeling, transmyocardial laser therapy, aneurysm repair, aortic dissection, pacemaker devices, and Maze procedure.
- Additionally, any of the aforementioned methods can be used separately or in combination to assess if a subject has shown an “improvement in arteriovascular disease risk factors” or moved within the risk spectrum of subjects at risk for having an arteriovascular event. Such improvements include, without limitation, a reduction in body mass index, a reduction in blood glucose levels, an increase in HDL levels, a decrease in LDL or total cholesterol levels, a reduction in systolic and/or diastolic blood pressure, an increase in insulin levels, or combinations thereof.
- A subject suffering from or at risk of developing arteriovascular disease or an arteriovascular event may also be suffering from or at risk of developing
Type 2 Diabetes, hypertension, or obesity.Type 2 Diabetes in particular and arteriovascular disease have many risk factors in common, and many of these risk factors are highly correlated with one another. The relationship samong these risk factors may be attributable to a small number of physiological phenomena, perhaps even a single phenomenon. Subjects suffering from or at risk of developing Diabetes, arteriovascular disease, hypertension or obesity are identified by methods known in the art. - Because of the interrelationship between Diabetes and arteriovascular disease, some or all of the individual ARTERIORISKMARKERS and ARTERIORISKMARKER panels of the present invention may overlap or be encompassed by biomarkers of
Type 2 Diabetes, Pre-Diabetes, or pre-diabetic conditions, and indeed may be useful in the diagnosis of the risk of Diabetes, Pre-Diabetes, or pre-diabetic conditions. - The performance and thus absolute and relative clinical usefulness of the invention may be assessed in multiple ways as noted above. Amongst the various assessments of performance, the invention is intended to provide accuracy in clinical diagnosis and prognosis. The accuracy of a diagnostic or prognostic test, assay, or method concerns the ability of the test, assay, or method to distinguish between subjects having arteriovascular disease, or at risk for arteriovascular disease or an arteriovascular event, is based on whether the subjects have an “effective amount” or a “significant alteration” in the levels of a ARTERIORISKMARKER. By “effective amount” or “significant alteration,” it is meant that the measurement of an appropriate number of ARTERIORISKMARKERS (which may be one or more) is different than the predetermined cut-off point (or threshold value) for that ARTERIORISKMARKER(S) and therefore indicates that the subject has arteriovascular disease or is at risk for having an arteriovascular event for which the ARTERIORISKMARKER(S) is a determinant. The difference in the level of ARTERIORISKMARKER between normal and abnormal is preferably statistically significant. As noted below, and without any limitation of the invention, achieving statistical significance, and thus the preferred analytical and clinical accuracy, generally but not always requires that combinations of several ARTERIORISKMARKERS be used together in panels and combined with mathematical algorithms in order to achieve a statistically significant ARTERIORISKMARKER index.
- In the categorical diagnosis of a disease state, changing the cut point or threshold value of a test (or assay) usually changes the sensitivity and specificity, but in a qualitatively inverse relationship. Therefore, in assessing the accuracy and usefulness of a proposed medical test, assay, or method for assessing a subject's condition, one should always take both sensitivity and specificity into account and be mindful of what the cut point is at which the sensitivity and specificity are being reported because sensitivity and specificity may vary significantly over the range of cut points. Use of statistics such as AUC, encompassing all potential cut point values, is preferred for most categorical risk measures using the invention, while for continuous risk measures, statistics of goodness-of-fit and calibration to observed results or other gold standards, are preferred.
- Using such statistics, an “acceptable degree of diagnostic accuracy”, is herein defined as a test or assay (such as the test of the invention for determining the clinically significant presence of ARTERIORISKMARKERS, which thereby indicates the presence of arteriovascular disease and/or a risk of having an arteriovascular event) in which the AUC (area under the ROC curve for the test or assay) is at least 0.60, desirably at least 0.65, more desirably at least 0.70, preferably at least 0.75, more preferably at least 0.80, and most preferably at least 0.85.
- By a “very high degree of diagnostic accuracy”, it is meant a test or assay in which the AUC (area under the ROC curve for the test or assay) is at least 0.80, desirably at least 0.85, more desirably at least 0.875, preferably at least 0.90, more preferably at least 0.925, and most preferably at least 0.95.
- The predictive value of any test depends on the sensitivity and specificity of the test, and on the prevalence of the condition in the population being tested. This notion, based on Bayes' theorem, provides that the greater the likelihood that the condition being screened for is present in an individual or in the population (pre-test probability), the greater the validity of a positive test and the greater the likelihood that the result is a true positive. Thus, the problem with using a test in any population where there is a low likeihood of the condition being present is that a positive result has limited value (i.e., more likely to be a false positive). Similarly, in populations at very high risk, a negative test result is more likely to be a false negative.
- As a result, ROC and AUC can be misleading as to the clinical utility of a test in low disease prevalence tested populations (defined as those with less than 1% rate of occurrences (incidence) per annum, or less than 10% cumulative prevalence over a specified time horizon). Alternatively, absolute risk and relative risk ratios as defined elsewhere in this disclosure can be employed to determine the degree of clinical utility. Populations of subjects to be tested can also be categorized into quartiles by the test's measurement values, where the top quartile (25% of the population) comprises the group of subjects with the highest relative risk for developing arteriovascular disease or an arteriovascular event, and the bottom quartile comprising the group of subjects having the lowest relative risk for developing arteriovascular disease or an arteriovascular event. Generally, values derived from tests or assays having over 2.5 times the relative risk from top to bottom quartile in a low prevalence population are considered to have a “high degree of diagnostic accuracy,” and those with five to seven times the relative risk for each quartile are considered to have a “very high degree of diagnostic accuracy.” Nonetheless, values derived from tests or assays having only 1.2 to 2.5 times the relative risk for each quartile remain clinically useful are widely used as risk factors for a disease; such is the case with total cholesterol and for many inflammatory biomarkers with respect to their prediction of future arteriovascular events. Often such lower diagnostic accuracy tests must be combined with additional parameters in order to derive meaningful clinical thresholds for therapeutic intervention, as is done with the aforementioned global risk assessment indices.
- A health economic utility function is an yet another means of measuring the performance and clinical value of a given test, consisting of weighting the potential categorical test outcomes based on actual measures of clinical and economic value for each. Health economic performance is closely related to accuracy, as a health economic utility function specifically assigns an economic value for the benefits of correct classification and the costs of misclassification of tested subjects. As a performance measure, it is not unusual to require a test to achieve a level of performance which results in an increase in health economic value per test (prior to testing costs) in excess of the target price of the test.
- In general, alternative methods of determining diagnostic accuracy are commonly used for continuous measures, when a disease category or risk category (such as those ati risk for having an arteriovascular event) has not yet been clearly defined by the relevant medical societies and practice of medicine, where thresholds for therapeutic use are not yet established, or where there is no existing gold standard for diagnosis of the pre-disease. For continuous measures of risk, measures of diagnostic accuracy for a calculated index are typically based on curve fit and calibration between the predicted continuous value and the actual observed values (or a historical index calculated value) and utilize measures such as R squared, Hosmer- Lemeshow P-value statistics and confidence intervals. It is not unusual for predicted values using such algorithms to be reported including a confidence interval (usually 90% or 95% CI) based on a historical observed cohort's predictions, as in the test for risk of future breast cancer recurrence commercialized by Genomic Health, Inc. (Redwood City, Calif.).
- In general, by defining the degree of diagnostic accuracy, i.e., cut points on a ROC curve, defining an acceptable AUC value, and determining the acceptable ranges in relative concentration of what constitutes an effective amount of the ARTERIORISKMARKERS of the invention allows for one of skill in the art to use the ARTERIORISKMARKERS to identify, diagnose, or prognose subjects with a pre-determined level of predictability and performance.
- Only a minority of individual ARTERIORISKMARKERS achieve an acceptable degree of prognostic accuracy for future arteriovascular events. A representative list of 61 ARTERIORISKMARKERS, chosen as high priority based on the quality of the published scientific literature associating them with arteriovascular disease, was tested in the study design of Example I below. An exhaustive enumerative analysis of all potential single biomarker, two biomarker, and three biomarker and four biomarker panel combinations of this 61 ARTERIORISKMARKERS was used to derive individual best fit LDA models to predict risk of conversion to arteriovascular events in the Example 1 populations (see
FIG. 12 and Table 1 below). A fitted LDA model was developed for every possible ARTERIORISKMARKER combination of a given panel size and then analyzed for its AUC statistic. - It is immediately apparent from the table below that there was a very low likelihood of finding individual prognostic biomarkers with an acceptable diagnostic accuracy, even from such an enriched population of ARTERIORISKMARKERS as those cited in literature with evidence of an association with frank arteriovascular disease.
TABLE 1 Exhaustive Enumeration of All Single, Two, Three and Four Marker Combination of ARTERIORISKMARKERS and Their Best Fit LDA Model AUC Statistics Single Markers 2 Marker Panels 3 Marker Panels 4 Marker Panels Total Possible 61 100.00% 1,830 100.00% 35,990 100.00% 521,855 100.00% Panels All Panels with AUC Equal or Greater % of % of % of % of Than: Count Total Count Total Count Total Count Total 0.05 61 100.00% 1,830 100.00% 35,990 100.00% 521,855 100.00% 0.10 61 100.00% 1,830 100.00% 35,990 100.00% 521,855 100.00% 0.15 61 100.00% 1,830 100.00% 35,990 100.00% 521,855 100.00% 0.20 61 100.00% 1,830 100.00% 35,990 100.00% 521,855 100.00% 0.25 61 100.00% 1,830 100.00% 35,990 100.00% 521,855 100.00% 0.30 61 100.00% 1,830 100.00% 35,990 100.00% 521,855 100.00% 0.35 61 100.00% 1,830 100.00% 35,990 100.00% 521,855 100.00% 0.40 61 100.00% 1,830 100.00% 35,990 100.00% 521,855 100.00% 0.45 60 98.36% 1,829 99.95% 35,988 99.99% 521,855 100.00% 0.50 51 83.61% 1,760 96.17% 35,740 99.31% 521,104 99.86% 0.55 25 40.98% 1,244 67.98% 30,169 83.83% 481,357 92.24% 0.60 10 16.39% 672 36.72% 19,747 54.87% 363,849 69.72% 0.65 2 3.28% 200 10.93% 7,970 22.15% 184,389 35.33% 0.70 1 1.64% 69 3.77% 2,573 7.15% 62,489 11.97% 0.75 — 0.00% 2 0.11% 198 0.55% 8,153 1.56% 0.80 — 0.00% — 0.00% — 0.00% 29 0.01% 0.85 — 0.00% — 0.00% — 0.00% — 0.00% 0.90 — 0.00% — 0.00% — 0.00% — 0.00% 0.95 — 0.00% — 0.00% — 0.00% — 0.00% 1.00 — 0.00% — 0.00% — 0.00% — 0.00% - As shown in
FIG. 12 , none of the individual ARTERIORISKMARKERS, out of the total 61 ARTERIORISKMARKERS tested in Example 1, achieved an AUC of 0.75 for the prediction of arteriovascular events even using a best fit univariate LDA model. The individual ARTERIORISKMARKER parameters tested included many of the traditional laboratory risk factors and clinical parameters commonly used in global risk assessment and indices for arteriovascular disease. Taken alone in a univariate best fit LDA model, only ten of the 61 selected ARTERIORISKMARKERS achieved an acceptable AUC of 0.6 or better; this was less than one in five markers. Many of the ARTERIORISKMARKERS most useful in constructing panels of multiple ARTERIORISKMARKERS were not in this group. - This analysis indicates that documented evidence of associations with arteriovascular disease, as was found in the published literature for each of the ARTERIORISKMARKERS, does not necessarily grant a biomarker prognostic utility for future arteriovascular events. In fact, only two ARTERIORISKMARKERS, Age and POMC, achieved an AUC of even 0.65 in a univariate best fit LDA model, representing less than one in twenty of the total ARTERIORISKMARKERS tested in this relatively enriched literature selected grouping of ARTERISKMARKERS. Despite this lack of a very high level of diagnostic accuracy in any single ARTERIORISKMARKER, Age remains the most dominant factor in global risk assessment algorithms for predicting the risk of arteriovascular disease or of arteriovascular events (such as in the Framingham Risk Score), and furthermore remains the primary identification method and definition of appropriate categories of subjects for the testing and diagnosis of asymptomatic arteriovascular disease.
- Even larger combinations utilizing multiple biomarkers infrequently achieve high model accuracy. A minimum combination of two or more biomarkers (as taught in the invention herein) was required to achieve a level of accuracy defined by an AUC of 0.75 or above within the Example 1 data set. Across all 1,830 unique possible combinations, only two combinations of two ARTERIORISKMARKERS yielded bivariate best fit LDA models which met this hurdle. Such two ARTERIORISKMARKER combinations occurred at an approximate rate of approximately one in a thousand potential combinations. In contrast, two hundred unique bivariate ARTERIORISKMARKER combinations met a model accuracy hurdle of an AUC of 0.65 in the same data set. Each of these is disclosed in
FIG. 13 , including 69 two ARTERIORISKMARKER, combinations which met an AUC hurdle of 0.70. Combinations of two ARTERIORISKMARKERS making this higher hurdle occurred again in less than one in twenty of the potential combinations. All of these two ARTERIORISKMARKER combinations with an AUC of 0.70 or better contained either Age or POMC as one of the two included ARTERIORISKMARKERS. - After panel size was increased above bivariate ARTERIORISKMARKERS combination panels, additional other biomarkers also became participants in the higher performing trivariate combinations of three ARTERIORISKMARKERS. Many of these combinations yielded acceptable LDA model performance, equal to or above an AUC of 0.60, both with and without the inclusion of either Age or POMC within the panel. In fact, certain combinations of three or more ARTERIORISKMARKERS were found to exhibit superior performance of an AUC of 0.70 or better, and are listed in
FIG. 14 , which presents 2,573 unique three ARTERIORISKMARKER combinations. These include many without the inclusion of either Age or POMC. The total three ARTERIORISKMARKER combinations at this level of performance occurred in just over seven percent of the total group of 35,990 unique combinations. Furthermore, included in the 2,573 are 198 three ARTERIORISKMARKER combinations which made an AUC of 0.75 or better. This represents less than one in one hundred of the total possible unique combinations of three or more ARTERIORISKMARKERS. - At combinations comprising four ARTERIORISKMARKERS, the total unique combinations represent 521,855 unique panels. Achieving an AUC of at least 0.75 were 8,153, a less than one in fifty success rate; each of these four ARTERIORISKMARKER combinations are enumerated in
FIG. 15 . A very high level of diagnostic accuracy, representing an AUC of 0.8 was finally achieved in 29 of the panels listed therein. This represents less than one per ten thousand of the total possible unique combinations of four or more ARTERIORISKMARKERS. - Notably, the preceding analysis of summarized in
FIGS. 12 through 15 also demonstrated that no single biomarker was required to practice the invention at an acceptable level of diagnostic accuracy, although several individually identified biomarkers are parts of the most preferred embodiments as disclosed below. It is a feature of the invention that diagnostic or prognostic information lost due to removing one ARTERIORISKMARKER can often be replaced through substitution with one or more other ARTERIORISKMARKERS, and generically by increasing the panel size, subject to the need to increase the study size in order for studies examining very large models encompassing many ARTERIORISKMARKERS to remain statistically significant. It is also a feature of the invention that overall performance and accuracy can often be improved by adding additional biomarkers (e.g., ARTERIORISKMARKERS, traditional laboratory risk factors, and clinical parameters) as additional inputs to a formula or model, as demonstrated above in the relative performance of univariate, bivariate, and trivariate models, and below in the performance of larger models. - The ultimate determinant and gold standard of true risk of arteriovascular events is actual conversions within a sufficiently large study population and observed over the length of time claimed, as was done in the Examples contained herein. However, this is problematic, as it is necessarily a retrospective point of view for the individual patient. As a result, subjects suffering from or at risk of developing arteriovascular disease or an arteriovascular event are commonly diagnosed or identified by methods known in the art, generally using either traditional laboratory risk factors or other non-analyte clinical parameters, and future risk is estimated based on historical experience and registry studies. Such methods include, but are not limited to, measurement of systolic and diastolic blood pressure, in vitro determination of total cholesterol, LDL, HDL, and glucose levels from blood samples, stress tests, ankle-brachial indices (ABI) which is the ratio of systolic blood pressure in the ankle arteries to the systolic blood pressure in the brachial arteries, measurement of human serum C-reactive protein (hsCRP), subfractions of LDL, electrocardiogram (ECG), imaging modalities such as computed tomography (CT), optical coherence tomography (OCT), intravascular ultrasonography (IVUS), carotid B-mode ultrasound, high-resolution IVUS, elastography (palpography), angioscopy, electron beam computed tomography (EBCT), magnetic resonance imaging (MRI) such as contrast-enhanced MRI with superparamagnetic iron oxide and gadolinium fluorine compounds, positron emission tomography (PET) such as fluorodeoxyglucose PET, single photon emission computed tomography (SPECT), immunoscintigraphy, and invasive angiography.
- For example, subjects considered at lower risk for developing an arteriovascular disease or experiencing an arteriovascular event include, but are not limited to, the following favorable traditional risk factor traits: serum cholesterol less than 200 mg/dl, systolic blood pressure less than or equal to 120 mm Hg, diastolic blood pressure less than or equal to 80 mm Hg, non-current smoker, no history of diagnosed diabetes, normal insulin sensitivity and secretion, no previously diagnosed CAD, PAD, CVD or hypertension, and no base-line electrocardiogram (ECG) abnormalities. A subject's risk may be assessed by assessing either such single characteristics or by assessing an individual's “index score” constructed mathematically of such single measurement characteristics with reference to predicted risk from a longitudinal study series, as in the Framingham index and NCEP ATP III guidelines. However, even subjects who are asymptomatic and/or subject who do not exhibit any of the aforementioned risk factors, or with low predicted risk, for arteriovascular disease may be at risk for an arteriovascular event. Therefore, the ARTERIORISKMARKERS and methods of use disclosed herein provide for identification and diagnosis of arteriovascular disease or risk of arteriovascular events in such asymptomatic subjects, and to further and more accurately risk stratify both higher and lower risk subjects beyond their predicted risk as assessed by the presence or absence of arteriovascular disease symptoms, traditional risk factors, indices, and guidelines.
- Subjects considered at high risk may exhibit baseline ECG abnormalities. Normal heart rate observable by ECG is usually between 60 and 100 beats per minute and the rhythm appears regular. P waves, QRS complexes, T waves appear normal. ST segments are not elevated above or depressed below the baseline of the ECG tracing. The P wave is a record of the movement of electrical activity through the upper heart chambers (atria). The QRS complex is a record of the movement of electrical impulses through the lower heart chambers (ventricles). The ST segment usually appears as a straight, level line between the QRS complex and the T wave. Elevated or lowered ST segments may mean the heart muscle is damaged or not receiving enough blood. The T wave corresponds to the period when the lower heart chambers are relaxing electrically and preparing for their next muscle contraction. However, normal-appearing ECG can occur even in the presence of heart disease.
- Abnormalities observed by ECG include heart rhythm. There are many different kinds of irregular heartbeats (arrhythmias). A heart rate less than 60 beats per minutes is called a “bradycardia”. A heart rate greater than 100 beats per minutes is called a “tachycardia”. Examples of tachycardias may include a fast, irregular heart rhythm that originates in the ventricle (ventricular fibrillation) or a fast, regular heart rhythm that begins in the atrium (atrial flutter). Abnormal conduction of the electrical impulse in the heart can also be seen in other types of arrhythmias.
- If the coronary arteries supplying blood to the heart muscle are blocked, the muscle may receive less oxygen and may begin to die (ischemia or heart attack). This damage to the heart muscle may show up on the electrocardiogram. Early ECG signs of poor blood flow to the heart may include lowered (depressed) ST segments. Early ECG signs of heart attack often include raised (elevated) ST segments. Later, as the heart attack persists, Q waves on the ECG may appear and become deeper.
- Certain changes in the ECG may suggest thickening of the muscle walls of one or more heart chambers. Conditions that may cause hypertrophy of one or more heart chambers include high blood pressure, coronary artery disease, heart failure, cardiomyopathy, or heart valve disease. Elevated ST segments on the ECG may indicate an inflammation of the heart muscle (myocarditis) or the sac that surrounds the heart (pericarditis). Proper contraction of the heart depends upon normal levels of electrolytes in the blood, such as calcium and potassium. Too much or too little of these electrolytes results in certain rhythm abnormalities, such as abnormal changes in the P wave, QRS complex, or T wave that can be seen on an electrocardiogram. Certain medications for the heart and other conditions can result in ECG changes.
- Subjects at increased risk for developing an arteriovascular disease, and for experiencing arteriorvascular events, can include, without limitation, BMI over 25 (BMI between 25-29 are considered “overweight”, while BMI of 30 or above is considered “obese”), waist circumference of 40 inches or larger in men or 35 inches or larger in women; current smoking of at least 5 cigarettes per day on average, systolic blood pressure of greater than or equal to 140 mm Hg, diastolic blood pressure of greater than or equal to 90 mm Hg, fasting hyperglycemia, e.g., glucose levels of greater than or equal to 126 mg/dl (wherein subjects who exhibit these glucose levels are considered to be diabetic), and impaired fasting glucose (glucose greater than or equal to 100 mg/dl but below 126 mg/dl).
- As noted above, risk prediction for arteriovascular disease or an arteriovascular event can also encompass risk prediction algorithms and computed indices that assess and estimate a subject's absolute risk for developing arteriovascular disease or an arteriovascular event with reference to a historical cohort. Risk assessment using such predictive mathematical algorithms and computed indices has increasingly been incorporated into guidelines for diagnostic testing and treatment, and encompass indices obtained from and validated with, inter alia, stratified samples from a representative population.
- As previously mentioned, despite the numerous studies and algorithms that have been used to assess the risk of arteriovascular disease, the evidence-based, multiple risk factor assessment approach is only moderately accurate for the prediction of short- and long-term risk of manifesting an arteriovascular event, particularly sudden death, in asymptomatic or otherwise healthy subjects. Such risk prediction algorithms can be advatageously used with the ARTERIORISKMARKERS of the present invention to distinguish between subjects in a population of interest to determine the risk stratification of developing arteriovascular disease or an arteriovascular event. The ARTERIORISKMARKERS and methods of use disclosed herein provide tools that can be used in combination with such risk prediction algorithms to assess, identify, or diagnose subjects who are asymptomatic and do not exhibit the traditional risk factors.
- The data derived from risk factors, risk prediction algorithms, and from the methods of the present invention can be combined and compared by known statistical techniques in order to compare the relative performance of the invention to the other techniques.
- Furthermore, the application of such techniques to panels of multiple ARTERIORISKMARKERS is encompassed by or within the ambit of the present invention, as is the use of such combinations and formulae to create single numerical “risk indices” or “risk scores” encompassing information from multiple ARTERIORISKMARKER inputs.
- The biomarkers and methods of the present invention allow one of skill in the art to identify, diagnose, or otherwise assess those subjects who do not exhibit any symptoms of arteriovascular disease or an arteriovascular event, but who nonetheless may be at risk for developing arteriovascular disease or an arteriovascular event, or experiencing symptoms characteristic of arteriovascular disease or an arteriovascular event.
- One thousand and twenty-three analyte-based biomarkers have been identified as being found to have altered or modified presence or concentration levels in subjects who have arteriovascular disease, or who exhibit symptoms characteristic of arteriovascular disease or an arteriovascular event.
- Table 2 comprises the one thousand and twenty-three analyte-based ARTERIORISKMARKERS of the present invention, where the ARTERIORISKMARKER can be assigned to a single gene or gene product, and specifically excluding. One skilled in the art will recognize that the ARTERIORISKMARKERS presented herein encompasses all forms and variants, including but not limited to, polymorphisms, isoforms, mutants, derivatives, precursors including nucleic acids and pro-proteins, cleavage products, receptors (including soluble and transmembrane receptors), ligands, protein-ligand complexes, and post-translationally modified variants (such as cross-linking or glycosylation), fragments, and degradation products, as well as any multi-unit nucleic acid, protein, and glycoprotein structures comprised of any of the ARTERIORISKMARKERS as constituent sub-units of the fully assembled structure.
TABLE 2 ARTERIORISKMARKERS ARTERIORISK- MARKER Official Name Common Name Gene Symbol 1 alpha-2-macroglobulin alpha2-macroglobulin (alpha2-M) - alpha 2M, A2M alpha 2-macroglobulin 2 ATP-binding cassette, sub-family A (ABC1), ABCA1 - ABC-1, ABC1, CERP, HDLDT1, ABCA1 member 1 TGD, ATP binding cassette transporter 1; ATP- binding cassette 1; ATP-binding cassette transporter-1; ATP-binding cassette, sub-family A member 1; cholesterol efflux regulatory protein; high density lipoprotein deficiency, Tangier type, 1; membrane-bound 3 ATP-binding cassette, sub-family B Multi Drug Resistance 1 - ABC20, CD243, ABCB1 (MDR/TAP), member 1 CLCS, GP170, MDR1, P-gp, PGY1, ATP- binding cassette sub-family B member 1; P glycoprotein 1; P-glycoprotein 1; colchicin sensitivity; doxorubicin resistance; multidrug resistance 1 4 acetyl-Coenzyme A carboxylase beta acetyl-Coenzyme A carboxylase beta - ACC2, ACACB ACCB, HACC275, acetyl-CoA carboxylase 2 5 acyl-Coenzyme A dehydrogenase, C-4 to C- medium-chain acyl-coenzyme A dehydrogenase ACADM 12 straight chain 6 angiotensin I converting enzyme (peptidyl- angiotensin-converting enzyme (ACE) - ACE1, ACE dipeptidase A) 1 CD143, DCP, DCP1, CD143 antigen; angiotensin I converting enzyme; angiotensin converting enzyme, somatic isoform; carboxycathepsin; dipeptidyl carboxypeptidase 1; kininase II; peptidase P; peptidyl-dipeptidase A; testicular ECA 7 angiotensin I converting enzyme (peptidyl- deletion/deletion (D/D) genotype of the ACE dipeptidase A) 1 angiotensin converting enzyme (ACE) is PROTECTIVE against VTE (venous thromboembolism)/insertion/deletion (I/D) angiotensin converting enzyme (ACE) gene polymorphism - ACE1, CD143, DCP, DCP1, CD143 antigen; angiotensin I converting enzyme; angiotensin converting enzyme, somatic isoform; carboxycathepsin; dipeptidyl carboxypeptidase 1; kininase II; peptidase P; peptidyl-dipeptidase A; testicular ECA 8 acyl-CoA synthetase medium-chain family fatty acid-CoA ligase-like enzyme polypeptide - ACSM2 member 2 HXMA, HYST1046, xenobiotic/medium-chain fatty acid:CoA ligase 9 actin, alpha 1, skeletal muscle skeletal α-actin - ACTA, ASMA, CFTD, ACTA1 CFTD1, CFTDM, MPFD, NEM1, NEM2, NEM3, alpha 1 actin; alpha skeletal muscle actin 10 actin, alpha, cardiac muscle cardial α-actin - CMD1R, cardiac muscle alpha ACTC actin; smooth muscle actin 11 actin, gamma 2, smooth muscle, enteric smooth muscule α actin - ACT, ACTA3, ACTE, ACTG2 ACTL3, ACTSG, actin, gamma 2; actin-like protein; alpha-actin 3; smooth muscle gamma actin 12 actinin, alpha 1 alpha(1)-actinin - alpha-actinin 1 ACTN1 13 adducin 1 (alpha) alpha-adducin ADD1 14 adiponectin, C1Q and collagen domain Adiponectin - ACDC, ACRP30, APM-1, APM1, ADIPOQ containing GBP28, adiponectin, adipocyte, C1Q and collagen domain containing; adipocyte, C1Q and collagen domain-containing; adiponectin; adipose most abundant gene transcript 1; gelatin- binding protein 28 15 adiponectin receptor 1 G Protein Coupled Receptor AdipoR1 - ADIPOR1 ACDCR1, CGI-45, PAQR1, TESBP1A 16 adiponectin receptor 2 G Protein Coupled Receptor AdipoR2 - ADIPOR2 ACDCR2, PAQR2 17 adrenomedullin receptor Adrenomedullin Receptor - 7TMR, AMR, ADMR gamrh, hrhAMR, G-protein coupled receptor 18 adenosine A1 receptor G-protein-coupled receptor adenosine A1 - RDC7 ADORA1 19 adenosine A2b receptor G-protein-coupled receptor adenosine A2B - ADORA2B ADORA2 20 adenosine A3 receptor G-protein-coupled receptor adenosine A3 - ADORA3 A3AR, AD026, AD026 protein (AD026) 21 adrenergic, alpha-1A-, receptor Alpha-1A Adrenergic Receptor, ADRA1A - ADRA1A ADRA1C, ADRA1L1, ALPHA1AAR, G protein coupled receptor; adrenergic, alpha - 1A-, receptor; adrenergic, alpha-1C-, receptor; alpha- 1A-adrenergic receptor 22 adrenergic, alpha-1B-, receptor beta2-adrenergic receptor - ADRA1, ADRA1B ALPHA1BAR, alpha-1B-adrenergic receptor 23 adrenergic, alpha-1D-, receptor adrenergic alpha 1D receptor - ADRA1, ADRA1D ADRA1A, ADRA1R, ALPHA1, DAR, adrenergic, alpha -1D-, receptor; adrenergic, alpha-1A-, receptor; alpha-1D-adrenergic receptor 24 adrenergic, alpha-2A-, receptor G protein-coupled alpha 2A-adrenoceptor ADRA2A (ADRA2A) - ADRA2, ADRA2R, ADRAR, ALPHA2AAR, ZNF32, alpha-2A-adrenergic receptor; alpha-2AAR subtype C10; alpha2A adrenergic receptor 25 adrenergic, alpha-2B-, receptor ADRA2L1, ADRA2RL1, ADRARL1, ADRA2B ALPHA2BAR, G-protein coupled receptor; adrenergic receptor alpha 2B; alpha-2-adrenergic receptor-like 1; alpha-2B-adrenergic receptor 26 adrenergic, beta-2-, receptor, surface G Protein- Coupled Beta-2 Adrenoceptor - ADRB2 ADRB2R, ADRBR, B2AR, BAR, BETA2AR, beta-2 adrenergic receptor; beta-2 adrenoceptor; catecholamine receptor 27 adrenergic, beta-2-, receptor, surface beta2-adrenergic receptor - ADRB2R, ADRBR, ADRB2 B2AR, BAR, BETA2AR, beta-2 adrenergic receptor; beta-2 adrenoceptor; catecholamine receptor 28 adrenergic, beta-3-, receptor beta- 3- adrenergic receptor - BETA3AR, Beta-3 ADRB3 Adrenergic Receptor 29 adrenergic, beta, receptor kinase 1 G Protein- Dependent Receptor Kinase 2 ADRBK1 (GRK2) - BARK1, BETA-ARK1, GRK2, beta adrenergic receptor kinase 1 30 alpha-fetoprotein serum alpha-fetoprotein - FETA, HPAFP, alpha- AFP 1-fetoprotein; alpha-fetoglobulin 31 advanced glycosylation end product specific RAGE - advanced glycosylation end product- AGER receptor specific receptor RAGE3; advanced glycosylation end product-specific receptor variant sRAGE1; advanced glycosylation end product-specific receptor variant sRAGE2; receptor for advanced glycosylation end- products; soluble receptor 32 1-acylglycerol-3-phosphate O-acyltransferase acylglycerol acyltransferase-like protein MGAT- AGPAT7 7 (lysophosphatidic acid acyltransferase, eta) X2 - AYTL3, LPAAT-eta, PLSC domain containing protein; acyltransferase like 3 33 angiotensinogen (serpin peptidase inhibitor, AGT M235T variant of angiotensinogen (AGT) AGT clade A, member 8) gene & see patent info - ANHU, SERPINA8, angiotensin I; angiotensin II precursor; angiotensinogen; angiotensinogen (serine (or cysteine) peptidase inhibitor, clade A, member 8); angiotensinogen (serine (or cysteine) proteinase inhibitor, clade A (alpha-1 antiproteinase, antitrypsin), member 8); pre- angiotensinogen 34 angiotensin II receptor, type 1 G protein-Coupled Receptor AGTR1A - AG2S, AGTR1 AGTR1A, AGTR1B, AT1, AT1B, AT2R1, AT2R1A, AT2R1B, HAT1R, angiotensin receptor 1; angiotensin receptor 1B; type-1B angiotensin II receptor 35 angiotensin II receptor, type 2 G protein-coupled Receptor AGTR2 - AT2, AGTR2 ATGR2, MRX88, angiotensin receptor 2 36 angiotensin II receptor-like 1 G Protein- Counled Apelin Receptor - APJ, AGTRL1 angiotensin receptor-like 1 37 aryl hydrocarbon receptor aryl hydrocarbon receptor - AH-receptor; AHR aromatic hydrocarbon receptor 38 alpha-2-HS-glycoprotein alpha-2-HS-glycoprotein, A2HS, AHS, FETUA, AHSG HSGA, Alpha-2HS-glycoprotein; fetuin-A 39 A kinase (PRKA) anchor protein 1 kinase (PRKA) anchor protein 1 - AKAP, AKAP1 AKAP121, AKAP149, AKAP84, D-AKAP1, PRKA1, SAKAP84, A-kinase anchor protein 1; A-kinase anchor protein, 149 kD; dual-specificity A-kinase anchoring protein 1; protein kinase A anchoring protein 1; protein kinase A1; spermatid A-kinase anchor protein 84 40 A kinase (PRKA) anchor protein 10 A kinase (PRKA) anchor protein 10 - D-AKAP2, AKAP10 PRKA10, A-kinase anchor protein 10; dual- specificity A-kinase anchoring protein 2; mitochondrial A kinase PPKA anchor protein 10; protein kinase A anchoring protein 10 41 A kinase (PRKA) anchor protein 13 A kinase (PRKA) anchor protein 13 - AKAP- AKAP13 Lbc, BRX, HA-3, Ht31, LBC, PROTO-LB, PROTO-LBC, c-lbc, A-kinase anchor protein 13; A-kinase anchoring protein; breast cancer nuclear receptor-binding auxiliary protein; guanine nucleotide exchange factor Lbc; lymphoid blast crisis oncogene 42 aldo-keto reductase family 1, member A1 aldehyde reductase: ALR; ALDR1 AKR1A1 (aldehyde reductase) 43 aldo-keto reductase family 1, member B10 aldose reductase and aldehyde reductase - AKR1B10 (aldose reductase) AKR1B11, AKR1B12, ALDRLn, ARL-1, ARL1, HIS, HSI, aldo-keto reductase family 1, member B10; aldo-keto reductase family 1, member B11 (aldose reductase-like); aldose reductase-like 1; aldose reductase-like peptide; aldose reductase-related protein; small intestine reductase 44 v-akt murine thymoma viral oncogene Ser/Thr kinase Akt - PKB, PRKBA, RAC, RAC- AKT1 homolog 1 ALPHA, RAC-alpha serine/threonine-protein kinase; murine thymoma viral (v-akt) oncogene homolog-1; protein kinase B; rac protein kinase alpha 45 v-akt murine thymoma viral oncogene Ser/Thr kinase Akt - PKBG, PRKBG, RAC-PK- AKT3 homolog 3 (protein kinase B, gamma) gamma, RAC-gamma, STK-2, RAC-gamma serine/threonine protein kinase; protein kinase B gamma; serine threonine protein kinase, Akt-3; v-akt murine thymoma viral oncogene homolog 3 46 albumin Ischemia-modified albumin (IMA) - cell growth ALB inhibiting protein 42; growth-inhibiting protein 20; serum albumin 47 aldehyde dehydrogenase 2 family Aldehyde dehydrogenase - ALDH-E2, ALDHI, ALDH2 (mitochondrial) ALDM, ALDH class 2; acetaldehyde dehydrogenase 2; liver mitochondrial ALDH; mitochondrial aldehyde dehydrogenase 2; nucleus-encoded mitochondrial aldehyde dehydrogenase 2 48 aldolase C, fructose-bisphosphate Aldolase C - aldolase 3; brain-type aldolase; ALDOC fructoaldolase C; fructose-1,6-biphosphate triosephosphate lyase; fructose-bisphosphate aldolase C 49 alpha-1-microglobulin/bikunin precursor alpha-1-microglobulin - HCP, ITI, ITIL, UTI, AMBP Alpha-1-microglobulin/bikunin precursor (inter- alpha-trypsin inhibitor, light chain; protein HC); Alpha-1-microglobulin/bikunin precursor; inter- alpha-trypsin; alpha-1-microglobulin/bikunin; growth-inhibiting protein 19 50 adenosine monophosphate deaminase 1 adenosine monophosphate deaminase I (isoform AMPD1 (isoform M) M) - MAD, MADA, Adenosine monophosphate deaminase-1 (muscle) 51 angiogenin, ribonuclease, RNase A family, 5 angiogenin - RNASE4, RNASE5 ANG 52 angiopoietin 2 angiopoietin 2, AGPT2, ANG2, Tie2-ligand; ANGPT2 angiopoietin-2; angiopoietin-2B; angiopoietin-2a 53 alanyl (membrane) aminopeptidase Aminopeptidase N - CD13, LAP1, PEPN, ANPEP (aminopeptidase N, aminopeptidase M, gp150, aminopeptidase M; aminopeptidase N; microsomal aminopeptidase, CD13, p150) membrane alanine aminopeptidase; microsomal aminopeptidase 54 annexin A1 annexins - ANX1, LPC1, annexin I; annexin I ANXA1 (lipocortin I); lipocortin I 55 annexin A2 annexins - ANX2, ANX2L4, CAL1H, LIP2, ANXA2 LPC2, LPC2D, P36, PAP-IV, annexin II; calpactin I heavy polypeptide; chromobindin 8; lipocortin II; placental anticoagulant protein IV 56 annexin A3 annexins - ANX3, Annexin III (lipocortin III); ANXA3 annexin III (lipocortin III, 1,2-cyclic-inositol- phosphate phosphodiesterase, placental anticoagulant protein III, calcimedin 35-alpha); calcimedin 35-alpha 57 annexin A4 annexins - ANX4, PIG28, annexin IV; annexin ANXA4 IV (placental anticoagulant protein II); placental anticoagulant protein II; proliferation-inducing gene 28; proliferation-inducing protein 28 58 annexin A5 circulating annexin V+ apoptotic microparticles ANXA5 in peripheral blood (Entered annexin V0 into Entrez), ANX5, ENX2, PP4, anchorin CII; annexin 5; endonexin II; lipocortin V; placental anticoagulant protein I 59 apolipoprotein A-I apolipoproteins A-1 and B, amyloidosis; APOA1 apolipoprotein A-I, preproprotein; apolipoprotein A1; preproapolipoprotein 60 apolipoprotein A-I apoA-I, amyloidosis; apolipoprotein A-I, APOA1 preproprotein; apolipoprotein A1; preproapolipoprotein 61 apolipoprotein A-II Apolipoprotein A-II APOA2 62 apolipoprotein A-IV APOA4 - APOA4 63 APOA5 and Name: apolipoprotein A-V APOA5 - APOA-V, APOAV, RAP3, APOA5 apolipoprotein A5; apolipoprotein AV; regeneration-associated protein 3 64 apolipoprotein B (including Ag(x) antigen) apolipoproteins A-1 and B - Apolipoprotein B, APOB FLDB, apoB-100; apoB-48; apolipoprotein B; apolipoprotein B48 65 apolipoprotein B (including Ag(x) antigen) APOB - FLDB, apoB-100; apoB-48; APOB apolipoprotein B; apolipoprotein B48 66 apolipoprotein C-I apolipoprotein C-I APOC1 67 apolipoprotein C-II APOC2 - APOC2 68 apolipoprotein C-III APOC3 - APOCIII APOC3 69 apolipoprotein D apolipoprotein D - APOD 70 apolipoprotein E Apolipoprotein E - AD2, apoprotein, Alzheimer APOE disease 2 (APOE*E4-associated, late onset); apolipoprotein E precursor; apolipoprotein E3 71 apolipoprotein H (beta-2-glycoprotein I) beta2GPI - B2G1, BG, apolipoprotein H; beta-2- APOH glycoprotein I 72 apolipoprotein L, 1 apolipoprotein L1 - apolipoprotein L-I APOL1 73 apolipoprotein M apolipoprotein M - G3a, HSPC336, NG20, APOM NG20-like protein; alternative name: G3a, NG20 74 v-raf murine sarcoma 3611 viral oncogene Raf protein - A-RAF, ARAF1, PKS2, RAFA1, ARAF homolog Oncogene ARAF1; Ras-binding protein DA-Raf; v-raf murine sarcoma 3611 viral oncogene homolog 1 75 Rho GTPase activating protein 1 Rho GTPase activating protein 1 - CDC42GAP, ARHGAP1 RHOGAP, RHOGAP1, p50rhoGAP, CDC42 GTPase-activating protein 76 type 1 tumor necrosis factor receptor puromycin-insensitive leucyl-specific ARTS-1 shedding aminopeptidase regulator aminopeptidase -A-LAP, ALAP, APPILS, ARTS1, ERAAP, ERAP1, PILSAP, adipocyte- derived leucine aminopeptidase; aminopeptidase PILS 77 N-acylsphingosine amidohydrolase (acid Acid ceramidase: AC; PHP; ASAH; PHP32 ASAH1 ceramidase) 1 78 N-acylsphingosine amidohydrolase (non- acid ceramidase - HNAC1, N-acylsphingosine ASAH2 lysosomal ceramidase) 2 amidohydrolase (non-lysosomal ceramidase) 2B; N-acylsphingosine amidohydrolase 2; acid ceramidase; mitochondrial ceramidase; neutral ceramidase; neutral/alkaline ceramidase; non- lysosomal ceramidase 79 aspartate beta-hydroxylase asparagine hydroxylase - BAH, CASQ2BP1, ASPH HAAH, JCTN, junctin, aspartyl/asparaginyl- beta-hydroxylase; humbug; junctate; junctin isoform 1; peptide-aspartate beta-dioxygenase 80 ATPase, Na+/K+ transporting, alpha 1 cation transport ATPase-like - Na+, K+ ATPase ATP1A1 polypeptide alpha subunit; Na+/K+ -ATPase alpha 1 subunit; Na+/K+ ATPase 1; Na, K-ATPase, alpha-A catalytic polypeptide; Na, K-ATPase alpha-1 subunit; Na, K-ATPase catalytic subunit alpha-A protein; Na/K-ATPase alpha subunit fragment (aa 1-149); sodium pump 1; sodium-potassium- ATPase, alpha 1 polypeptide 81 ATPase, Na+/K+ transporting, alpha 2 (+) ATPase, Na+1K+ transporting, alpha 2 (+) - ATP1A2 polypeptide FHM2, MHP2, Na+/K+ -ATPase alpha 2 subunit proprotein; Na+/K+ ATPase 2; Na+/K+ ATPase, alpha-A(+) catalytic polypeptide; Na+/K+ ATPase, alpha-B polypeptide; migraine, hemiplegic 2; sodium pump 2; sodium- potassium ATPase; sodium/potassium- transporting ATPase alpha-2 chain 82 ATPase, Na+/K+ transporting, alpha 4 cation transport ATPase - ATP1A1, ATP1AL2, ATP1A4 polypeptide ATPase, Na+/K+ transporting, alpha polypeptide-like 2; Na+/K+ -ATPase alpha 4 subunit; Na+/K+ ATPase 4; Na+/K+ ATPase, alpha-D polypeptide; Na, K-ATPase subunit alpha-C; sodium pump 4; sodium/potassium- transporting ATPase alpha-4 chain 83 ATPase, Ca++ transporting, cardiac muscle, ATPase, Ca++ transporting, cardiac muscle, fast ATP2A1 fast twitch 1 twitch 1 - 12 - ATP2A, SERCA1, ATPase, Ca++ transporting, fast twitch 1; SR Ca(2+)-ATPase 1; calcium pump 1; calcium-transporting ATPase sarcoplasmic reticulum type, fast twitch skeletal muscle isoform; endoplasmic reticulum class 1/2 Ca(2+) ATPase; sarcoplasmic/endoplasmic reticulum calcium ATPase 1 924 ATPase, Ca++ transporting, cardiac muscle, cation transport ATPase - ATP2B, DAR, DD, ATP2A2 slow twitch 2 SERCA2, ATPase, Ca++ dependent, slow- twitch, cardiac muscle-2; SR Ca(2+)-ATPase 2; calcium pump 2; calcium-transporting ATPase sarcoplasmic reticulum type, slow twitch skeletal muscle isoform; endoplasmic reticulum class 1/2 Ca(2+) ATPase; sarcoplasmic/endoplasmic reticulum calcium ATPase 2 925 ATPase, Ca++ transporting, ubiquitous SERCA3, ATPase, Ca(2+)-transporting, ATP2A3 ubiquitous; SR Ca(2+)-ATPase 3; adenosine triphosphatase, calcium; calcium pump 3; calcium-translocating P-type ATPase; sarco/endoplasmic reticulum Ca2+ -ATPase; sarco/endoplasmic reticulum Ca2+ ATPase isoform 3f; sarcoplasmic/endoplasmic reticulum calcium ATPase 3 926 Thrombin-Antithrombin III autoantibody 927 anti-PF4/heparin antibodies (for recurrent autoantibody thrombotic events after acute coronary syndromes) 928 anticardiolipin, anti-CL autoantibody 84 Endothelial cell reactive antibody (ECRA)/anti- autoantibody endothelial cell antibodies (AECA) 85 plasmin-alpha 2-antiplasmin complex autoantibody 86 arginine vasopressin (neurophysin II, copeptin - ADH, ARVP, AVP-NPII, AVRP, VP, AVP antidiuretic hormone, diabetes insipidus, arginine vasopressin-neurophysin II; neurohypophyseal) vasopressin-neurophysin II-copeptin, vasopressin 87 arginine vasopressin receptor 1A arginine vasopressin receptor 1 - SCCL AVPR1A vasopressin subtype 1a receptor; V1-vascular vasopressin receptor AVPR1A; V1a vasopressin receptor; antidiuretic hormone receptor 1A; vascular/hepatic-type arginine vasopressin receptor 929 arginine vasopressin receptor 1B arginine vasopressin receptor 3 - AVPR3, AVPR1B antidiuretic hormone receptor 1B; arginine vasopressin receptor 3; pituitary vasopressin receptor 3; vasopressin V1B receptor 88 arginine vasopressin receptor 2 (nephrogenic arginine vasopressin receptor 2 - ADHR, DI1, AVPR2 diabetes insipidus) DIR, DIR3, NDI, V2R, arginine vasopressin receptor 2 89 Chlamydia Pneumoniae (Cp) infection Bacteria 90 HLA-B associated transcript 3 BAT3 - G3, HLA-B associated transcript-3; BAT3 large proline-rich protein BAT3; scythe, A-B associated transcript 3 A cluster of genes 91 HLA-B associated transcript 4 BAT4 - G5, HLA-B associated transcript-4 BAT4 A-B associated transcript 4 A 92 HLA-B associated transcript 5 BAT5 - NG26, HLA-B associated transcript-5, BAT5 A-B associated transcript 5 A 93 BCL2-associated X protein Bax - Bax zeta, apoptosis regulator BAX BAX 94 basal cell adhesion molecule (Lutheran blood AU, CD239, LU, MSK19, Auberger b antigen; BCAM group) B-CAM cell surface glycoprotein; B-cell adhesion molecule; F8/G253 antigen; Lutheran blood group (Auberger b antigen included); antigen identified by monoclonal antibody F8; basal cell adhesion molecule; basal cell adhesion molecule (Lu and Au blood groups); glycoprotein 95 kDa 95 branched chain aminotransferase 1, cytosolic branched chain aminotransferase 1, cytosolic: BCAT1 BCT1, ECA39, MECA39 96 B-cell CLL/lymphoma 2 BCL-2-Bcl-2, B-cell lymphoma protein 2 BCL2 97 3-hydroxybutyrate dehydrogenase, type 1 BDH, MGC2723, MGC4347, MGC9788; (R)-3- BDH1 hydroxybutyrate dehydrogenase; 3- hydroxybutyrate dehydrogenase; 3- hydroxybutyrate dehydrogenase (heart, mitochondrial); D-beta-hydroxybutyrate dehydrogenase, mitochondrial 98 Burkitt lymphoma receptor 1, GTP binding CXC chemokine receptor 5 - CD185, CXCR5, BLR1 protein (chemokine (C—X—C motif) receptor 5) MDR15, Burkitt lymphoma receptor 1; Burkitt lymphoma receptor 1, GTP-binding protein; Burkitt lymphoma receptor 1, isoform 1; C—X—C chemokine receptor type 5; monocyte-derived receptor 15 99 BMP2 inducible kinase BMP-2 inducible kinase - BIKE, BMP-2 BMP2K inducible kinase 100 v-raf murine sarcoma viral oncogene Raf protein - B-raf 1, BRAF1, RAFB1, 94 kDa BRAF homolog B1 B-raf protein; Murine sarcoma viral (v-raf) oncogene homolog B1 101 bromodomain containing 3 bromodomain containing 3 I - ORFX, RING3L, BRD3 RING3-like gene; bromodomain containing protein 3; bromodomain-containing 3 102 BUB1 budding uninhibited by Bub1 - BUB1A, BUB1L, hBUB1, BUB1 BUB1 benzimidazoles 1 homolog (yeast) budding uninhibited by benzimidazoles 1 homolog; budding uninhibited by benzimidazoles 1 (yeast homolog); mitotic spindle checkpoint kinase; putative serine/threonine-protein kinase 103 complement component 3 complement C3 - acylation-stimulating protein C3 cleavage product; complement component C3, ASP; CPAMD1 104 complement component 3a receptor 1 G protein coupled receptor C3AR1 (complement C3AR1 component 3a receptor 1) - AZ3B, C3AR, HNFAG09, complement component 3 receptor 1 105 complement component 4A (Rodgers blood complement C4 - C4A anaphylatoxin; Rodgers C4A group) form of C4; acidic C4; c4 propeptide; complement component 4A; complement component C4B 106 complement component 4B (Childo blood C4A, C4A13, C4A91, C4B1, C4B12, C4B2, C4B group) C4B3, C4B5, C4F, CH, CO4, CPAMD3, C4 complement C4d region; Chido form of C4; basic C4; complement C4B; complement component 4B; complement component 4B, centromeric; complement component 4B, telomeric; complement component C4B 107 complement component 5a receptor 1 COMPLEMENT COMPONENT 5a C5AR1 RECEPTOR - C5A, C5AR, C5R1, CD88, C5a anaphylatoxin receptor; C5a receptor; complement component 5 receptor 1 (C5a ligand); complement component-5 receptor-2 (C5a ligand) 108 calcitonin receptor calcitonin receptor - CRT, CTR, CTR1 CALCR 109 calcitonin receptor-like calcitonin receptor-like receptor - CGRPR, CALCRL CRLR 110 calcium/calmodulin-dependent protein kinase BL-CAM: CaM kinase II beta subunit; CaM- CAMK2B (CaM kinase) II beta? kinase II beta chain; CaMK-II beta subunit; calcium/calmodulin-dependent protein kinase IIB; calcium/calmodulin-dependent protein kinase type II beta chain; proline rich calmodulin-dependent protein kinase 111 caspase 3, apoptosis-related cysteine caspase-3: PARP cleavage protease; SREBP CASP3 peptidase cleavage activity 1; Yama; apopain; caspase 3; caspase 3, apoptosis-related cysteine protease; cysteine protease CPP32; procaspase3 112 caspase 8, apoptosis-related cysteine caspase 8 - CAP4, FLICE, MACH, MCH5, CASP8 peptidase FADD-homologous ICE/CED-3-like protease; MACH-alpha-1/2/3 protein; MACH-beta-1/2/3/4 protein; Mch5 isoform alpha; caspase 8; caspase 8, apoptosis-related cysteine protease; cysteine protease; procaspase-8; procaspase-8L 116 caspase 9, apoptosis-related cysteine caspase 9 - APAF-3, APAF3, CASPASE-9c, CASP9 peptidase ICE-LAP6, MCH6, ICE-like apoptotic protease 6; apoptotic protease MCH-6; apoptotic protease activating factor 3; caspase 9; caspase 9, apoptosis-related cysteine protease; caspase-9c protein 113 cholecystokinin B receptor cholecystokinin receptor B - CCK-B, GASR - CCKBR CCK2 receptor; cholecystokinin-B receptor/gastrin receptor; gastrin receptor; gastrin\cholecystokinin brain receptor 114 chemokine (C-C motif) ligand 1 I-309; P500; SCYa1; SISe; TCA3; T CCL1 lymphocyte-secreted protein I-309; inflammatory cytokine I-309; small inducible cytokine A1; small inducible cytokine A1 (I-309, homologous to mouse Tca-3) 115 chemokine (C-C motif) ligand 11 eosinophil chemotactic protein; eotaxin; small CCL11 inducible cytokine A11; small inducible cytokine subfamily A (Cys-Cys), member 11; small inducible cytokine subfamily A (Cys-Cys), member 11 (eotaxin) 117 chemokine (C-C motif) ligand 12 Scya12 CCL12 120 chemokine (C-C motif) ligand 19 CC chemokine ligand 19; CK beta-11; EBI1- CCL19 ligand chemokine; OTTHUMP00000000531; beta chemokine exodus-3; exodus-3; macrophage inflammatory protein 3-beta; small inducible cytokine A19; small inducible cytokine subfamily A (Cys-Cys), member 19 118 chemokine (C-C motif) ligand 2 Monocyte chemoattractant protein-1 (MCP-1) - CCL2 GDCF-2, GDCF-2 HC11, HC11, HSMCR30, MCAF, MCP-1, MCP1, SCYA2, SMC-CF, monocyte chemoattractant protein-1; monocyte chemotactic and activating factor; monocyte chemotactic protein 1, homologous to mouse Sig-je; monocyte secretory protein JE; small inducible cytokine A2; small inducible cytokine A2 (monocyte chemotactic protein 1, homologous to mouse Sig-je); small inducible cytokine subfamily A (Cys-Cys), member 2 119 chemokine (C-C motif) ligand 21 Efficient Chemoattractant for Lymphocytes; CCL21 OTTHUMP00000000526; OTTHUMP00000000527; beta chemokine exodus-2; exodus-2; secondary lymphoid tissue chemokine; small inducible cytokine A21; small inducible cytokine subfamily A (Cys-Cys), member 21 121 chemokine (C-C motif)ligand 3 GOS19-1; LD78ALPHA; MIP-1-alpha; MIP1A; CCL3 SCYA3; LD78 alpha beta; small inducible cytokine A3; small inducible cytokine A3 (homologous to mouse Mip-1A) 122 chemokine (C-C motif) ligand 4 ACT2; AT744.1; G-26; LAG1; MGC104418; CCL4 MIP-1-beta; MGC126025; MIP1B; MGC126026; SCYA2; SCYA4; CC chemokine ligand 4; chemokine C-C motif ligand 4; lymphocyte-activation gene 1; secreted protein G-26; small inducible cytokine A4 (homologous to mouse Mip-1B) 123 chemokine (C-C motif) ligand 5 SIS-delta; T-cell specific RANTES protein; T- CCL5 cell specific protein p288; beta-chemokine RANTES; regulated upon activation, normally T-expressed, and presumably secreted; small inducible cytokine A5; small inducible cytokine A5 (RANTES); small inducible cytokine subfamily A (Cys-Cys), member 5 124 chemokine (c-C motif) ligand 7 FIC, MARC; MCP-3; MCP3; MGC138463; CCL7 MGC138465; NC28; SCYA6; SCYA7; monocyte chemoattractant protein 3; small inducible cytokine A7; small inducible cytokine A7 (monocyte chemotactic protein 3) 125 chemokine (C-C motif) ligand 7 chemokine (C-C motif) ligand 7, FIC, MARC, CCL7 MCP-3, MCP3, MGC138463, MGC138465, NC28, SCYA6, SCYA7, monocyte chemoattractant protein 3; monocyte chemotactic protein 3; small inducible cytokine A7; small inducible cytokine A7 (monocyte chemotactic protein 3) 126 chemokine (C-C motif) ligand 8 chemokine (C-C motif) ligand 8, HC14, MCP-2, CCL8 MCP2, SCYA10, SCYA8, monocyte chemoattractant protein 2; monocyte chemotactic protein 2; small inducible cytokine A8; small inducible cytokine subfamily A (Cys-Cys), member 8; small inducible cytokine subfamily A (Cys-Cys), member 8 (monocyte chemotactic protein 2) 127 chemokine (C-C motif) ligand 9 CCL10, Scya10, Scya9 CCL9 128 cyclin A2 cyclin A - CCN1, CCNA, cyclin A CCNA2 129 cyclin B1 CCNB1 - G2/mitotic-specific cyclin B1 CCNB1 130 cyclin D1 cyclin D - BCL1, PRAD1, U21B31, B-cell CCND1 CLL/lymphoma 1; G1/S-specific cyclin D1; cyclin D1 (PRAD1: parathyroid adenomatosis 1); parathyroid adenomatosis 1 131 cyclin E1 CycE: cyclin Es; cyclin Et CCNE1 132 cyclin H CycH: CDK-activating kinase; MO15- CCNH associated protein; cyclin-dependent kinase- activating kinase 133 chemokine (C-C motif) receptor 1 CC chemokine receptor 1 (CCR1) - CD191, CCR1 CKR-1, CMKBR1, HM145, MIP1aR, SCYAR1, RANTES receptor 134 chemokine (C-C motif) receptor 10 chemokine receptor 10 - GPR2, CC chemokine CCR10 receptor 10; G protein-coupled receptor 2 135 chemokine (C-C motif) receptor 2 C-C Chemokine Receptor 2 - CC-CKR-2, CCR2 CCR2A, CCR2B, CD192, CKR2, CKR2A, CKR2B, CMKBR2, MCP-1-R, MCP-1 receptor; chemokine (C-C) receptor 2; monocyte chemoattractant protein 1 receptor; monocyte chemotactic protein 1 receptor 136 chemokine (C-C motif) receptor 3 CC-CKR-3, CD193, CKR3, CMKBR3, CC CCR3 chemokine receptor 3; b-chemokine receptor; eosinophil CC chemokine receptor 3; eosinophil eotaxin receptor 137 chemokine (C-C motif) receptor 4 C-C Chemokine Receptor 4 - CC-CKR-4, CCR4 CKR4, CMKBR4, ChemR13, HGCN: 14099, K5-5, chemokine (C-C) receptor 4 138 chemokine (C-C motif) receptor 5 CC-CKR-5, CCCKR5, CD195, CKR-5, CKR5, CCR5 CMKBR5, C-C chemokine receptor 5; C-C chemokine receptor type 5; CC chemokine receptor 5; CCR5 chemokine receptor; chemokine (C-C) receptor 5; chemokine receptor CCR5; chemr13 139 chemokine (C-C motif) receptor 6 C-C chemokine receptor type 6 - BN-1, CD196, CCR6 CKR-L3, CKR6, CKRL3, CMKBR6, DCR2, DRY-6, GPR-CY4, GPR29, GPRCY4, STRL22, G protein-coupled receptor 29; chemokine (C-C) receptor 6; chemokine receptor-like 3; seven- transmembrane receptor, lymphocyte, 22 140 chemokine (C-C motif) receptor 7 C-C chemokine receptor type 7 - BLR2, CD197, CCR7 CDw197, CMKBR7, EBI1, C-C chemokine receptor type 7; CC chemokine receptor 7; EBV- induced G protein-coupled receptor 1; Epstein- Barr virus induced G-protein coupled receptor; Epstein-Barr virus induced gene 1; MIP-3 beta receptor; chemokine (C-C) receptor 7; lymphocyte-specific G protein-coupled peptide receptor 141 chemokine (C-C motif) receptor 8 Chemokine Receptor 8 - CDw198, CKR-L1, CCR8 CKRL1, CMKBR8, CMKBRL2, CY6, GPR- CY6, TER1, CC chemokine receptor 8; CC- chemokine receptor chemr1; chemokine (C-C) receptor 8; chemokine (C-C) receptor-like 2 142 chemokine (C-C motif) receptor 9 Chemokine Receptor 9 - CDw199, GPR-9-6, CCR9 GPR28, G protein-coupled receptor 28 143 chemokine (C-C motif) receptor-like 1 chemokine receptor 11 - CC-CKR-11, CCBP2, CCRL1 CCR10, CCR11, CCX-CKR, CKR-11, PPR1, VSHK1, C-C chemokine receptor type 11; chemocentryx chemokine receptor; chemokine, cc motif, receptor-like protein 1; orphan seven- transmembrane receptor, chemokine related 144 chemokine (C-C motif) receptor-like 2 chemokine (C-C motif) receptor-like 2: CKRX, CCRL2 CRAM-A, CRAM-B, HCR 145 CD14 molecule CD14 antigen - monocyte receptor CD14 146 CD14 molecule CD14 (C-260T polymorphism) entered “CD14”, CD14 CD14 antigen 147 CD163 molecule CD163 - M130, MM130 - CD163 antigen; CD163 macrophage-associated antigen, macrophage- specific antigen 148 CD40 molecule, TNF receptor superfamily CD40 molecule, TNF receptor superfamily CD40 member 5 member 5, Bp50, CDW40, MGC9013, TNFRSF5, p50, B cell surface antigen CD40; B cell-associated molecule; CD40 antigen; CD40 antigen (TNF receptor superfamily member 5); CD40 type II isoform; CD40L receptor; nerve growth factor receptor-related B-lymphocyte activation molecule; tumor necrosis factor receptor superfamily, member 5 149 CD40 ligand (TNF superfamily, member 5, CD40 Ligand (CD40L) (also called soluble CD40LG hyper-IgM syndrome) CD40L vs. platelet-bound CD40L), CD154, CD40L, HIGM1, IGM, IMD3, T-BAM, TNFSF5, TRAP, gp39, hCD40L, CD40 antigen ligand; CD40 ligand; T-B cell-activating molecule; TNF-related activation protein; tumor necrosis factor (ligand) superfamily member 5; tumor necrosis factor (ligand) superfamily, member 5 (hyper-IgM syndrome); tumor necrosis factor ligand superfamily member 5 150 CD44 molecule (Indian blood group) CD44, CDW44 - ECMR-III, IN, LHR, MC56, CD44 MDU2, MDU3, MIC4, MUTCH-I, Pgp1, CD44 antigen; CD44 antigen (Indian blood group); CD44 antigen (homing function and Indian blood group system); CD44 epithelial domain (CD44E); CDW44 antigen; GP90 lymphocyte homing/adhesion receptor; Hermes antigen; antigen gp90 homing receptor; cell adhesion molecule (CD44); cell surface glycoprotein CD44; extracellular matrix receptor-III; heparan sulfate proteoglycan; hyaluronate receptor; phagocytic glycoprotein I 151 CD55 molecule, decay accelerating factor for complement 32: CD55 antigen, decay CD55 complement (Cromer blood group) accelerating factor for complement (Cromer blood group); Cromer blood group; decay accelerating factor for complement; decay accelerating factor for complement (CD55, Cromer blood group system); decay accelerating factor for complement (CD55, Cromer blood group); decay-accelerating factor 3 152 CD63 molecule lysosome-associated membrane protein (CD63) - CD63 (entered just “CD63” here) LAMP-3, ME491, MLA1, OMA81H, TSPAN30, CD63 antigen; CD63 antigen (melanoma 1 antigen); granulophysin; lysosome-associated membrane glycoprotein 3; melanoma 1 antigen; melanoma- associated antigen ME491; melanoma-associated antigen MLA1; ocular melanoma-associated antigen; tetraspanin-30 153 cell division cycle 2, G1 to S and G2 to M CDK1: cell cycle controller CDC2; cell division CDC2 control protein 2 homolog; cell division cycle 2 protein; cyclin-dependent kinase 1; p34 protein kinase 154 CDC42 binding protein kinase beta (DMPK- CDC42 binding protein kinase beta (DMPK- CDC42BPB like) like) - MRCKB, CDC42-binding protein kinase beta; CDC42-binding protein kinase beta (DMPK-like); DMPK-like; MRCK beta 155 CDC42 effector protein (Rho GTPase CDC42 effector protein (Rho GTPase binding) 2 - CDC42EP2 binding) 2 BORG1, CEP2, CRIB-containing BOGR1 protein; Cdc42 effector protein 2 930 CDC42 effector protein (Rho GTPase CDC42 effector protein (Rho GTPase binding) 3 - CDC42EP3 binding) 3 BORG2, CEP3, UB1, CRIB-containing BORG2 protein; Cdc42 effector protein 3; MSE55-related protein 931 CDC6 cell division cycle 6 homolog (S. cerevisiae) Cdc6: CDC18 (cell division cycle 18, S. pombe, CDC6 homolog)-like; CDC6 (cell division cycle 6, S. cerevisiae) homolog; CDC6 homolog; CDC6- related protein 932 cadherin 1, type 1, E-cadherin (epithelial) Arc-1, CD324, CDHE, ECAD, LCAM, UVO, CDH1 cadherin 1, E-cadherin (epithelial); cadherin 1, type 1; calcium-dependent adhesion protein, epithelial; cell-CAM 120/80; uvomorulin 933 cyclin-dependent kinase 4 CDK4: cell division kinase 4; melanoma CDK4 cutaneous malignant, 3 934 cyclin-dependent kinase 5 cyclin-dependent kinase 5, PSSALRE, protein CDK5 kinase CDK5 splicing 935 cyclin-dependent kinase 6 CDK6: cell division protein kinase 6 CDK6 936 centromere protein C 1 centromere protein C 1 - CENPC, centromere CENPC1 autoantigen C1 937 cholesteryl ester transfer protein, plasma cholesterol ester transfer protein - lipid transfer CETP protein 156 CHK1 checkpoint homolog (S. pombe) Chk1: CHK1 (checkpoint, S. pombe) homolog; CHEK1 CHK1 checkpoint homolog; Checkpoint, S. pombe, homolog of, 1 157 CHK2 checkpoint homolog (S. pombe) Chk2: CHK2 (checkpoint, S. pombe) homolog; CHEK2 checkpoint-like protein CHK2; protein kinase CHK2; serine/threonine-protein kinase CHK2 158 chromogranin A (parathyroid secretory chromogranin-A, CGA, chromogranin A CHGA protein 1) precursor; parathyroid secretory protein 1 159 chitinase 1 (chitotriosidase) chitotriosidase - chitotriosidase; plasma CHIT1 methylumbelliferyl tetra-N-acetylchitotetraoside hydrolase 160 choline kinase alpha choline kinase - CHK, CKI CHKA 161 choline kinase beta choline kinase (CHK) - CHETK, CHKL, choline CHKB kinase-like, choline/ethanolamine kinase 162 cholinergic receptor, muscarinic 1 Muscarinic Acetylcholine Receptor M1 - HM1, CHRM1 M1, muscarinic acetylcholine receptor M1, ACM1 163 cholinergic receptor, muscarinic 2 Muscarinic Acetylcholine Receptor M2 - HM2, CHRM2 7TM receptor; cholinergic receptor, muscarinic 2, isoform a; muscarinic M2 receptor; muscarinic acetylcholine receptor M2 164 cholinergic receptor, muscarinic 3 muscarinic acetyl choline receptor 3 - HM3, m3 CHRM3 muscarinic receptor; muscarinic acetylcholine receptor M3 165 cholinergic receptor, muscarinic 4 ACETYLCHOLINE RECEPTOR, CHRM4 MUSCARINIC 4 - HM4, muscarinic acetylcholine receptor M4 166 cholinergic receptor, muscarinic 5 muscarinic acetyl choline receptor 5 - HM5, CHRM5 muscarinic acetylcholine receptor M5 167 citron (rho-interacting, serine/threonine CIT polypeptide - CRIK, STK21, citron; rho- CIT kinase 21) interacting, serine/threonine kinase 21 168 creatine kinase, brain CK, CK-MB, B-CK, CKBB, brain creatine CKB kinase; creatine kinase B-chain; creatine kinase-B 169 creatine kinase, muscle CK, CK-MB, CKMM, M-CK, creatine kinase M CKM chain; creatine kinase-M; muscle creatine kinase 170 creatine kinase, mitochondrial 1A CK, CK-MB, CKMT1, UMTCK, acidic-type CKMT1A mitochondrial creatine kinase; creatine kinase, mitochondrial 1 (ubiquitous) 171 creatine kinase, mitochondrial 1B CK, CK-MB, CKMT, CKMT1, UMTCK, acidic- CKMT1B type mitochondrial creatine kinase; creatine kinase, mitochondrial 1 (ubiquitous); ubiquitous mitochondrial creatine kinase precursor variant 172 creatine kinase, mitochondrial 2 (sarcomeric) CK, CK-MB, SMTCK, basic-type mitochondrial CKMT2 creatine kinase; sarcomeric mitochondrial creatine kinase 173 clusterin clusterin, AAG4, APOJ, CLI, KUB1, CLU MGC24903, SGP-2, SGP2, SP-40, TRPM-2, TRPM2, aging-associated protein 4; apolipoprotein J; clusterin (complement lysis inhibitor, SP-40,40, sulfated glycoprotein 2, testosterone-repressed prostate message 2, apolipoprotein J); complement lysis inhibitor; complement-associated protein SP-40; sulfated glycoprotein 2; testosterone-repressed prostate message 2 174 chymase 1, mast cell chymase 1 - CYH, MCT1, chymase 1 CMA1 preproprotein transcript E; chymase 1 preproprotein transcript I; chymase, heart; chymase, mast cell; mast cell protease I 175 chemokine-like receptor 1 chemokine-like receptor 1 - ChemR23, DEZ, CMKLR1 orphan G-protein coupled receptor, Dez 176 chemokine orphan receptor 1 G-protein-coupled receptor RDC1 - GPR159, CMKOR1 RDC1, G protein-coupled receptor 177 CKLF-like MARVEL transmembrane chemokine-like factor 7: chemokine-like factor CMTM7 domain containing 7 super family 7; chemokine-like factor super family member 7 variant 2; chemokine-like factor superfamily 7 178 collagen, type XVIII, alpha 1 collagen type XVIII-alpha(1): alpha 1 type COL18A1 XVIII collagen; antiangiogenic agent; endostatin; multi-functional protein MFP 179 collagen, type I, alpha 1 collagen α-1: Collagen I, alpha-1 polypeptide; COL1A1 Collagen alpha 1 chain; alpha 1 type I collagen; collagen alpha 1 chain type I; collagen of skin, tendon and bone, alpha-1 chain; osteogenesis imperfecta type IV; pro-alpha-1 collagen type 1; type I collagen alpha 1 chain; type I collagen pro alpha 1(I) chain propeptide; type II procollagen gene fragment 180 collagen, type I, alpha 2 collagen α-2: Collagen 1, alpha-2 polypeptide; COL1A2 Collagen of skin, tendon and bone, alpha-2 chain; alpha 2 type I collagen; alpha 2(I)- collagen; alpha-2 collagen type I; osteogenesis imperfecta type IV; type I procollagen 181 collagen III propepeptide (PIIIP) collagen, type III, alpha 1 (Ehlers-Danlos COL3A1 syndrome) type IV, autosomal dominant 182 collagen, type V, alpha 2 collagen type V: AB collagen; Collagen V, COL5A2 alpha-2 polypeptide; alpha 2 type V collagen; collagen, fetal membrane, A polypeptide; type V preprocollagen alpha 2 chain 183 ceruloplasmin (ferroxidase) ceruloplasmin - CP-2, Ceruloplasmin; CP ferroxidase 184 carboxypeptidase A3 (mast cell) carboxypeptidase A3 (CPA3) - mast cell CPA3 carboxypeptidase A3 185 carboxypeptidase B2 (plasma, thrombin activatable fibrinolysis inhibitor CPB2 carboxypeptidase U) (TAFI) - CPU, PCPB, TAFI, carboxypeptidase B-like protein; carboxypeptidase U; plasma carboxypeptidase B2; thrombin-activable fibrinolysis inhibitor; thrombin-activatable fibrinolysis inhibitor 186 carboxypeptidase B2 (plasma, carboxypeptidase B2 (plasma, carboxypeptidase CPB2 carboxypeptidase U) U) - CPU, PCPB, TAFI, (carboxypeptidase B2 (plasma)); carboxypeptidase B-like protein; carboxypeptidase U; plasma carboxypeptidase B2; thrombin-activable fibrinolysis inhibitor; thrombin-activatable fibrinolysis inhibitor 187 carboxypeptidase B2 (plasma, carboxypeptidase B2 (plasma, carboxypeptidase CPB2 carboxypeptidase U) U) - CPU, PCPB, TAFI, (carboxypeptidase B2 (plasma)); carboxypeptidase B-like protein; carboxypeptidase U; plasma carboxypeptidase B2; thrombin-activable fibrinolysis inhibitor; thrombin-activatable fibrinolysis inhibitor 188 carboxypeptidase N, polypeptide 1, 50 kD CPN - CPN, SCPN, carboxypeptidase N CPN1 polypeptide 1 50 kD 189 corticotropin releasing hormone receptor 2 corticotropin releasing hormone receptor 2 - CRHR2 CRFR2 190 carnitine O-octanoyltransferase carnitine O-octanoyltransferase - COT CROT 191 C-reactive protein, pentraxin-related C-Reactive Protein, CRP, PTX1 CRP 192 C-reactive protein, pentraxin-related CRP gene +1444C > T variant - C-Reactive CRP Protein, CRP, PTX1 193 colony stimulating factor 1 (macrophage) colony stimulating factor 1; macrophage colony CSF1 stimulating factor 194 colony stimulating factor 2 (granulocyte- Granulocyte-macrophage colony stimulating CSF2 macrophage) factor - GMCSF, colony stimulating factor 2; granulocyte-macrophage colony stimulating factor; molgramostin; sargramostim 195 colony stimulating factor 3 (granulocyte) colony stimulating factor 3; filgrastim; CSF3 granulocyte colony stimulating factor; lenograstim; pluripoietin 196 casein kinase 1, delta casein kinase 1, delta, isoform 1 - HCKID CSNK1D 197 chondroitin sulfate proteoglycan 2 (versican) versican - VERSICAN CSPG2 198 cardiotrophin 1 cardiotrophin-1 - CT-1, CT1, cardiophin 1 CTF1 199 connective tissue growth factor Connective tissue growth factor - CCN2, CTGF IGFBP8, NOV2, hypertrophic chondrocyte- specific protein 24; insulin-like growth factor- binding protein 8 200 cathepsin B cathepsin B - procathepsin B, APPS; CPSB, APP CTSB secretase; amyloid precursor protein secretase; cathepsin B1; cysteine protease; preprocathepsin B 201 chemokine (C—X—C motif) ligand 1 GRO1, GROa, MGSA, MGSA alpha, MGSA-a, CXCL1 (melanoma growth stimulating activity, NAP-3, SCYB1: GRO1 oncogene (melanoma alpha) growth stimulating activity, alpha); GRO1 oncogene (melanoma growth-stimulating activity); chemokine (C—X—C motif) ligand 1; melanoma growth stimulatory activity alpha 202 chemokine (C—X—C motif) ligand 10 chemokine (C—X—C motif) ligand 10, C7, IFI10, CXCL10 INP10, IP-10, SCYB10, crg-2, gIP-10, mob-1, gamma IP10; interferon-inducible cytokine IP- 10; protein 10 from interferon (gamma)-induced cell line; small inducible cytokine B10; small inducible cytokine subfamily B (Cys-X-Cys), member 10 204 chemokine (C—X—C motif) ligand 2 CINC-2a, GRO2, GROb, MGSA beta, MGSA-b, CXCL2 MIP-2a, MIP2, MIP2A, SCYB2; GRO2 oncogene; melanoma growth stimulatory activity beta 203 chemokine (C—X—C motif) ligand 3 CD182; CD183; CKR-L2; CMKAR3; GPR9; CXCR3 IP10; IP10-R; Mig-R; MigR; G protein-coupled receptor 9; IP 10 receptor; Mig receptor; chemokine (C—X—C) receptor 3; 205 chemokine (C—X—C motif) receptor 4 CXC chemokine receptor 4 - CD184, FB22, CXCR4 HM89, HSY3RR, LAP3, LCR1, LESTR, NPY3R, NPYR, NPYRL, NPYY3R, WHIM, C- X-C chemokine receptor type 4; CD184 antigen; chemokine (C—X—C motif), receptor 4 (fusin); chemokine receptor 4; fusin; leukocyte-derived seven-transmembrane-domain receptor; lipopolysaccharide-associated protein 3; neuropeptide Y receptor Y3; seven transmembrane helix receptor; seven- transmembrane-segment receptor, spleen; stromal cell-derived factor 1 receptor 206 chemokine (C—X—C motif) receptor 6 CXC Chemokine Receptor 6 - BONZO, CD186, CXCR6 STRL33, TYMSTR, G protein-coupled receptor; G protein-coupled receptor TYMSTR 207 cytochrome c, somatic cytochrome c - CYC, HCS, cytochrome c CYCS 208 cytochrome P450, family 11, subfamily B, cytochrome P450 CYP11-B1: cytochrome CYP11B1 polypeptide 1 P450, subfamily XIB (steroid 11-beta- hydroxylase), polypeptide 1; cytochrome p450 X1B1; steroid 11-beta-hydroxylase; steroid 11- beta-monooxygenase 209 cytochrome P450, family 11, subfamily B, aldosterone synthase: aldosterone synthase; CYP11B2 polypeptide 2 cytochrome P450, subfamily XIB (steroid 11- beta-hydroxylase), polypeptide 2; cytochrome P450, subfamily XIB polypeptide 2; steroid 11- beta-monooxygenase; steroid 11-beta/18- hydroxylase; steroid 18-hydroxylase; steroid 18- hydroxylase, aldosterone synthase, P450C18, P450aldo 210 cytochrome P450, family 2, subfamily C, minor allele of CYP2C9*2 - CPC9, CYP2C, CYP2C9 polypeptide 9 CYP2C10, P450 MP-4, P450 PB-1, P450IIC9, cytochrome P-450 S-mephenytoin 4- hydroxylase; cytochrome P450, subfamily IIC (mephenytoin 4-hydroxylase), polypeptide 10; cytochrome P450, subfamily IIC (mephenytoin 4-hydroxylase), polypeptide 9; cytochrome p4502C9; flavoprotein-linked monooxygenase; mephenytoin 4-hydroxylase; microsomal monooxygenase; xenobiotic monooxygenase 211 cysteinyl leukotriene receptor 1 Cysteinyl Leukotriene Receptor 1 - CYSLT1, CYSLTR1 CYSLT1R, CYSLTR, HG55, HMTMF81, LTD4 receptor; cysteinyl leukotriene D4 receptor; cysteinyl leukotriene receptor 1 splice variant V 212 cysteinyl leukotriene receptor 2 Cysteinyl Leukotriene Receptor 2 - CYSLT2, CYSLTR2 CYSLT2R, GPCR, HG57, HPN321, KPG_011, hGPCR21, G protein-coupled receptor; G- protein coupled receptor protein; cysteinyl leukotriene CysLT2 receptor 213 doublecortin and CaM kinase-like 1 DCAMKL1-like serine/threonine kinase - DCAMKL1 doublecortin and CaM kinase-like 1, DCLK, doublecortin-like kinase 214 desmin desmin - CMD11, CSM1, CSM2, intermediate DES filament protein 215 deafness, autosomal dominant 5 deafness, autosomal dominant 5 I - ICERE-1, DFNA5 deafness, autosomal dominant 5 protein; nonsyndromic hearing impairment protein 216 diacetylglycerol o-acyltransferase 2-like 4 acylglycerol acyltransferase-like proteins, DC4, DGAT2L4 DC4L 217 dehydrogenase/reductase(SDR family) RDH17, Rsdr1, SDR1, retSDR1; short-chain DHRS3 member 3 dehydrogenase/reductase 1 218 dehydrogenase/reductase (SDR family) short chain dehydrogenase/reductase - DHRS4 member 4 DHRS4L2, SCAD-SRL, SDR-SRL, humNRDR, NADP(H)-dependent retinol dehydrogenase/reductase B1 isoform; NADP(H)-dependent retinol dehydrogenase/reductase B2 isoform; NADP(H)-dependent retinol dehydrogenase/reductase short isoform; NADP- dependent retinol dehydrogenase; NADPH- dependent retinol dehydrogenase/reductase; peroxisomal short-chain alcohol dehydrogenase 219 DnaJ (Hsp40) homolog, subfamily A, pDJA1 - DJ-2, DjA1, HDJ2, HSDJ, HSJ2, DNAJA1 member 1 HSPF4, hDJ-2, heat shock protein, DNAJ-like 2 220 dolichyl-phosphate (UDP-N- dolichyl-phosphate N- DPAGT1 acetylglucosamine) N- acetylglucosaminephosphotransferase 1 acetylglucosaminephosphotransferase 1 (GlcNAc-1-P transferase) 221 dipeptidase 1 (renal) dipeptidase 1 (DPEP1) - MBD1, MDP, RDP DPEP1 222 dipeptidyl-peptidase 3 dipeptidyl-peptidase 3 - DPPIII, dipeptidyl DPP3 aminopeptidase III; dipeptidyl arylamidase III; dipeptidyl peptidase III; dipeptidylpeptidase 3; dipeptidylpeptidase III 223 dipeptidyl-peptidase 4 (CD26, adenosine dipeptidylpeptidase IV - ADABP, ADCP2, DPP4 deaminase complexing protein 2) CD26, DPPIV, TP103, T-cell activation antigen CD26; adenosine deaminase complexing protein 2; dipeptidylpeptidase IV; dipeptidylpeptidase IV (CD26, adenosine deaminase complexing protein 2) 224 dipeptidyl-peptidase 7 dipeptidylpeptidase 7 - DPP2, DPPII, QPP - DPP7 carboxytripeptidase; dipeptidyl aminopeptidase II; dipeptidyl arylamidase II; dipeptidyl peptidase 7; dipeptidyl-peptidase II precursor; dipeptidylpeptidase 7 225 dipeptidyl-peptidase 9 dipeptidyl-peptidase 9 - DPRP2, dipeptidyl DPP9 peptidase IV-related protein-2; dipeptidylpeptidase 9 226 dopamine receptor D1 dopamine receptor D1 - DADR, DRD1A DRD1 227 dopamine receptor D3 dopamine receptor D3 - D3DR DRD3 228 dopamine receptor D4 dopamine receptor D4 - dopamine receptor D4, DRD4 D4DR: D(2C) dopamine receptor; see also Acc#: L12398; seven transmembrane helix receptor 229 dopamine receptor D5 dopamine receptor D5 - DBDR, DRD1B, DRD5 DRD1L2, D1beta dopamine receptor; dopamine receptor D1B 230 endothelial differentiation, lysophosphatidic endothelial differentiation, lysophosphatidic acid EDG2 acid G-protein-coupled receptor, 2 G-protein-coupled receptor 2 - Gpcr26, LPA1, LPAR1, Mrec1.3, edg-2, rec.1.3, vzg-1, ventricular zone gene 1 231 endothelial differentiation, sphingolipid G- endothelial differentiation sphingolipid G- EDG3 protein-coupled receptor, 3 protein-coupled receptor 3 - EDG-3, LPB3, S1P3, S1PR3, G protein-coupled receptor, endothelial differentiation gene-3; S1P receptor EDG3; sphingosine 1-phosphate receptor 3 232 endothelial differentiation, sphingolipid G- endothelial differentiation sphingolipid G- EDG5 protein-coupled receptor, 5 protein-coupled receptor 5 polypeptide - AGR16, EDG-5, Gpcr13, H218, LPB2, S1P2, S1PR2, S1P receptor EDG5; sphingosine 1-phosphate receptor 2 233 endothelial differentiation, lysophosphatidic LPC1; S1P4; SIPR4; SLP4; sphingosine 1- EDG6 acid G-protein-coupled receptor, 6 phosphate receptor 4; phingosine 1-phosphate receptor Edg-6; endothelial differentiation; G protein coupled receptor 6; G protein-coupled receptor 6 234 endothelial differentiation, Iysophosphatidic endothelial differentiation lysophosphatic acid EDG7 acid G-protein-coupled receptor, 7 G-protein-coupled receptor 7 - Edg-7, GPCR, HOFNH30, LP-A3, LPA3, LPAR3, LPA receptor EDG7; calcium-mobilizing lysophosphatidic acid receptor LP-A3; endothelial cell differentiation gene 7 235 endothelin 1 endothelin-1 - ET1 EDN1 236 endothelin 1 endothelin-1 - ET1 EDN1 237 endothelin 2 EDN2: ET2 EDN2 238 endothelin 3 endothelin III: ET3, ET3, truncated endothelin 3 EDN3 239 endothelin receptor type A endothelin receptor type A - ETA, ETRA, G EDNRA protein-coupled receptor 240 endothelin receptor type B G protein-coupled receptor ETB - ABCDS, ETB, EDNRB ETRB, HSCR, HSCR2, Hirschsprung disease 2 967 epidermal growth factor (beta-urogastrone) epidermal growth factor (beta-urogastrone), EGF URG, urogastrone 968 elastase 2, neutrophil Elastase - HLE, HNE, NE, PMN-E, bone ELA2 marrow serine protease; leukocyte elastase; medullasin; polymorphonuclear elastase 241 elastin (supravalvular aortic stenosis, elastin: Williams syndrome region; elastin; ELN Williams-Beuren syndrome) tropoelastin 242 endoglin (Osler-Rendu-Weber syndrome 1) Endoglin - CD105, END, HHT1, ORW, ORW1, ENG Endoglin; endoglin 969 enolase 2 (gamma, neuronal) enolase, gamma, neurone-specific - 2-phospho- ENO2 D-glycerate hydrolyase; enolase 2; neural enolase; neuron specific gamma enolase; neurone-specific enolase 243 enolase 3 (beta, muscle) β-enolase: 2-phospho-D-glycerate hydrolyase; ENO3 ENO3, muscle enolase 3 beta; beta enolase; enolase 3; enolase-3, beta, muscle; muscle specific enolase; skeletal muscle enolase 244 ectonucleotide Sphingomyelinase - ALK-SMase, alkaline ENPP7 pyrophosphatase/phosphodiesterase 7 sphingomyelinase 245 ectonucleoside triphosphate CD39, ATPDase, CD39, NTPDase-1, CD39 ENTPD1 diphosphohydrolase 1 antigen; ecto-ATP diphosphohydrolase; ecto- apyrase; lymphoid cell activation antigen 246 erythropoietin erythropoietin (EPO) - epoetin EPO 247 esterase A4 esterase - Esterase-A4 ESA4 248 esterase B3 esterase - Esterase-B3 ESB3 249 esterase D/formylglutathione hydrolase esterase - Esterase D; S-formylglutathione ESD hydrolase; esterase 10 250 ethanolamine kinase 1 ethanolamine kinase 1 (EKI1) - EKI, EKI1 ETNK1 251 coagulation factor X Prothrombin time (PT) (Entered Prothrombin F10 into Entrez), FX, FXA, Stuart factor; Stuart- Prower factor; factor Xa; prothrombinase 252 coagulation factor XI (plasma thromboplastin Factor XI, activated partial thromboplasmin time F11 antecedent) (APTT), (entered thromboplastin and Factor XI into Entrez), FXI, platelet coagulation factor XI 253 F11 receptor junction adhesion molecules-1, 2, and 3 - F11R CD321, JAM, JAM-1, JAM-A, JAM1, JAMA, JCAM, KAT, PAM-1, junctional adhesion molecule 1; junctional adhesion molecule A; platelet F11 receptor; platelet adhesion molecule 254 coagulation factor XII (Hageman factor) Coagulation factor XII - Hageman factor; F12 coagulation factor XII 255 coagulation factor XIII, A1 polypeptide Coagulation Factor XIII - Coagulation factor F13A1 XIII A chain; Coagulation factor XIII, A polypeptide; TGase; (coagulation factor XIII, A1 polypeptide); coagulation factor XIII A1 subunit; factor XIIIa, coagulation factor XIII A1 subunit 256 coagulation factor XIII, A1 polypeptide FXIII gene L34 polymorphism - Coagulation F13A1 factor XIII A chain; Coagulation factor XIII, A polypeptide; TGase; (coagulation factor XIII, A1 polypeptide); coagulation factor XIII A1 subunit; factor XIIIa 257 coagulation factor XIII, B polypeptide Coagulation Factor XIII - TGase; coagulation F13B factor XIII B subunit 258 coagulation factor II (thrombin) Prothrombin time (PT) (Entered Prothrombin F2 into Entrez), PT, coagulation factor II; prothrombin; prothrombin B-chain; serine protease 259 coagulation factor II (thrombin) prothrombin G20210A mutation - PT, F2 coagulation factor II; prothrombin; prothrombin B-chain; serine protease 260 coagulation factor II (thrombin) receptor protease activated receptor 1 - CF2R, HTR, F2R PAR1, TR, coagulation factor II receptor; protease-activated receptor 1; thrombin receptor 261 coagulation factor II (thrombin) receptor protease-activated receptor 1 (a GPCR) - NK2R, F2R NKNAR, SKR, TAC2R, NK-2 receptor; Tachykinin receptor 2 (substance K receptor; neurokinin 2 receptor); neurokinin 2 receptor; neurokinin-2 receptor; seven transmembrane helix receptor; tachykinin 2 receptor (substance K receptor, neurokinin 2 receptor) 262 coagulation factor II (thrombin) receptor-like 1 G Protein Coupled Proteinase Activated F2RL1 Receptor 2 - GPR11, PAR2, G protein-coupled receptor-11; protease-activated receptor 2 263 coagulation factor II (thrombin) receptor-like 2 G-protein coupled proteinase activated receptor 3 - F2RL2 PAR3, Coagulation factor II receptor-like 2 (protease-actovated receptor 3); coagulation factor II receptor-like 2; protease-activated receptor 3; thrombin receptor-like 2 264 coagulation factor II (thrombin) receptor-like 3 G Protein Coupled Proteinase Activated F2RL3 Receptor 4 - PAR4, protease-activated receptor-4 265 coagulation factor III (thromboplastin, tissue activated partial thromboplasmin time (APTT), F3 factor) (entered thromboplastin into Entrez) CD142, TF, TFA, coagulation factor III; tissue factor 266 coagulation factor V (proaccelerin, labile Factor V gene-mutation at nucleotide position F5 factor) 1691 - FVL, PCCF, factor V, activated protein c cofactor; coagulation factor V; coagulation factor V jinjiang A2 domain; factor V Leiden; labile factor 267 coagulation factor V (proaccelerin, labile Factor V, FVL, PCCF, factor V, activated F5 factor) protein c cofactor; coagulation factor V; coagulation factor V jinjiang A2 domain; factor V Leiden; labile factor 268 coagulation factor VII (serum prothrombin FVII coagulation protein; coagulation factor VII; F7 conversion accelerator) cogulation factor VII; eptacog alfa 269 coagulation factor VII (serum prothrombin factor VII - FVII coagulation protein; F7 conversion accelerator) coagulation factor VII; cogulation factor VII; eptacog alfa 270 coagulation factor VIII, procoagulant Factor VIII, AHF, F8 protein, F8B, F8C, FVIII, F8 component (hemophilia A) HEMA, coagulation factor VIII; coagulation factor VIII, isoform b; coagulation factor VIIIc; factor VIII F8B; procoagulant component, isoform b 271 coagulation factor IX Coagulation Factor IX - Christmas factor; F9 Coagulation factor IX (plasma thromboplastic component); Factor 9; Factor IX; coagulant factor IX; coagulation factor IX; truncated coagulation factor IX 272 fatty acid binding protein 2, intestinal intestinal fatty acid binding protein - FABPI, I- FABP2 FABP, Fatty acid-binding protein, intestinal; intestinal fatty acid binding protein 2 273 fatty acid binding protein 3, muscle and heart fatty acid-binding protein, heart-type (H FABP) - FABP3 (mammary-derived growth inhibitor) Fatty acid-binding protein 3, muscle; fatty acid binding protein 11; fatty acid binding protein 3; mammary-derived growth inhibitor 274 fibroblast activation protein, alpha fibroblast activation protein - DPPIV, FAPA, FAP SEPRASE, fibroblast activation protein, alpha subunit; integral membrane serine protease 275 Fas (TNF receptor superfamily, member 6) soluble Fas/APO-1 (sFas), ALPS1A, APO-1, FAS APT1, Apo-1 Fas, CD95, FAS1, FASTM, TNFRSF6, APO-1 cell surface antigen; CD95 antigen; Fas antigen; apoptosis antigen 1; tumor necrosis factor receptor superfamily, member 6 276 Fas ligand (TNF superfamily, member 6) Fas ligand (sFasL), APT1LG1, CD178, CD95L, FASLG FASL, TNFSF6, CD95 ligand; apoptosis (APO- 1) antigen ligand 1; fas ligand; tumor necrosis factor (ligand) superfamily, member 6 277 Fc fragment of IgG, low affinity IIa, receptor FcgammaRIIa - CD32, CD32A, CDw32, FCG2, FCGR2A (CD32) FCGR2, FCGR2A1, FcGR, IGFR2, Fc fragment of IgG, low affinity IIa, receptor for (CD32) 278 Fc fragment of IgG, low affinity IIa, receptor FcgammaRIIa - CD32, CD32A, CDw32, FCG2, FCGR2A (CD32) FCGR2, FCGR2A1, FcGR, IGFR2, Fc fragment of IgG, low affinity IIa, receptor for (CD32) 279 Fc fragment of IgG, low affinity IIIa, receptor FcgammaRIIA-R/H131, the FcgammaRIIIB- FCGR3A (CD16a) Na1/Na2, and the FcgammaRIIIA-F/V158 polymorphisms (entered FcgammaRIIIA), CD16, CD16a, FCG3, FCGR3, IGFR3, Fc fragment of IgG, low affinity III, receptor for (CD16); Fc fragment of IgG, low affinity IIIa, receptor for (CD16); Fc gamma receptor III-A; Fc-gamma receptor IIIb (CD16); FcgammaRIIIA 280 Fc fragment of IgG, low affinity IIIb, receptor FcgammaRIIA-R/H131, the FcgammaRIIIB- FCGR3B (CD16b) Na1/Na2, and the FcgammaRIIIA-F/V158 polymorphisms (entered FcgammaRIIIB), CD16, CD16b, FCG3, FCGR3, Fc fragment of IgG, low affinity IIIb, receptor for (CD16); Fc-gamma receptor; Fc-gamma receptor IIIB; Fc-gamma receptor IIIb (CD 16); low affinity immunoglobulin gamma Fc region receptor III-B 281 ficolin (collagen/fibrinogen domain Fibrinogen, EBP-37, FCNL, P35, ficolin-2, L- FCN2 containing lectin) 2 (hucolin) ficolin; collagen/fibrinogen domain-containing protein 2; ficolin (collagen/fibrinogen domain- containing lectin) 2; ficolin (collagen/fibrinogen domain-containing lectin) 2 (hucolin); ficolin 2; ficolin B; hucolin; serum lectin p35 282 ficolin (collagen/fibrinogen domain Fibrinogen, FCNH, HAKA1, H-ficolin; Hakata FCN3 containing) 3 (Hakata antigen) antigen; collagen/fibrinogen domain-containing lectin 3 p35; collagen/fibrinogen domain- containing protein 3; ficolin (collagen/fibrinogen domain-containing) 3 (Hakata antigen); ficolin 3; ficolin-3 283 free fatty acid receptor 1 G protein-coupled receptor 40 - FFA1R, GPR40, FFAR1 G protein-coupled receptor 40 284 free fatty acid receptor 3 G protein coupled receptor 41 - FFA3R, GPR41, FFAR3 G protein-coupled receptor 41 285 fibrinogen alpha chain Fibrin, Fib2, fibrinogen, A alpha polypeptide; FGA fibrinogen, alpha chain, isoform alpha preproprotein; fibrinogen, alpha polypeptide 286 fibrinogen beta chain Fibrin, B beta polypeptide; fibrinogen, beta FGB chain; fibrinogen, beta chain, preproprotein, fibrinopeptide B beta 1-42, fibrinopeptide B beta 15-42 287 fibroblast growth factor 1 (acidic) fibroblast growth factor 1 (acidic): endothelial FGF1 cell growth factor, alpha; endothelial cell growth factor, beta; heparin-binding growth factor 1 precursor 288 fibroblast growth factor 2 (basic) Fibrin, BFGF, FGFB, HBGH-2, basic fibroblast FGF2 growth factor; basic fibroblast growth factor bFGF; fibroblast growth factor 2; heparin- binding growth factor 2 precusor; prostatropin 289 fibrinogen gamma chain Fibrin, fibrinogen, gamma chain; fibrinogen, FGG gamma polypeptide 290 fibroblast growth factor (acidic) intracellular acidic fibroblast growth factor - FGFIBP, FIBP- FIBP binding protein 1, FGF intracellular binding protein 291 FK506 binding protein 1A, 12 kDa FK506 binding protein 1A - FKBP-12, FKBP1, FKBP1A FKBP12, FKBP12C, PKC12, PKCI2, PPIASE, FK506 binding protein 1A (12 kD); FK506- binding protein 1; FK506-binding protein 12; FK506-binding protein 1A; FK506-binding protein 1A (12 kD); FK506-binding protein, T- cell, 12-kD; immunophilin FKBP12; peptidyl- prolyl cis-trans isomerase; protein kinase C inhibitor 2; rotamase 292 formyl peptide receptor-like 1 N-Formyl Peptide Receptor Like 1 - ALXR, FPRL1 FMLP-R-II, FMLPX, FPR2A, FPRH1, FPRH2, HM63, LXA4R, lipoxin A4 receptor (formyl peptide receptor related) 293 formyl peptide receptor-like 2 formyl peptide receptor-like 2 polypeptide - FPRL2 FML2_HUMAN, FMLPY, FPRH1, FPRH2, RMLP-R-I, FMLP-related receptor II 294 fibronectin type III and SPRY domain Fibronectin, GLFND, MIR1, fibronectin type 3 FSD1 containing 1 and SPRY (spla, ryanodine) domain containing (with coiled-coil motif) 1; fibronectin type 3 and SPRY domain containing 1; fibronectin type 3 and SPRY domain-containing protein 295 follistatin follistatin - FS FST 296 ferritin FTH; PLIF; FTHL6; PIG15; apoferritin; placenta FTH1 immunoregulatory factor; proliferation-inducing protein 15 297 ferritin, light polypeptide ferritin - L apoferritin; ferritin L subunit; ferritin FTL L-chain; ferritin light chain; ferritin light polypeptide-like 3 298 ferritin mitochondrial ferritin - ferritin H subunit; ferritin heavy chain- FTMT like; mitochondrial ferritin 299 FYN oncogene related to SRC, FGR, YES FYN oncogene related to SRC - proto-oncogene FYN tyrosine-protein kinase FYN - SLK, SYN, OKT3-induced calcium influx regulator; c-syn protooncogene; protein-tyrosine kinase fyn; proto-oncogene tyrosine-protein kinase fyn; src- like kinase; src/yes-related novel gene; tyrosine kinase p59fyn(T) 300 FYN oncogene related to SRC, FGR, YES proto-oncogene tyrosine-protein kinase FYN - FYN SLK, SYN, OKT3-induced calcium influx regulator; c-syn protooncogene; protein-tyrosine kinase fyn; proto-oncogene tyrosine-protein kinase fyn; src-like kinase; src/yes-related novel gene; tyrosine kinase p59fyn(T) 301 growth arrest and DNA-damage-inducible, Gadd45 - DDIT1, GADD45, DNA damage- GADD45A alpha inducible transcript 1; DNA damage-inducible transcript-1; DNA-damage-inducible transcript 1 302 galanin GALN; GLNN; galanin-related peptide GAL 303 glucagon receptor glucagon receptor - GGR, GCGR 304 growth differentiation factor 15 NSAID (nonsteroidal anti-inflammatory drug)- GDF15 activated protein 1; PTGF-beta; prostate differentiator factor 305 glial fibrillary acidic protein glial fibrillary acidic protein - intermediate GFAP filament protein 306 gamma-glutamyltransferase 1 GGT; GTG; CD224; glutamyl transpeptidase; GGT1 gamma-glutamyl transpeptidase 307 gamma-glutamyltransferase 1 gamma-glutamyltransferase (GGT) - CD224, GGT1 GGT, GTG, gamma-glutamyl transpeptidase; glutamyl transpeptidase 308 gamma-glutamyltransferase 2 gamma-glutamyltransferase (GGT) - GGT GGT2 309 growth hormone 1 growth hormone - GH, GH-N, GHN, hGH-N, GH1 pituitary growth hormone 310 growth hormone receptor growth hormone receptor - GHBP, growth GHR hormone binding protein; growth hormone receptor variant; serum binding protein; somatotropin receptor 311 ghrelin/obestatin preprohormone ghrelin - MTLRP, ghrelin, obestatin, ghrelin; GHRL ghrelin precursor; ghrelin, growth hormone secretagogue receptor ligand; motilin-related peptide 312 growth hormone secretagogue receptor Growth Hormone Secretagogue Receptor - GHSR ghrelin receptor 313 gap junction protein, alpha 1, 43 kDa connexin 43: connexin 43; gap junction protein, GJA1 (connexin 43) alpha-like; oculodentodigital dysplasia (syndactyly type III) 314 glucagon-like peptide 1 receptor glucagon-like peptide 1 receptor - GLP1R 315 glucagon-like peptide 2 receptor glucagon-like peptide 2 receptor - GLP2R 316 guanine nucleotide binding protein (G G-protein, α-subunit of inhibitory (GI-α) - GIP, GNAI2 protein), alpha inhibiting activity polypeptide 2 GNAI2B, GTP-binding regulatory protein Gi alpha-2 chain 317 guanine nucleotide binding protein (G G-protein beta-3 subunit - G protein, beta-3 GNB3 protein), beta polypeptide 3 subunit; GTP-binding regulatory protein beta-3 chain; guanine nucleotide-binding protein G(I)/G(S)/G(T) beta subunit 3; guanine nucleotide-binding protein, beta-3 subunit; hypertension associated protein; transducin beta chain 3 318 glutamic-oxaloacetic transaminase 2, aspartate aminotransferase, mitochondrial - GOT2 mitochondrial aspartate aminotransferase 2 319 glycoprotein Ib (platelet), alpha polypeptide GPIb receptor - BSS, CD42B, CD42b-alpha, GP1BA GP1B, platelet glycoprotein Ib alpha polypeptide; platelet membrane glycoprotein 1b- alpha subunit 320 glycerol phosphatase, beta- GPB - GPB 321 glycosylphosphatidylinositol specific glycosyl phosphatidyl inositol-specific GPLD1 phospholipase D1 phospholipase D - GPIPLD, GPIPLDM, PIGPLD, PIGPLD1, GPI-specific phospholipase D; glycoprotein phospholipase D; glycosylphosphatIdylinositol-specific phospholipase D; glycosylphosphatidylinositol specific phospholipase D1, isoform 2; phospholipase D, phosphatidylinositol-glycan- specific 322 G protein-coupled receptor 1 G protein-coupled receptor 1 GPR1 323 G protein-coupled receptor 103 G protein-Coupled Receptor 103 - AQ27, GPR103 SP9155, QRFP receptor 324 G protein-coupled receptor 107 Lung Seven Transmembrane Receptor 1 - GPR107 LUSTR1, lung seven transmembrane receptor 1 325 G protein-coupled receptor 109A hm74-like g protein coupled receptor - HM74a, GPR109A HM74b, PUMAG, Puma-g, G protein-coupled receptor HM74a 326 G protein-coupled receptor 109B G-Protein Coupled Receptor 74 - HM74, GPR109B PUMAG, Puma-g, GTP-binding protein; putative chemokine receptor 327 G protein-coupled receptor 12 G protein-coupled receptor 12 - GPCR21 GPR12 328 G protein-coupled receptor 132 G2A-RECEPTOR - G2A, G protein-coupled GPR132 receptor G2A; G2 accumulation protein 329 G protein-coupled receptor 15 G Protein-Coupled Receptor 15 - GPR15 330 G protein-coupled receptor 151 galanin receptor-like GPCR - GALRL, GPCR, GPR151 PGR7, galanin receptor-like; putative G-protein coupled receptor 331 G protein-coupled receptor 17 G Protein-Coupled Receptor 17 - GPR17 332 G protein-coupled receptor 171 G Protein-Coupled Receptor H963 - H963, GPR171 platelet activating receptor homolog 333 G protein-coupled receptor 173 seven transmembrane G protein coupled receptor - GPR173 SREB3, G-protein coupled receptor 173; super conserved receptor expressed in brain 3 334 G protein-coupled receptor 18 G Protein Coupled Receptor 18 - GPR18 335 G protein-coupled receptor 19 G-protein coupled receptor 19 - GPR19 336 G protein-coupled receptor 20 G protein-coupled receptor 20 - GPR20 337 G protein-coupled receptor 21 G protein-coupled orphan receptor 21 - GPR21 338 G protein-coupled receptor 22 G protein Coupled Receptor 22 - tcag7.108 GPR22 339 G protein-coupled receptor 23 G protein-Coupled P2Y Purinoreceptor 9 - GPR23 LPAR4, P2RY9, P2Y5-LIKE, P2Y9 340 G protein-coupled receptor 25 G Protein-Coupled receptor 25 GPR25 341 G protein-coupled receptor 26 G-protein coupled receptor 26 - GPR26 342 G protein-coupled receptor 27 G-protein coupled receptor 27 - SREB1, super GPR27 conserved receptor expressed in brain 1, GPR27 343 G protein-coupled receptor 3 G protein coupled receptor 3 polypeptide - GPR3 ACCA, adenylate cyclase constitutive activator 344 G protein-coupled receptor 30 G-protein coupled receptor 30 - CMKRL2, GPR30 DRY12, FEG-1, GPCR-Br, LERGU, LERGU2, LyGPR, chemokine receptor-like 2; flow- induced endothelial G-protein coupled receptor; leucine rich protein in GPR30 3′UTR 345 G protein-coupled receptor 31 G protein-coupled receptor 31 - (G protein- GPR31 coupled receptor 31) 346 G protein-coupled receptor 32 G-Protein Coupled Receptor 32 - GPR32 347 G protein-coupled receptor 34 G protein-coupled receptor 34 - GPR34 348 G protein-coupled receptor 35 G protein-coupled receptor 35 - GPR35 349 G protein-coupled receptor 35 G-Protein Coupled Receptor R35 - GPR35 350 G protein-coupled receptor 37 (endothelin endothelin receptor type B-like protein 1 - GPR37 receptor type B-like) EDNRBL, PAELR, hET(B)R-LP, G protein- coupled receptor 37; Parkin-associated endothelin receptor-like receptor; endothelin receptor type B-like 351 G protein-coupled receptor 37 (endothelin G-protein-coupled receptor 37 - EDNRBL, GPR37 receptor type B-like) PAELR, hET(B)R-LP, G protein-coupled receptor 37; Parkin-associated endothelin receptor-like receptor; endothelin receptor type B-like, BG37 352 G protein-coupled receptor 39 G-protein-coupled-receptor 39 - GPR39 353 G protein-coupled receptor 4 G Protein Coupled Receptor 4 GPR4 354 G protein-coupled receptor 42 G protein-coupled receptor 42 - FFAR1L, GPR42 GPR41L 355 G protein-coupled receptor 44 G-protein coupled receptor 58 - CD294, CRTH2, GPR44 chemoattractant receptor-homologous molecule expressed on TH2 cells 356 G protein-coupled receptor 45G protein- G-Protein Coupled Receptor 45 - PSP24, GPR45 coupled receptor 45 PSP24(ALPHA), PSP24A, high-affinity lysophosphatidic acid receptor 357 G protein-coupled receptor 50 G-protein coupled receptor 50 - H9 GPR50 358 G protein-coupled receptor 52 G-protein coupled receptor 52 - GPR52 359 G protein-coupled receptor 6 G-protein coupled receptor 6 polypeptide - GPR6 360 G protein-coupled receptor 64 G Protein-coupled Receptor 64 - HE6, TM7LN2, GPR64 G protein-coupled receptor, epididymis-specific (seven transmembrane family) 361 G protein-coupled receptor 65 G-Protein Coupled Receptor 65 - TDAG8, GPR65 hTDAG8, T-cell death-associated gene 8 362 G protein-coupled receptor 68 ovarian cancer G-protein coupled receptor 1 - GPR68 OGR1, ovarian cancer G protein-coupled receptor, 1 363 G protein-coupled receptor 75 G protein-coupled receptor 75 - GPR-chr2 GPR75 364 G protein-coupled receptor 77 G protein-coupled receptor 77 - C5L2, GPF77, G GPR77 protein-coupled receptor C5L2 365 G protein-coupled receptor 82 G protein-coupled receptor 82 GPR82 366 G protein-coupled receptor 83 G-Protein Coupled Receptors 72 - GIR, GPR72, GPR83 G protein-coupled receptor 72; G-protein coupled receptor 72; glucocorticoid induced recept 367 G protein-coupled receptor 84 G protein-coupled receptor 84 - EX33, GPCR4, GPR84 inflammation-related G protein-coupled receptor EX33 368 G protein-coupled receptor 85 G protein-coupled receptor 85 - SREB, SREB2, GPR85 seven transmembrane helix receptor; super conserved receptor expressed in brain 2 369 G protein-coupled receptor 87 G protein-Coupled Receptor 87 - FKSG78, GPR87 GPR95, KPG_002, G protein-coupled receptor 95 370 G protein-coupled receptor 88 G protein-coupled receptor 88 - STRG, G- GPR88 protein coupled receptor 88 371 G protein-coupled receptor 92 G-protein coupled receptor 92 - GPR93, GPR92 KPG_010, G-protein coupled receptor; internal gene name of KIRIN laboratory: H95; putative G protein-coupled receptor 92 372 G protein-coupled receptor, family C, group G Protein-Coupled Receptor, Family C, Group 5, GPRC5B 5, member B Member B - RAIG-2, RAIG2, G protein-coupled receptor, family C, group 1, member B; retinoic acid responsive gene protein 373 G protein-coupled receptor, family C, group G Protein-Coupled Receptor Family C Group 5 GPRC5C 5, member C Member C - RAIG-3, RAIG3, G protein-coupled receptor family C, group 5, member C; orphan G-protein coupled receptor; retinoic acid responsive gene protein 374 G protein-coupled receptor kinase 1 G protein-dependent receptor kinase 1 (GRK1) - GRK1 GPRK1, RHOK, RK, rhodopsin kinase 375 G protein-coupled receptor kinase 4 G protein-coupled receptor 4 kinase - GPRK2L, GRK4 GPRK4, GRK4a, IT11, G protein-coupled receptor kinase 2-like (Drosophila); G-protein coupled receptor kinase 4 376 G protein-coupled receptor kinase 5 G protein-coupled receptor 5 kinase - GPRK5 GRK5 377 G protein-coupled receptor kinase 6 G protein-coupled receptor 6 kinase - GPRK6 GRK6 378 G protein-coupled receptor kinase 7 G protein coupled receptor kinase 7 - GRK7 379 glutamate receptor, metabotropic 1 metabotropic glutamate receptor 5 - GPRC1A, GRM1 GRM1A, MGLUR1, MGLUR1A, mGlu1 380 glutamate receptor, metabotropic 2 metabotropic glutamate receptor 2 - GLUR2, GRM2 GPRC1B, MGLUR2, mGlu2, glutamate receptor homolog 381 glutamate receptor, metabotropic 4 metabotropic glutamate receptor 4 - GPRC1D, GRM4 MGLUR4, mGlu4 382 glutamate receptor, metabotropic 5 metabotropic glutamate receptor 3 - GPRC1E, GRM5 MGLUR5, MGLUR5A, MGLUR5B, mGlu5 383 glutamate receptor, metabotropic 7 metabotropic glutamate receptor 7 - GLUR7, GRM7 GPRC1G, MGLUR7, mGlu7 384 glutamate receptor, metabotropic 8 metabotropic glutamate receptor 8 - GLUR8, GRM8 GPRC1H, MGLUR8, mGlu8 385 glycogen synthase kinase 3 alpha glycogen synthase kinase 3 alpha - GSK3A 386 glycogen synthase kinase 3 beta glycogen synthase kinase 3 beta - GSK3B 387 glutathione S-transferase M1 Glutathione S transferase M1/GST mu-1 GSTM1 (GSTM1), GST1, GSTM1-1, GSTM1a-1a, GSTM1b-1b, GTH4, GTM1, H-B, MU, MU-1, GST class-mu 1; HB subunit 4; S- (hydroxyalkyl)glutathione lyase; glutathione S- alkyltransferase; glutathione S- aralkyltransferase; glutathione S-aryltransferase; glutathione S-transferase, Mu-1 388 glutathione S-transferase M2 (muscle) GST4, GSTM, GSTM2-2, GTHMUS, GST GSTM2 class-mu 2; GST, muscle; S- (hydroxyalkyl)glutathione lyase M2; glutathione S-alkyltransferase M2; glutathione S- aralkyltransferase M2; glutathione S- aryltransferase M2; glutathione S-transferase 4; glutathione S-transferase M1; glutathione S- transferase M2; glutathione S-transferase Mu 2 389 glutathione S-transferase theta 1 Glutathione S transferase T1/GST theta-1 GSTT1 (GSTT1) 390 guanylate cyclase 1, soluble, alpha 2 GC-SA2, GUC1A2 GUCY1A2 391 guanylate cyclase 1, soluble, alpha 3 guanylate cyclase, α1-subunit of the soluble - GUCY1A3 GC-SA3, GUC1A3, GUCA3, GUCSA3, GC-S- alpha-1; soluble guanylate cyclase large subunit 392 guanylate cyclase 1, soluble, beta 3 guanylatcyclase, β1-subunit of the soluble - GC- GUCY1B3 S-beta-1, GC-SB3, GUC1B3, GUCB3, GUCSB3 393 factor VII activating protein; hepatocyte hyaluronan binding protein 2 HABP2 growth factor activator-like protein; hyuronan-binding protein 2; hyaluronic acid binding protein 2; plasma hyaluronan binding protein 394 hyaluronan synthase 2 hyaluronan synthase 2 (HAS-2) - HAS2 395 hemoglobin, alpha 1 circulating CD31+ apoptotic microparticles in HBA1 peripheral blood, (Entered CD31 into Entrez), CD31, alpha 1 globin; alpha one globin; alpha-1 globin; alpha-1-globin; alpha-2 globin; alpha-2- globin; hemoglobin alpha 1 globin chain; hemoglobin alpha 2; hemoglobin alpha-1 chain; hemoglobin alpha-2 396 hemoglobin, alpha 1 hemoglobin, alpha 1, CD31, MGC126895, HBA1 MGC126897, alpha 1 globin; alpha one globin; alpha-1 globin; alpha-1-globin; alpha-2 globin; alpha-2-globin; hemoglobin alpha 1 globin chain; hemoglobin alpha 2; hemoglobin alpha-1 chain; hemoglobin alpha-2 397 hypocretin (orexin) receptor 2 G Protein- Coupled Receptor OX1R - OX2R- HCRTR2 hypocretin receptor-2; orexin receptor 2; orexin receptor-2 398 hexosaminidase A (alpha polypeptide) hexosaminidase A - TSD, N-acetyl-beta- HEXA glucosaminidase; beta-N-acetylhexosaminidase; hexosaminidase A 399 hexosaminidase B (beta polypeptide) hexosaminidase B - ENC-1AS, N-acetyl-beta- HEXB glucosaminidase; hexosaminidase B 400 hepatocyte growth factor (hepapoietin A; Hepatocyte growth factor (HGF) - F-TCF, HGF scatter factor) HGFB, HPTA, SF, fibroblast-derived tumor cytotoxic factor; hepatocyte growth factor; hepatopoietin A; lung fibroblast-derived mitogen; scatter factor 401 hypoxia-inducible factor 1, alpha subunit HIF - HIF-1alpha, HIF1-ALPHA, MOP1, HIF1A (basic helix-loop-helix transcription factor) PASD8, ARNT interacting protein; hypoxia- inducible factor 1, ATPase Ca++ binding protein: ARNT interacting protein; hypoxia- inducible factor 1, alpha subunit; member of PAS superfamily 1 402 hepatocyte nuclear factor 4, alpha Hepatocyte nuclear factor 4, alpha - HNF4, HNF4A HNF4a7, HNF4a8, HNF4a9, MODY, MODY1, NR2A1, NR2A21, TCF, TCF14 Other Designations: HNF4-alpha; hepatic nuclear factor 4 alpha; hepatocyte nuclear factor 4 alpha; transcription factor-14 403 hepatocyte nuclear factor 4, alpha hepatocyte nuclear factor 4 - HNF4, HNF4a7, HNF4A HNF4a8, HNF4a9, MODY, MODY1, NR2A1, NR2A21, TCF, TCF14, HNF4-alpha; hepatic nuclear factor 4 alpha; hepatocyte nuclear factor 4 alpha; transcription factor-14 404 haptoglobin haptoglobin - hp2-alpha HP 405 hepsin (transmembrane protease, serine 1) protease hepsin - TMPRSS1 HPN 406 hemopexin haemopexin - hemopexin HPX 407 hydroxysteroid (11-beta) dehydrogenase 2 11betaHSD2: AME; AME1; HSD2; HSD11K HSD11B2 408 heat shock 70 kDa protein 1A dnaK-type molecular chaperone HSP70-1; heat HSPA1A shock 70 kD protein 1A; heat shock 70 kDa protein 1B; heat shock-induced protein 409 heat shock 70 kDa protein 8 Heat shock protein 70, HSC54, HSC70, HSC71, HSPA8 HSP71, HSP73, HSPA10, LAP1, NIP71, LPS- associated protein 1; N-myristoyltransferase inhibitor protein 71; constitutive heat shock protein 70; heat shock 70 kD protein 8; heat shock 70 kd protein 10; heat shock cognate protein 54; heat shock cognate protein, 71-kDa; lipopolysaccharide-associated protein 1; uncharacterized bone marrow protein BM034 410 heat shock 70 kDa protein 9 (mortalin) CSA, GRP75, HSPA9B, MGC4500, MOT, HSPA9 MOT2, MTHSP75, PBP74, mot-2; 75 kDa glucose regulated protein; heat shock 70 kD protein 9; heat shock 70 kD protein 9B (mortalin- 2); heat shock 70 kDa protein 9B; heat shock 70 kDa protein 9B (mortalin-2); mortalin, perinuclear; p66-mortalin; peptide-binding protein 74; stress-70 protein, mitochondrial 411 heat shock 70 kDa protein 9B (mortalin-2) heat shock 70 kDa protein 9B - CSA, GRP75, HSPA9B HSPA9, MOT, MOT2, MTHSP75, PBP74, mot- 2, 75 kDa glucose regulated protein; heat shock 70 kD protein 9; heat shock 70 kD protein 9B (mortalin-2); heat shock 70 kDa protein 9B; mortalin, perinuclear; p66-mortalin; peptide- binding protein 74; stress-70 protein, mitochondrial 412 5-hydroxytryptamine (serotonin) receptor 1F 5-hydroxytryptamine receptor 1F - 5-HT1F, HTR1F HTR1EL, MR7, 5-hydroxytryptamine receptor 1F; GENE RECEPTEUR 5HT6 HUMAIN 413 5-hydroxytryptamine (serotonin) receptor 2A 5-hydroxytryptamine 2A polypeptide, 5HT2a HTR2A polypeptide - 5-HT2A, HTR2, 5-HT2 receptor 414 5-hydroxytryptamine (serotonin) receptor 2B 5-hydroxytryptamine (serotonin) receptor 2B - 5- HTR2B HT(2B), 5-HT2B 415 5-hydroxytryptamine (serotonin) receptor 2C 5-hydroxytryptamine receptor 2C polypeptide - HTR2C 5-HT2C, HTR1C 416 5-hydroxytryptamine (serotonin) receptor 3A 5-Hydroxytryptamine Receptor 3A - 5-HT-3,5- HTR3A HT3A, 5-HT3R, 5HT3R, HTR3, 5- hydroxytryptamine (serotonin) receptor-3; 5HT3 serotonin receptor; Serotonin-gated ion channel receptor; serotonin receptor; truncated receptor, containing only 3 transmembrane domains 417 5-hydroxytryptamine (serotonin) receptor 3B 5-hydroxytryptamine receptor 3B - 5-HT3B, 5- HTR3B hydroxytryptamine (serotonin) receptor 3B precursor; 5-hydroxytryptamine 3 receptor B subunit; serotonin-gated ion channel subunit 418 5-hydroxytryptamine (serotonin) receptor 3, 5-Hydroxytryptamine Receptor 3C - 5- HTR3C family member C hydroxytryptamine receptor 3 subunit C, 5HT3c 419 5-hydroxytryptamine (serotonin) receptor 4 5-hydroxytryptamine receptor 4 - 5-HT4,5- HTR4 HT4R, 5-hydroxytryptamine4 receptor; cardiac 5-HT4 receptor; serotonin 5-HT4 receptor 420 5-hydroxytryptamine (serotonin) receptor 5A SEROTONIN 5-HT5A RECEPTOR - 5-HT5A, HTR5A 5-hydroxytryptamine receptor 5A 421 5-hydroxytryptamine (serotonin) receptor 6 G-Protein Coupled Receptor 5-HT6 - 5-HT6 HTR6 422 5-hydroxytryptamine (serotonin) receptor 7 5-hydroxytryptamine receptor 7 - 5-HT7, 5- HTR7 (adenylate cyclase-coupled) hydroxytryptamine receptor 7; serotonin 5-HT-7 receptor 423 intercellular adhesion molecule 1 (CD54), soluble intercellular adhesion molecule-1, BB2, ICAM1 human rhinovirus receptor CD54, P3.58, 60 bp after segment 1; cell surface glycoprotein; cell surface glycoprotein P3.58; intercellular adhesion molecule 1 424 intercellular adhesion molecule 3 ICAM 3 - CD50, CDW50, ICAM-R, ICAM3 intercellular adhesion molecule-3 425 carboxy-terminal-telopeptide of type I collagen I degradation byproduct (ICTP), ICTP collagen (ICTP) carboxy-terminal-telopeptide of type I collagen (ICTP) 426 interferon, gamma IFNG: IFG; IFI IFNG 966 Cryoglobulines (CG) Ig 427 insulin-like growth factor 1 (somatomedin C) IGF-1: somatomedin C. insulin-like growth IGF1 factor-1 428 insulin-like growth factor 1 receptor insulin like growth factor 1 receptor - CD221, IGF1R IGFIR, JTK13, clone 1900 unknown protein 429 insulin-like growth factor binding protein 1 insulin-like growth factor binding protein-1 IGFBP1 (IGFBP-1) - AFBP, IBP1, IGF-BP25, PP12, hIGFBP-1, IGF-binding protein 1; alpha- pregnancy-associated endometrial globulin; amniotic fluid binding protein; binding protein- 25; binding protein-26; binding protein-28; growth hormone independent-binding protein; placental protein 12 430 insulin-like growth factor binding protein 3 insulin-like growth factor binding protein 3: IGFBP3 IGF-binding protein 3 - BP-53, IBP3, IGF- binding protein 3; acid stable subunit of the 140 K IGF complex; binding protein 29; binding protein 53; growth hormone-dependent binding protein 431 interleukin 10 IL-10, CSIF, IL-10, IL10A, TGIF, cytokine IL10 synthesis inhibitory factor 432 interleukin 12B (natural killer cellstimulatory CLMF, CLMF2, IL-12B, NKSF, NKSF2; IL12, IL12B factor 2, cytotoxic lymphocyte maturation subunit p40; cytotoxic lymphocyte maturation factor 2, p40) factor 2, p40; interleukin 12, p40; interleukin 12B; interleukin-12 beta chain; natural killer cell stimulatory factor, 40 kD subunit; natural killer cell stimulatory factor-2 433 interleukin 13 interleukin 13, ALRH, BHR1, IL-13, IL13 MGC116786, MGC116788, MGC116789, P600 434 interleukin 17D IL17D: interleukin 27 IL17D 435 interleukin 17 receptor D SEF, IL-17RD, IL17RLM, SEF, similar IL17RD expression to FGF protein 436 interleukin 18 (interferon-gamma-inducing IL-18-IGIF, IL-18, IL-1g, IL1F4, IL-1 gamma; IL18 factor) interferon-gamma-inducing factor; interleukin 18; interleukin-1 gamma; interleukin-18 437 interleukin 1, beta interleukin-1 beta (IL-1 beta) - IL-1, IL1-BETA, IL1B IL1F2, catabolin; preinterleukin 1 beta; pro- interleukin-1-beta 438 interleukin 1, beta IL-1B(+3954)T (associated with higher CRP IL1B levels) - IL-1, IL1-BETA, IL1F2, catabolin; preinterleukin 1 beta; pro-interleukin-1-beta 439 interleukin 1 family, member 5 (delta) Interleukin 1 - FIL1, FIL1(DELTA), FIL1D, IL1F5 IL1HY1, IL1L1, IL1RP3, IL-1 related protein 3; IL-1F5 (IL-1HY1, FIL1-delta, IL-1RP3, IL-IL1, IL-1-delta); IL-1ra homolog; IL1F5 (Canonical product IL-1F5a); family of interleukin 1-delta; interleukin 1 family, member 5; interleukin 1, delta; interleukin-1 HY1; interleukin-1 receptor antagonist homolog 1; interleukin-1-like protein 1 440 interleukin 1 receptor, type 1 IL1RA - CD121A, IL-1R-alpha, IL1R, IL1RA, IL1R1 P80, IL-1 receptor (fibroblast type): antigen CD121a; interleukin 1 receptor alpha, type I; interleukin receptor 1 441 interleukin 1 receptor-like 1 interleukin-1 receptor family member, ST2 - IL1RL1 DER4, FIT-1, ST2, ST2L, ST2V, T1, homolog of mouse growth stimulation-expressed gene; interleukin 1 receptor-related protein 442 interleukin 1 receptor antagonist interleukin-1 receptor antagonist (IL-1Ra) - IL1RN ICIL-1RA, IL-1ra3, IL1F3, IL1RA, IRAP, IL1RN (IL1F3); intracellular IL-1 receptor antagonist type II; intracellular interleukin-1 receptor antagonist (icIL-1ra); type II interleukin-1 receptor antagonist 443 interleukin 1 receptor antagonist IL-1RN(VNTR)*2 (associated with lower CRP IL1RN levels) - ICIL-1RA, IL-1ra3, IL1F3, IL1RA, IRAP, IL1RN (IL1F3); intracellular IL-1 receptor antagonist type II; intracellular interleukin-1 receptor antagonist (icIL-1ra); type II interleukin-1 receptor antagonist 444 interleukin 2 interleukin-2 (IL-2) - IL-2, TCGF, lymphokine, IL2 T cell growth factor; aldesleukin; interleukin-2; involved in regulation of T-cell clonal expansion 445 interleukin 2 receptor, alpha IL-2R - CD25, IL2R, TCGFR, Interleukin-2 IL2RA receptor, interleukin 2 receptor, alpha chain 446 interleukin 2 receptor, beta IL-2R - CD122, P70-75, CD122 antigen; high IL2RB affinity IL-2 receptor beta subunit; interleukin 2 receptor beta 447 interleukin 3 (colony-stimulating factor, IL-3, MCGF, MGC79398, MGC79399, MULTI- IL3 multiple) CSF; P-cell stimulating factor; hematopoietic growth factor; interleukin 3; mast-cell growth factor; multilineage-colony-stimulating factor 448 interkeukin 4 BSF1, IL-4, MGC79402 B_cell stimulatory IL4 factor 1; lymphocyte stimulatory factor 1 449 interleukin 5 (colony-stimulating factor, EDF, IL-5, TRF; B cell differentiation factor I; IL5 eosinophil) T-cell replacing factor; eosinophil differentiation factor; interleukin 5; interleukin-5 450 interleukin 6 (interferon, beta 2) Interleukin-6 (IL-6), BSF2, HGF, HSF, IFNB2, IL6 IL-6 451 interleukin 6 receptor interleukin-6 receptor, soluble (sIL-6R) - IL6R CD126, IL-6R-1, IL-6R-alpha, IL6RA, CD126 antigen; interleukin 6 receptor alpha subunit 452 interleukin 6 signal transducer (gp130, gp130, soluble (sgp130) - CD130, CDw130, IL6ST oncostatin M receptor) GP130, GP130-RAPS, IL6R-beta, CD130 antigen; IL6ST nirs variant 3; gp130 of the rheumatoid arthritis antigenic peptide-bearing soluble form; gp130 transducer chain; interleukin 6 signal transducer; interleukin receptor beta chain; membrane glycoprotein gp130; oncostatin M receptor 453 interleukin 7 IL-7, IL7 nirs variant 1; IL7 nirs variant 2; IL7 IL7 nirs variant 4 454 interleukin 8 Interleukin-8 (IL-8), 3-10C, AMCF-I, CXCL8, IL8 GCP-1, GCP1, IL-8, K60, LECT, LUCT, LYNAP, MDNCF, MONAP, NAF, NAP-1, NAP1, SCYB8, TSG-1, b-ENAP, CXC chemokine ligand 8; LUCT/interleukin-8; T cell chemotactic factor; beta-thromboglobulin-like protein; chemokine (C—X—C motif) ligand 8; emoctakin; granulocyte chemotactic protein 1; lymphocyte-derived neutrophil-activating factor; monocyte derived neutrophil-activating protein; monocyte-derived neutrophil chemotactic factor; neutrophil-activating factor; neutrophil- activating peptide 1; neutrophil-activating protein 1; protein 3-10C; small inducible cytokine subfamily B, member 8 455 interleukin 8 receptor, alpha C-C; C-C CKR-1; CD128; CD181; CDw128a; IL8RA CKR-1; CMKAR1; CXCR1; IL8R1; IL8RBA, IL-8 receptor; IL-8 receptor type 1; chemokine (C—X—C motif) receptor 1; chemokine (C—X—C) receptor 1; high affinity interleukin-8 receptor A; interleukin-8 receptor alpha; interleukin-8 receptor type 1; interleukin-8 receptor type A 456 interleukin 8 receptor, beta CXC chemokine receptor 2 - CD182, CDw128b, IL8RB CMKAR2, CXCR2, IL8R2, IL8RA - CXCR2 gene for IL8 receptor type B; GRO/MGSA receptor; chemokine (C—X—C motif) receptor 2; chemokine (CXC) receptor 2; high affinity interleukin-8 receptor B; interleukin 8 receptor B; interleukin 8 receptor beta; interleukin 8 receptor type 2; interleukin-8 receptor type B 457 integrin-linked kinase integrin-linked kinase 1 - P59 ILK 458 integrin-linked kinase-2 integrin-linked kinase 2 ILK-2 459 inhibin, beta A (activin A, activin AB alpha activin A - EDF, FRP, Inhibin, beta-1; inhibin INHBA polypeptide) beta A 460 insulin insulin, proinsulin INS 461 insulin-like 4 (placenta) insulin-like 4 gene - EPIL, PLACENTIN, early INSL4 placenta insulin-like peptide (EPIL); insulin-like 4 462 CD220, HHF5 insulin receptor INSR 463 IQ motif containing GTPase activating IQ motif containing GTPase activating protein 1 - IQGAP1 protein 1 HUMORFA01, SAR1, p195, RasGAP-like with IQ motifs 464 IQ motif containing GTPase activating IQ motif containing GTPase activating protein 2 - IQGAP2 protein 2 465 integrin, alpha 2b (platelet glycoprotein IIb of glycoprotein-Iib - CD41, CD41B, GP2B, GPIIb, ITGA2B IIb/IIIa complex, antigen CD41) GTA, HPA3, integrin alpha 2b; integrin, alpha 2b (platelet glycoprotein IIb of IIb/IIIa complex, antigen CD41B); platelet fibrinogen receptor, alpha subunit; platelet-specific antigen BAK, GP Iib/IIIa 466 integrin, alpha L (antigen CD11A (p180), integrin alpha-L - CD11A, LFA-1, LFA1A, ITGAL lymphocyte function-associated antigen 1; LFA-1 alpha; antigen CD11A (p180), alpha polypeptide) lymphocyte function-associated antigen 1, alpha polypeptide; integrin alpha L; integrin gene promoter; lymphocyte function-associated antigen 1 467 integrin, beta 2 (complement component 3 Mac-1 (CD11b/CD18) leukocyte adhesion ITGB2 receptor 3 and 4 subunit) molecule - CD18, LAD, LCAMB, LFA-1, MAC-1, MF17, MF17, cell surface adhesion glycoprotein (LFA-1/CR3/P150,959 beta subunit precursor); complement receptor C3 beta- subunit; integrin beta 2; integrin beta chain, beta 2; integrin, beta 2; integrin, beta 2 (antigen CD18 (p95), lymphocyte function-associated antigen 1; macrophage antigen 1 (mac-1) beta subunit); leukocyte cell adhesion molecule CD18; leukocyte-associated antigens CD18/11A, CD18/11B, CD18/11C 468 integrin, beta 3 (platelet glycoprotein IIIa, glycoprotein Iib/IIIa - CD61, GP3A, GPIIIa, ITGB3 antigen CD61) integrin beta chain, beta 3; platelet glycoprotein IIIa precursor 469 integrin, beta 3 (platelet glycoprotein IIIa, platelet glycoprotein IIIa Leu33Pro allele/ ITGB3 antigen CD61) Pl(A1/A2) polymorphism of GPIIIa/Pl(A2) (Leu33Pro) polymorphism of beta(3) integrins/ polymorphism responsible for the Pl(A2) alloantigen on the beta(3)-component - CD61, GP3A, GPIIIa, integrin beta chain, b 470 junctional adhesion molecule 2 junction adhesion molecules-1, 2, and 3 - JAM2 C21orf43, CD322, JAM-B, JAMB, PRO245, VE-JAM, VEJAM, JAM-IT/VE-JAM; junctional adhesion molecule B; vascular endothelial junction-associated molecule 471 junctional adhesion molecule 3 junction adhesion molecules-1, 2, and 3 - JAM- JAM3 C, JAMC, junctional adhesion molecule C 472 potassium voltage-gated channel, shaker- voltage-gated-K+ channel (KV1.2) - HBK5, KCNA2 related subfamily, member 2 HK4, HUKIV, KV1.2, MK2, NGK1, RBK2, potassium channel; voltage-gated potassium channel protein Kv1.2 473 potassium voltage-gated channel, shaker- voltage-gated-K+ channel (KV1.5) - HCK1, KCNA5 related subfamily, member 5 HK2, HPCN1, KV1.5, PCN1, cardiac potassium channel; insulinoma and islet potassium channel; potassium channel 1; potassium channel protein; voltage-gated potassium channel; voltage-gated potassium channel protein Kv1.5 474 potassium voltage-gated channel, shaker- voltage-gated-K+ channel β subunit: potassium KCNAB1 related subfamily, beta member 1 channel beta 3 chain; potassium channel beta3 subunit; potassium channel shaker chain beta 1a; potassium voltage-gated channel beta subunit; voltage-gated potassium channel beta-1 subunit 475 potassium voltage-gated channel, Isk-related LQT5, LQT6, MIRP1, cardiac voltage-gated KCNE2 family, member 2 potassium channel accessory subunit 2; minK- related peptide-1; minimum potassium ion channel-related peptide 1; potassium channel subunit, MiRP1; potassium voltage-gated channel subfamily E member 2; voltage-gated K+ channel subunit MIRP1 476 potassium voltage-gated channel, subfamily ERG1, HERG, HERG1, Kv11.1, LQT2, cause of KCNH2 H (eag-related), member 2 Long QT Syndrome Type 2; ether-a-go-go- related potassium channel protein; human eag- related gene; potassium channel HERG; potassium channel HERG1; potassium voltage- gated channel, subfamily H, member 2; voltage- gated potassium channel; voltage-gated potassium channel, subfamily H, member 2 477 potassium inwardly-rectifying channel, KCNJ2 - HHBIRK1, HHIRK1, IRK1, KIR2.1, KCNJ2 subfamily J, member 2 LQT7, cardiac inward rectifier potassium channel; inward rectifier K+ channel KIR2.1; inward rectifier potassium channel 2; potassium inwardly-rectifying channel J2 478 potassium inwardly-rectifying channel, Protein- Coupled Inwardly Rectifying Potassium KCNJ3 subfamily J, member 3 Channel - GIRK1, KIR3.1, G protein-activated inward rectifier potassium channel 1; inward rectifier K+ channel KIR3.1; potassium inwardly-rectifying channel J3 479 potassium inwardly-rectifying channel, protein-coupled-inwardly-rectifying-potassium- KCNJ6 subfamily J, member 6 channel-GIRK2 - BIR1, GIRK2, KATP2, KCNJ7, KIR3.2, hiGIRK2, G protein-activated inward rectifier potassium channel 2; inward rectifier potassium channel KIR3.2; potassium inwardly-rectifying channel J6 480 potassium inwardly-rectifying channel, RP11-536C5.1, GIRK3, KIR3.3; G protein- KCNJ9 subfamily J, member 9 activated inward rectifier potassium channel 3; G protein-coupled inward rectifier potassium channel; inwardly rectifier K+ channel KIR3.3; potassium inwardly-rectifying channel subfamily J9 481 potassium channel, subfamily K, member 1 potassium channel subfamily K, member 1 - KCNK1 DPK, HOHO, TWIK-1, TWIK1, potassium channel, subfamily K, member 1 (TWIK-1); potassium inwardly-rectifying channel, subfamily K, member 1 482 Potassium Channel Subfamily K. Member 10 K2p10.1, TREK-2, TREK2; 2P domain KCNK10 potassium channel TREK2; TWIK related K+ channel 2; outward rectifying potassium channel protein TREK-2; potassium channel TREK-2 483 potassium channel, subfamily K, member 2 potassium channel subfamily K, member 2 - KCNK2 TPKC1, TREK, TREK-1, TREK1, hTREK-1c, hTREK-1e, TWIK-related potassium channel 1; potassium channel, subfamily K, member 2 (TREK-1); potassium inwardly-rectifying channel, subfamily K, member 2; tandem-pore- domain potassium channel TREK-1 splice variant e; two-pore potassium channel 1 484 potassium channel, subfamily K, member 3 potassium channel subfamily K, member 3 - KCNK3 OAT1, TASK, TASK-1, TBAK1, Kcnk3 channel; TWIK-related acid-sensitive K+ channel; acid-sensitive potassium channel protein TASK; cardiac potassium channel; potassium channel, subfamily K, member 3 (TASK); potassium channel, subfamily K, member 3 (TASK-1); potassium inwardly- rectifying channel, subfamily K, member 3; two P domain potassium channel 485 potassium channel, subfamily K, member 4 potassium channel subfamily K, member 4 - KCNK4 TRAAK, TRAAK1, TRAAK; TWIK-related arachidonic acid-stimulated potassium channel protein; two pore K+ channel KT4.1 486 potassium channel, subfamily K, member 5 potassium channel subfamily K, member 5 - KCNK5 TASK-2, TASK2, TWIK-related acid-sensitive K+ channel 2; acid-sensitive potassium channel protein TASK-2; potassium channel, subfamily K, member 1 (TASK-2); potassium channel, subfamily K, member 5 (TASK-2) 487 potassium channel, subfamily K, member 6 potassium channel subfamily K, member 6 - KCNK6 KCNK8, TOSS, TWIK-2, TWIK2, TWIK- originated sodium similarity sequence; inward rectifying potassium channel protein TWIK-2; potassium channel, subfamily K, member 6 (TWIK-2) 488 potassium channel, subfamily K, member 7 Potassium Channel Subfamily K Member 7 - KCNK7 TWIK3, potassium channel, subfamily K, member 7, isoform B; two pore domain K+ channel 489 potassium channel, subfamily K, member 9 Potassium Channels Subfamily K Member 9 - KCNK9 KT3.2, TASK-3, TASK3, TWIK-related acid- sensitive K+ channel 3; acid-sensitive potassium channel protein TASK-3; potassium channel TASK3; potassium channel, subfamily K, member 9 (TASK-3) 490 potassium voltage-gated channel, KQT-like KCNQ1 - ATFB1, KCNA8, KCNA9, KVLQT1, KCNQ1 subfamily, member 1 Kv1.9, Kv7.1, LQT, LQT1, RWS, WRS, kidney and cardiac voltage dependend K+ channel; long (electrocardiographic) QT syndrome, Ward- Romano syndrome 1; slow delayed rectifier channel subunit 491 Kell blood group, metalloendopeptidase X-pro dipeptidase like peptidase - ECE3; KEL CD238, PEPD-like 492 mixed lineage kinase 4 MLK4 alpha, MLK4 beta - MLK4 KIAA1804 493 G protein-coupled receptor 54 G-protein coupled receptor 54 - KISS1R 494 kallikrein 1, renal/pancreas/salivary kallikrein 1 - KLKR, Klk6, hK1, glandular KLK1 kallikrein 1; kallikrein 1; kallikrein serine protease 1; tissue kallikrein 495 kallikrein 10 kallikrein 10 - NES1, PRSSL1, breast normal KLK10 epithelial cell associated serine protease; normal epithelial cell-specific 1; protease, serine-like, 1 496 kallikrein 11 kallikrein 11 - PRSS20, TLSP, hippostasin; KLK11 protease, serine, 20 trypsin-like; protease, serine, trypsin-like 497 kallikrein 12 kallikrein 12 - KLK-L5, kallikrein-like protein 5 KLK12 498 kallikrein 15 kallikrein 15 - ACO, HSRNASPH, ACO KLK15 protease; kallikrein-like serine protease; prostinogen 499 kallikrein 2, prostatic kallikrein 2 - KLK2A2, hK2, glandular kallikrein 2 KLK2 500 kallikrein 5 kallikrein 5 - KLK-L2, KLKL2, SCTE, KLK5 kallikrein-like protein 2; stratum corneum tryptic enzyme 501 kallikrein 6 (neurosin, zyme) kallikrein 6 - Bssp, Klk7, NEUROSIN, PRSS18, KLK6 PRSS9, SP59, ZYME, hK6, kallikrein 6; protease M; protease, serine, 18; protease, serine, 9 502 kallikrein 7 (chymotryptic, stratum corneum) kallikrein 7 - PRSS6, SCCE, kallikrein 7 splice KLK7 variant 3; protease, serine, 6; stratum corneum chymotryptic enzyme 503 kallikrein 8 (neuropsin/ovasin) kallikrein 8 - HNP, NP, NRPN, PRSS19, KLK8 TADG14, kallikrein 8; neuropsin; neuropsin type 1; neuropsin type 2; ovasin; protease, serine, 19; tumor-associated differentially expressed gene 14 504 kallikrein 9 kallikrein 9 - KLK-L3, KLK8, KLKL3, KLK9 kallikrein 8; kallikrein 9 splice variant 2; kallikrein-like protein 3 505 kallikrein B, plasma (Fletcher factor) 1 kallikrein 3 - KLK3 - Kallikrein, plasma; KLKB1 kallikrein 3, plasma; kallikrein B plasma; kininogenin; plasma kallikrein B1 506 kininogen 1 high molecular weight kininogen - BDK, KNG, KNG1 kininogen, alpha-2-thiol proteinase inhibitor, bradykinin 507 lymphocyte-activation gene 3 Lymphocyte-activation protein 3 - CD223, LAG3 lymphocyte-activation protein 3 508 laminin, alpha 3 laminin alpha - E170, LAMNA, LOCS, lama3a, LAMA3 BM600 150 kD subunit; epiligrin 170 kda subunit; epiligrin alpha 3 subunit; kalinin 165 kD subunit; laminin alpha 3 subunit; laminin, alpha 3 (nicein (150 kD), kalinin (165 kD), BM600 (150 kD), epilegrin); laminin-5 alpha 3 chain; nicein 150 kD subunit 509 laminin, beta 3 laminin - LAMNB1, BM600-125 kDa; kalinin- LAMB3 140 kDa; laminin subunit beta 3; laminin, beta 3 (nicein (125 kD), kalinin (140 kD), BM600 (125 kD)); nicein-125 kDa 510 laminin, gamma 2 laminin-gamma(2) - B2T, BM600, EBR2, LAMC2 EBR2A, LAMB2T, LAMNB2, BM600-100 kDa; kalinin (105 kD); kalinin-105 kDa; laminin, gamma 2 (nicein (100 kD), kalinin (105 kD), BM600 (100 kD), Herlitz junctional epidermolysis bullosa)); nicein (100 kDa); nicein- 100 kDa 511 lysosome-associated membrane protein CD107a, LAMPA, LGP120 LAMP1 512 lecithin-cholesterol acyltransferase LCAT - LCAT 513 lipocalin 2 (oncogene 24p3) neutrophil proteinase-associated lipocalin LCN2 (NGAL) - NGAL 514 lymphocyte cytosolic protein 2 (SH2 domain lymphocyte cytosolic protein 2 - SLP-76, SLP76, LCP2 containing leukocyte protein of 76 kDa) 76 kDa tyrosine phosphoprotein; SH2 domain- containing leukocyte protein of 76 kD; lymphocyte cytosolic protein 2; lymphocyte cytosolic protein 2 (SH2 domain-containing leukocyte protein of 76 kD) 515 low density lipoprotein receptor (familial LDLR - FH, FHC, LDL receptor; LDLR LDLR hypercholesterolemia) precursor; low density lipoprotein receptor 516 left-right determination factor 2 endometrial bleeding-associated factor: LEFTY2 endometrial bleeding associated factor; endometrial bleeding associated factor (left-right determination, factor A; transforming growth factor beta superfamily); transforming growth factor, beta-4 (endometrial bleeding-associated factor; LEFTY A) 517 leptin (obesity homolog, mouse) leptin - OB, OBS, leptin; leptin (murine obesity LEP homolog); obesity; obesity (murine homolog, leptin) 518 leptin receptor leptin receptor, soluble - CD295, OBR, OB LEPR receptor 519 legumain putative cysteine protease 1 - AEP, LGMN1, LGMN PRSC1, asparaginyl endopeptidase; cysteine protease 1; protease, cysteine, 1 (legumain) 520 leucine-rich repeat-containing G protein- G Protein-Coupled Receptor 49 - FEX, GPR49, LGR5 coupled receptor 5 GPR67, GRP49, HG38, G protein-coupled receptor 49; G protein-coupled receptor 67; orphan G protein-coupled receptor HG38 521 leucine-rich repeat-containing G protein- leucine-rich repeat-containing GPCR 6 - GPCR, LGR6 coupled receptor 6 gonadotropin receptor 522 leucine-rich repeat-containing G protein- Leucine-Rich Repeat-Containing G-Protein LGR7 coupled receptor 7 Coupled Receptor 7 - LGR7.1, LGR7.10, LGR7.2, RXFP1, relaxin family peptide receptor 1 523 leucine-rich repeat-containing G protein- G-protein coupled receptor 105 - GPR106, LGR8 coupled receptor 8 GREAT, LGR8.1, RXFP2, G protein coupled receptor affecting testicular descent 524 LIM domain kinase 1 LIM domain kinase 1 - LIMK, LIM motif- LIMK1 containing protein kinase 525 lipase A, lysosomal acid, cholesterol esterase lipase A, lysosomal acid, cholesterol esterase LIPA (Wolman disease) (Wolman disease) - CESD, LAL; cholesterol ester hydrolase; lipase A; lysosomal acid lipase; sterol esterase 526 lipase, hepatic LIPC - HL, HTGL, LIPH, lipase C LIPC 527 lipase, hepatic LIPC - HL, HTGL, LIPH, lipase C LIPC 528 lipoprotein, Lp(a) lipoprotein (a) [Lp(a)], AK38, APOA, LP, LPA Apolipoprotein Lp(a); antiangiogenic AK38 protein; apolipoprotein(a) 529 latrophilin 1 secretin-type GPCR - CIRL1, CL1, LEC2, LPHN1 calcium-independent alpha-latrotoxin receptor 1; lectomedin-2 530 latrophilin 2 secretin-type GPCR - CIRL2, CL2, LEC1, LPHN2 LPHH1, calcium-independent alpha-latrotoxin receptor 2; latrophilin 1; latrophilin homolog 1; latrophilin homolog 2 (cow); lectomedin-1 531 latrophilin 3 secretin-type GPCR - CIRL3, LEC3, calcium- LPHN3 independent alpha-latrotoxin receptor 3; latrophilin homolog 3 (cow); lectomedin 3 532 lipoprotein lipase LPL - LIPD LPL 533 low density lipoprotein-related protein 1 lipoprotein receptor-related protein 1 (soluble LRP1 (alpha-2-macroglobulin receptor) (sLRP1) (alpha-2-macroglobulin receptor) - A2MR, APOER, APR, CD91; LRP, TGFBR5, alpha-2-macroglobulin receptor; low density lipoprotein-related protein 1; type V tgf-beta receptor 534 lymphotoxin alpha (TNF superfamily, lymphotoxin alpha (TNF superfamily, member LTA member 1) 1) - LT, TNFB, TNFSF1, lymphotoxin alpha; tumor necrosis factor beta 535 leukotriene B4 receptor G-protein-coupled receptor LTB4 - BLT1, LTB4R BLTR, CMKRL1, GPR16, LTB4R1, LTBR1, P2RY7, P2Y7, G protein-coupled receptor 16; chemokine receptor-like 1; purinergic receptor P2Y, G-protein coupled, 7 536 mitogen-activated protein kinase kinase 2 mitogen-activated protein kinase kinase 5 - MAP2K2 MAPKK2, MEK2, MKK2, PRKMK2, ERK activator kinase 2; MAP kinase kinase 2; MAPK/ERK kinase 2; dual specificity mitogen- activated protein kinase kinase 2; mitogen- activated protein kinase kinase 2, p45, MAP2K5 polypeptide 537 mitogen-activated protein kinase kinase 3 MKK3 - MAPKK3, MEK3, MKK3, PRKMK3, MAP2K3 MAP kinase kinase 3; MAPK/ERK kinase 3; dual specificity mitogen activated protein kinase kinase 3 538 mitogen-activated protein kinase kinase mitogen activated protein kinase MAP3KX - MAP3K1 kinase 1 MAPKKK1, MEKK, MEKK1, MAP/ERK kinase kinase 1; MAPK/ERK kinase kinase 1; MEK kinase 1 539 mitogen-activated protein kinase kinase mitogen-activated protein kinase kinase kinase MAP3K10 kinase 10 10 - MLK2, MST, MKN28 derived nonreceptor_type serine/threonine kinase; MKN28 kinase; mixed lineage kinase 2 540 mitogen-activated protein kinase kinase mitogen-activated protein kinase kinase kinase- MAP3K11 kinase 11 11 - MLK-3, MLK3, PTK1, SPRK, SH3 domain-containing proline-rich kinase; mixed lineage kinase 3; protein-tyrosine kinase PTK1 541 mitogen-activated protein kinase kinase mitogen-activated protein kinase kinase kinase MAP3K13 kinase 13 13 - LZK, leucine zipper-bearing kinase 542 mitogen-activated protein kinase kinase mitogen activated protein kinase MAP3KX - MAP3K2 kinase 2 MEKK2, MEKK2B, MAP/ERK kinase kinase 2; MAPK/ERK kinase kinase 2; MEK kinase 2 543 mitogen-activated protein kinase kinase mitogen activated protein kinase MAP3KX - MAP3K3 kinase 3 MAPKKK3, MEKK3, MAP/ERK kinase kinase 3; MAPK/ERK kinase kinase 3 544 mitogen-activated protein kinase kinase Mitogen Activated Protein Kinase Kinase Kinase MAP3K5 kinase 5 5 - ASK1, MAPKKK5, MEKK5, MAP/ERK kinase kinase 5; MAPK/ERK kinase kinase 5; apoptosis signal regulating kinase 545 mitogen-activated protein kinase kinase mitogen-activated protein kinase kinase kinase 3 - MAP3K9 kinase 9 MLK1, PRKE1, mixed lineage kinase 1 (tyr and ser/thr specificity) 546 mitogen-activated protein kinase 1 p38 mitogen-activated protein kinase (MAPK) - MAPK1 ERK, ERK2, ERT1, MAPK2, P42MAPK, PRKM1, PRKM2, p38, p40, p41, p41mapk, extracellular signal-regulated kinase 2; mitogen- activated protein kinase 2; protein tyrosine kinase ERK2 547 mitogen-activated protein kinase 11 p38 mitogen-activated protein kinase (MAPK) - MAPK11 P38B, P38BETA2, PRKM11, SAPK2, SAPK2B, p38-2, p38Beta, mitogen-activated protein kinase p38 beta; mitogen-activated protein kinase p38- 2; stress-activated protein kinase-2; stress- activated protein kinase-2b 548 mitogen-activated protein kinase 14 p38 mitogen-activated protein kinase (MAPK) - MAPK14 CSBP1, CSBP2, CSPB1, EXIP, Mxi2, PRKM14, PRKM15, RK, SAPK2A, p38, p38ALPHA, Csaids binding protein; MAP kinase Mxi2; MAX-interacting protein 2; cytokine suppressive anti-inflammatory drug binding protein; p38 MAP kinase; p38 mitogen activated protein kinase; p38alpha Exip; stress- activated protein kinase 2A 549 microtubule-associated protein tau tau protein - DDPAC, FTDP-17, MAPTL, MAPT MSTD, MTBT1, MTBT2, PPND, TAU, G protein beta1/gamma2 subunit-interacting factor 1; microtubule-associated protein tau, isoform 4; tau protein 550 megakaryocyte-associated tyrosine kinase megakaryocyte-associated tyrosine protein MATK kinase - CHK, CTK, HHYLTK, HYL, HYLTK, Lsk, Csk-homologous kinase; Csk-type protein tyrosine kinase; HYL tyrosine kinase; hematopoietic consensus tyrosine-lacking kinase; hydroxyaryl-protein kinase; leukocyte carboxyl-terminal src kinase related gene; protein kinase HYL; tyrosine kinase MATK; tyrosine-protein kinase CTK; tyrosylprotein kinase 551 myoglobin Myoglobin, PVALB MB 552 myelin basic protein myelin basic protein (MBP) MBP 553 membrane-bound transcription factor subtilase-like serine protease - PCSK8, S1P, MBTPS1 peptidase, site 1 SKI-1, membrane-bound transcription factor protease, site 1; membrane-bound transcription factor site-1 protease; site-1 protease; subtilisin/kexin isozyme-1 554 melanocortin 1 receptor (alpha melanocyte melanocortin 1 receptor - MSH-R, melanocortin MC1R stimulating hormone receptor) 1 receptor; melanocyte stimulating hormone receptor; melanotropin receptor 555 melanocortin 2 receptor (adrenocorticotropic melanocortin-2 - ACTHR, ACTH receptor; MC2 MC2R hormone) receptor; adrenocorticotropic hormone receptor; corticotropin receptor; melanocortin 2 receptor 556 melanocortin 3 receptor G protein coupled receptor MC3 - MC3 MC3R 557 melanocortin 4 receptor G protein coupled receptor MC4 - MC4R 558 melanocortin 5 receptor G protein coupled receptor MC5 MC5R 559 melanin-concentrating hormone receptor 1 G Protein-Coupled Receptor 24 - GPR24, MCHR1 MCH1R, SLC1, G protein-coupled receptor 24; G-protein coupled receptor 24 isoform 1, GPCR24 560 Mdm2, transformed 3T3 cell double minute MDM2 - hdm2, mouse double minute 2 MDM2 2, p53 binding protein (mouse homolog; mouse double minute 2, human homolog of; p53-binding protein; p53-binding protein MDM2; ubiquitin-protein ligase E3 Mdm2 561 c-mer proto-oncogene tyrosine kinase receptor tyrosine kinase MerTK - MER, c-mer, MERTK MER receptor tyrosine kinase; STK kinase 562 methionyl aminopeptidase 1 METHIONINE AMINOPEPTIDASE 1 METAP1 (MetAP1) - 563 methionyl aminopeptidase 2 methionine aminopeptidase 2 polypeptide - METAP2 MNPEP, p67 564 MLCK protein MGC126319, MGC126320, MLCK2; cardiac- MLCK MyBP-C associated Ca/CaM kinase; myosin light chain kinase 565 motilin receptor G-protein-coupled receptor 38 - GPR38, MLNR MTLR1, G protein-coupled receptor 38 566 membrane metallo-endopeptidase (neutral neutral endopeptidase 24.11 (NEP) - CALLA, MME endopeptidase, enkephalinase, CALLA, CD10, NEP, membrane metallo-endopeptidase; CD10) neprilysin 567 matrix metallopeptidase 1 (interstitial matrix metalloproteinase-1 - CLG, CLGN, MMP1 collagenase) fibroblast collagenase; interstitial collagenase; matrix metalloprotease 1; matrix metalloproteinase 1; matrix metalloproteinase 1 (interstitial collagenase) 568 matrix metallopeptidase 11 (stromelysin 3) SL-3, ST3, STMY3, matrix metalloproteinase MMP11 11; matrix metalloproteinase 11 (stromelysin 3); stromelysin 3; stromelysin III 569 matrix metallopeptidase 12 (macrophage Matrix Metalloproteinases (MMP), HME, MME, MMP12 elastase) macrophage elastase; macrophage metalloelastase; matrix metalloproteinase 12; matrix metalloproteinase 12 (macrophage elastase) 570 matrix metallopeptidase 14 (membrane- Matrix Metalloproteinases (MMP), MMP-X1, MMP14 inserted) MT1-MMP, MTMMP1, matrix metalloproteinase 14; matrix metalloproteinase 14 (membrane-inserted); membrane type 1 metalloprotease; membrane-type matrix metalloproteinase 1; membrane-type-1 matrix metalloproteinase 571 matrix metallopeptidase 2 (gelatinase A, Matrix Metalloproteinases (MMP), MMP-2, MMP2 72 kDa gelatinase, 72 kDa type IV CLG4, CLG4A, MMP-II, MONA, TBE-1, 72 kD collagenase) type IV collagenase; collagenase type IV-A; matrix metalloproteinase 2; matrix metalloproteinase 2 (gelatinase A, 72 kD gelatinase, 72 kD type IV collagenase); matrix metalloproteinase 2 (gelatinase A, 72 kDa gelatinase, 72 kDa type IV collagenase); matrix metalloproteinase-II; neutrophil gelatinase 572 matrix metallopeptidase 3 (stromelysin 1, Matrix Metalloproteinases (MMP), SL-1, MMP3 progelatinase) STMY, STMY1, STR1, matrix metalloproteinase 3; matrix metalloproteinase 3 (stromelysin 1, progelatinase); progelatinase; proteoglycanase; stromelysin 1; transin-1 573 matrix metallopeptidase 9 (gelatinase B, Matrix Metalloproteinases (MMP), MMP-9, MMP9 92 kDa gelatinase, 92 kDa type IV CLG4B, GELB, 92 kD type IV collagenase; collagenase) gelatinase B; macrophage gelatinase; matrix metalloproteinase 9; matrix metalloproteinase 9 (gelatinase B, 92 kD gelatinase, 92 kD type IV collagenase); matrix metalloproteinase 9 (gelatinase B, 92 kDa gelatinase, 92 kDa type IV collagenase); type V collagenase 574 marapsin 2 marapsin - marapsin 2 MPN2 575 myeloperoxidase Myeloperoxidase - myeloperoxidase MPO 576 MAS-related GPR, member D MAS-RELATED GENE - MRGD, TGR7, mas- MRGPRD related G protein-coupled MRGD 577 MAS-related GPR, member E Mas related G-protein coupled receptor E - MRGPRE GPR167, MRGE, G protein-coupled receptor 167; mas-related G protein-coupled MRGE 578 MAS-related GPR, member F human rta-like g protein-coupled receptor - mas MRGPRF related gene F, GPR140, GPR168, RTA, mrgF, G protein-coupled receptor 168; G protein- coupled receptor MrgF; seven transmembrane helix receptor 579 MAS-related GPR, member X1 Mas-related gene X1 - sensory neuron-specific G MRGPRX1 protein-coupled receptor 4, GPCR, MRGX1, SNSR4, G protein-coupled receptor MRGX1; G protein-coupled receptor SNSR3 580 MAS-related GPR, member X3 Mas-related G-protein coupled receptor 3 - MRGPRX3 sensory neuron-specific G protein-coupled receptor 1, GPCR, MRGX3, SNSR1, G protein- coupled receptor MRGX3; G protein-coupled receptor SNSR1; G protein-coupled receptor SNSR2 581 5,10-methylenetetrahydrofolate reductase methylenetetrahydrofolate reductase - MTHFR (NADPH) methylenetetrahydrofolate reductase intermediate form, red blood cell 5- methyltetrahydrofolate (RBC 5-MTHFR) - (MTHFR A1298C) mutation 582 melatonin receptor 1A melatonin receptor type 1A - MEL-1A-R, MTNR1A melatonin receptor type 1A 583 melatonin receptor 1B melatonin receptor type 1B - MEL-1B-R, MTNR1B melatonin receptor MEL1B; melatonin receptor type 1B 584 microsomal triglyceride transfer protein microsomal triglyceride transfer protein - ABL, MTTP MTP, microsomal triglyceride transfer protein (large polypeptide, 88 kD); microsomal triglyceride transfer protein (large polypeptide, 88 kDa); microsomal triglyceride transfer protein large subunit 585 mucin 16, cell surface associated CA-125, CA125, CA125 ovarian cancer antigen; MUC16 mucin 16 586 myeloid differentiation primary response myeloid differentiation primary response gene MYD88 gene (88) 587 myosin, heavy polypeptide 11, smooth smooth muscle heavy chain - AAT4, FAA4, MYH11 muscle SMHG, SMMHC, smooth muscle myosin heavy chain 11 588 myosin, heavy polypeptide 6, cardiac muscle, myosin heavy chain, cardiac - ASD3, MYHC, MYH6 alpha (cardiomyopathy, hypertrophic 1) MYHCA, alpha-MHC, alpha myosin heavy chain; alpha-myosin heavy chain; myosin heavy chain 6; myosin heavy chain, cardiac muscle alpha isoform 589 myosin, heavy polypeptide 7, cardiac muscle, myosin heavy chain, cardiac - CMD1S, CMH1, MYH7 beta MPD1, MYHCB, beta-myosin heavy chain; myopathy, distal 1; myosin heavy chain (AA 1-96); rhabdomyosarcoma antigen MU-RMS- 40.7A 590 myosin, heavy polypeptide 7B, cardiac myosin heavy chain, cardiac - MYH14, U937- MYH7B muscle, beta associated antigen; antigen MLAA-21; myosin heavy chain-like 591 myosin, light polypeptide 1, alkali; skeletal, myosin light chain I, cardiac - MLC1F, MLC3F, MYL1 fast A1 catalytic; A2 catalytic; fast skeletal myosin alkali light chain 1 592 myosin, light polypeptide 2, regulatory, myosin light chain II, cardiac - CMH10, MLC2, MYL2 cardiac, slow myosin light chain 2 593 myocardin myocardin - MYCD MYOCD 594 folate hydrolase (prostate-specific membrane N-acetylated alpha-linked acidic dipeptidase 2 - NAALAD2 antigen) 1 FGCP, FOLH, GCP2, GCPII, NAALAD1, NAALAdase, PSM, PSMA, mGCP, N- acetylated alpha-linked acidic dipeptidase 1; folate hydrolase 1; folylpoly-gamma-glutamate carboxypeptidase; glutamate carboxylase II; glutamate carboxypeptidase II; membrane glutamate carboxypeptidase; prostate-specific membrane antigen; pteroylpoly-gamma- glutamate carboxypeptidase 595 N-acetylated alpha-linked acidic dipeptidase- N-acetylated alpha-linked acidic dipeptidase-like NAALADL1 like 1 1 - I100, NAALADASEL, 100 kDa ileum brush border membrane protein; N-acetylated alpha- linked acidic dipeptidase-like; ileal dipeptidylpeptidase 596 NGFI-A binding protein 1 (EGR1 binding NGFI-A-binding protein - EGR1 binding protein NAB1 protein 1) 1; NGFI-A binding protein 1; NGFI-A-binding protein 1 597 NGFI-A binding protein 2 (EGR1 binding MADER, EGR1 binding protein 2; NGFI-A NAB2 protein 2) binding protein 2; NGFIA-binding protein-2; melanoma-associated delayed early response protein 598 napsin A aspartic peptidase napsin 1 - KAP, Kdap, NAP1, NAPA, SNAPA, NAPSA napsin A; pronapsin A 599 neural cell adhesion molecule 1 VCAM -1 - neural cell adhesion molecule 1, NCAM1 CD56, MSK39, NCAM, antigen recognized by monoclonal antibody 5.1H11; neural cell adhesion molecule, NCAM 600 NADH dehydrogenase (ubiquinone) 1 alpha CD14 (C-260T polymorphism) entered “CD14”, NDUFA2 subcomplex, 2, 8 kDa B8, CD14, NADH dehydrogenase (ubiquinone) 1 alpha subcomplex, 2 (8 kD, B8) 601 NIMA (never in mitosis gene a)-related serine/threonine protein kinase NEK1 - NY- NEK1 kinase 1 REN-55, protein-serine/threonine kinase gene; serine/threonine-protein kinase Nek1 602 NIMA (never in mitosis gene a)-related never in mitosis gene A-related kinase 3 NEK3 kinase 3 polypeptide - HSPK36, NIMA-related kinase 3; glycogen synthase A kinase; hydroxyalkyl- protein kinase; phosphorylase B kinase kinase; serine/threonine-protein kinase NEK3 603 NIMA (never in mitosis gene a)-related NEK-like serine/threonine kinase - JCK, NEK8 kinase 8 NEK12A, NIMA-family kinase NEK8; NIMA- related kinase 12a; NIMA-related kinase 8; serine/thrionine-protein kinase NEK8 604 nerve growth factor, beta polypeptide B-type neurotrophic growth factor (BNGF) - NGFB beta-nerve growth factor; nerve growth factor, beta subunit 605 neuromedin B receptor Neuromedin B Receptor - NMBR 606 neuromedin U receptor 1 Neuromedin U 1 receptor - (FM-3), FM-3, GPC- NMUR1 R, GPR66, NMU1R, G protein-coupled receptor 66 607 neuromedin U receptor 2 neuromedin U2 receptor - FM4, NMU2R NMUR2 608 nitric oxide synthase 2A (inducible, inducible nitric oxide synthase - HEP-NOS, NOS2A hepatocytes) INOS, NOS, NOS2, NOS, type II; nitric oxide synthase 2A; nitric oxide synthase, macrophage 609 nitric oxide synthase 3 (endothelial cell) 393 ecNOS allele/missense Glu298Asp variant NOS3 of endothelial nitric oxide synthase gene/T(−786) --> C mutation in the 5′-flanking region of the endothelial nitric oxide synthase gene - ECNOS, NOS III, eNOS, endothelial nitric oxidase synthase; endothelia 610 NADPH oxidase 1 NAD(P)H oxidase - GP91-2, MOX1, NOH-1, NOX1 NOH1, NADPH oxidase homolog-1; mitogenic oxidase (pyridine nucleotide-dependent superoxide-generating) 611 NADPH oxidase 3 NAD(P)H oxidase - GP91-3-NADPH oxidase NOX3 catalytic subunit-like 3 612 NAD(P)H oxidase-NADPH oxidase 4 NAD(P)H oxidase - KOX, KOX-1, RENOX NOX4 613 NADPH oxidase, EF-hand calcium binding NAD(P)H oxidase - NOX5A, NOX5B, NADPH NOX5 domain 5 oxidase, EF hand calcium-binding domain 5 614 neuropeptides B/W receptor 1 G protein-coupled receptor 7 - GPR7, G protein- NPBWR1 coupled receptor 7; neuropeptides B/W receptor type 1; opioid-somatostatin-like receptor 7 615 neuropeptides B/W receptor 2 G-protein coupled receptor 8 - GPR8, G protein- NPBWR2 coupled receptor 8; opioid-somatostatin-like receptor 8 616 aminopeptidase-like 1 aminopeptidase-like 1 - NPEPL1 617 aminopeptidase puromycin sensitive puromycin sensitive aminopeptidase - MP100, NPEPPS PSA, metalloproteinase MP100; puromycin- sensitive aminopeptidase 618 neuropeptide FF receptor 1 neuropeptide FF receptor 1 - GPR147, NPFF1, NPFFR1 NPFF1R1, OT7T022, G protein-coupled receptor 147 619 neuropeptide FF receptor 2 neuropeptide FF receptor 2 - GPR74, NPFF2, NPFFR2 NPGPR, G protein-coupled receptor 74; neuropeptide FF 2; neuropeptide G protein- coupled receptor 620 natriuretic peptide precursor A atrial naturetic peptide (ANP) - ANF, ANP, NPPA CDD-ANF, PND, atrial natriuretic peptide; pronatriodilatin, natriuretic peptide, atrial, N- terminal (N-ANP), natriuretic peptide, atrial, propeptide (31-67) 621 natriuretic peptide precursor B B-type Natriuretic Peptide (BNP), BNP, brain NPPB type natriuretic peptide, natriuretic protein, natriuretic peptide, brain, N-terminal (NT-BNP), natriuretic peptide, brain, pro-form (proBNP) 622 natriuretic peptide precursor C natriuretic peptide, atrial C-terminal (C-ANP) - NPPC CNP, C-type natriuretic precursor 623 natriuretic peptide receptor A/guanylate natriuretic peptide receptor A - ANPRA, ANPa, NPR1 cyclase A (atrionatriuretic peptide receptor A) GUC2A, GUCY2A, NPRA Other Designations: natriuretic peptide A type receptor 624 neuropeptide Y receptor Y1 G Protein-Coupled Receptor NPY1 - NPYR, NPY1R modulator of neuropeptide Y receptor 625 neuropeptide Y receptor Y2 G Protein-Coupled Receptor NPY2 - NPY2R 626 nuclear receptor subfamily 0, group B, Nuclear Receptor Subfamily O. Group B.' NR0B2 member 2 Member 2 (NR0B2) - SHP, SHP1, orphan nuclear receptor SHP; short heterodimer partner; small heterodimer partner 627 nuclear receptor subfamily 1, group D, Human Nuclear Receptor NR1D1 - EAR1, NR1D1 member 1 THRA1, THRAL, ear-1, hRev, Rev-erb-alpha; thyroid hormone receptor, alpha-like 628 nuclear receptor subfamily 1, group H, Liver X Receptor Beta - LXR-b, LXRB, NER, NR1H2 member 2 NER-I, RIP15, UNR, LX receptor beta; liver X receptor beta; nuclear orphan receptor LXR-beta; oxysterols receptor LXR-beta; steroid hormone- nuclear receptor NER; ubiquitously-expressed nuclear receptor 629 nuclear receptor subfamily 1, group H, LXR-alpha - LXR-a, LXRA, RLD-1, liver X NR1H3 member 3 receptor, alpha 630 nuclear receptor subfamily 1, group H, nuclear receptor subfamily 1, group H, member 4 - NR1H4 member 4 BAR, FXR, HRR-1, HRR1, RIP14, farnesoid X receptor 631 nuclear receptor subfamily 2, group E, nuclear receptor subfamily 2, group E member 1 - NR2E1 member 1 TLL, TLX, XTLL, tailless (Drosophila) homolog; tailless homolog (Drosophila) 632 nuclear receptor subfamily 3, group C, NR3C2, MCR, MLR, MR, mineralocorticoid NR3C2 member 2 receptor (aldosterone receptor) 633 nuclear receptor subfamily 4, group A, Nuclear Receptor NR4A1 - GFRP1, HMR, N10, NR4A1 member 1 NAK-1, NGFIB, NP10, NUR77, TR3, TR3 orphan receptor; early response protein NAK1; growth factor-inducible nuclear protein N10; hormone receptor; orphan nuclear receptor HMR; steroid receptor TR3 634 nuclear receptor subfamily 4, group A, Nuclear Receptor NR4A2 - HZF-3, NOT, NR4A2 member 2 NURR1, RNR1, TINUR, NGFI-B/nur77 beta- type transcription factor homolog; T-cell nuclear receptor NOT; intermediate-early receptor protein; nur related protein-1 (mouse), human homolog of; orphan nuclear receptor NURR1; transcriptionally inducible nuclear receptor related 1 635 nuclear receptor subfamily 4, group A, Nuclear Receptor NR4A3 - CHN, CSMF, NR4A3 member 3 MINOR, NOR1, TEC, chondrosarcoma, extraskeletal myxoid, fused to EWS; mitogen induced nuclear orphan receptor; neuron derived orphan receptor; translocated in extraskeletal chondrosarcoma 636 nuclear receptor subfamily 5, group A, nuclear receptor subfamily 5, group A, member 1 - NR5A1 member 1 AD4BP, ELP, FTZ1, FTZF1, SF-1, SF1, fushi tarazu factor (Drosophila) homolog 1; nuclear receptor AdBP4; steroidogenic factor 1 637 neutral sphingomyelinase 3 Sphingomyelinase NSMASE3 638 neurotrophic tyrosine kinase, receptor, type 1 neurotrophin receptor - MTC, TRK, TRK1, NTRK1 TRKA, p140-TrkA, Oncogene TRK; high affinity nerve growth factor receptor; tyrosine kinase receptor; tyrosine kinase receptor A 639 neurotrophic tyrosine kinase, receptor, type 2 neurotrophin receptor - GP145-TrkB, TRKB, NTRK2 BDNF/NT-3 growth factors receptor; tyrosine kinase receptor B 640 neurotrophic tyrosine kinase, receptor, type 3 neurotrophin receptor - TRKC, gp145(trkC), NTRK3 NT-3 growth factor receptor; neurotrophin 3 receptor; tyrosine kinase receptor C 641 neurotensin receptor 1 (high affinity) Neurotensin Receptor 1 - NTR, neurotensin NTSR1 receptor 1 642 ornithine decarboxylase 1 ornithindecarboxylase ODC1 643 oxidised low density lipoprotein (lectin-like) lectin-like oxidized low-density lipoprotein OLR1 receptor 1 receptor (LOX-1), CLEC8A, LOX1, SCARE1, lectin-type oxidized LDL receptor 1; scavenger receptor class E, member 1 644 opioid receptor, delta 1 G-protein coupled opioid receptor delta 1 - OPRD1 OPRD 645 opioid receptor, kappa 1 G protein-coupled opioid receptor kappa 1 - OPRK1 KOR, OPRK, Opiate receptor, kappa-1; kappa opioid receptor 646 orosomucoid 1 orosomucoid (alpha(1)-acid glycoprotein), AGP- ORM1 A, AGP1, ORM, Orosomucoid-1 (alpha-1-acid glycoprotein-1); alpha-1-acid glycoprotein 1 647 orosomucoid 2 α1-acid glycoprotein: alpha-1-acid glycoprotein, ORM2 type 2 648 oncostatin M oncostatin M - OSM 649 oxoeicosanoid (OXE) receptor 1 G Protein Coupled Receptor TG1019 - GPCR, OXER1 GPR170, TG1019, 5-oxo-ETE acid G-protein- coupled receptor 1; G-protein coupled receptor TG1019 650 oxytocin receptor Oxytocin Receptor - OT-R OXTR 651 purinergic receptor P2Y, G-protein coupled, 1 Purinoceptor 2 Type Y - P2Y1, ATP receptor; P2RY1 P2 purinoceptor subtype Y1; P2Y purinoceptor 1; platelet ADP receptor; purinergic receptor P2Y1 652 purinergic receptor P2Y, G-protein coupled, G Protein Coupled Receptor P2Y10 - P2Y10, G- P2RY10 10 protein coupled purinergic receptor P2Y10; P2Y purinoceptor 10; P2Y-like receptor 653 purinergic receptor P2Y, G-protein coupled, G Protein-Coupled Receptor P2Y11 - P2Y11, P2RY11 11 P2Y purinoceptor 11; P2Y11 receptor; purinergic receptor P2Y11 654 purinergic receptor P2Y, G-protein coupled, G Protein-Coupled Receptor P2Y12 - ADPG-R, P2RY12 12 HORK3, P2T(AC), P2Y(AC), P2Y(ADP), P2Y(cyc), P2Y12, SP1999, ADP-glucose receptor; G-protein coupled receptor SP1999; Gi-coupled ADP receptor HORK3; P2Y purinoceptor 12; platelet ADP receptor; purinergic receptor P2RY12; purinergic receptor P2Y, G-protein coupled 12; purinergic receptor P2Y12; putative G-protein coupled receptor 655 purinergic receptor P2Y, G-protein coupled, G Protein-Coupled Receptor 86 - FKSG77, P2RY13 13 GPCR1, GPR86, GPR94, P2Y13, SP174, G protein-coupled receptor 86 656 purinergic receptor P2Y, G-protein coupled, 2 Purinoceptor 2 Type Y (P2Y2) - HP2U, P2RU1, P2RY2 P2U, P2U1, P2UR, P2Y2, P2Y2R, ATP receptor; P2U nucleotide receptor; P2U purinoceptor 1; P2Y purinoceptor 2; purinergic receptor P2Y2; purinoceptor P2Y2 657 pyrimidinergic receptor P2Y, G-protein Purinoceptor 4 Type Y (P2Y4) - NRU, P2P, P2RY4 coupled, 4 P2Y4, UNR, C381P2Y purinoceptor 4; pyrimidinergic receptor P2Y4; uridine nucleotide receptor 658 purinergic receptor P2Y, G-protein coupled, 5 Purinoceptor 5 Type Y (P2Y5) - P2YS, G- P2RYS protein coupled purinergic receptor P2Y5; P2Y purinoceptor 5; RB intron encoded G-protein coupled receptor; purinergic receptor 5 659 pyrimidinergic receptor P2Y, G-protein G protein-Coupled P2Y Purinoreceptor 6 - P2RY6 coupled, 6 P2Y6, G-coupled nucleotide receptor; P2 purinoceptor; P2Y purinoceptor 6; P2Y6 receptor; pyrimidinergic receptor P2Y6 660 procollagen-proline, 2-oxoglutarate 4- prolyl 4-hydroxylase alpha-2 subunit - 4-PH P4HA2 dioxygenase (proline 4-hydroxylase), alpha alpha 2, prolyl 4-hydroxylase, alpha II subunit polypeptide II 661 platelet-activating factor acetylhydrolase, Platelet-activating factor acetylhydrolase (PAF- PAFAH1B1 isoform Ib, alpha subunit 45 kDa AH), LIS1, LIS2, MDCR, PAFAH, Platelet- activating factor acetylhydrolase, isoform 1B, alpha subunit; lissencephaly 1 protein; platelet- activating factor acetylhydrolase, isoform Ib, alpha subunit (45 kD) 662 platelet-activating factor acetylhydrolase 2, Platelet-activating factor acetylhydrolase (PAF- PAFAH2 40 kDa AH), HSD-PLA2, platelet-activating factor acetylhydrolase 2; platelet-activating factor acetylhydrolase 2 (40 kD) 663 p21/Cdc42/Rac1-activated kinase 1 (STE20 P21/CDC42/RAC1-activated kinase 1 - PAK1 homolog, yeast) PAKalpha, p21-activated kinase 1; p21/Cdc42/Rac1-activated kinase 1 (yeast Ste20- related) 664 p21 (CDKN1A)-activated kinase 2 P21/CDC42/RAC1-activated kinase 1 - PAK65, PAK2 PAKgamma, S6/H4 kinase; p21-activated kinase 2 665 p21 (CDKN1A)-activated kinase 3 CDKN1A, MRX30, MRX47, OPHN3, PAK3 PAK3beta, bPAK, hPAK3, oligophrenin-3; p21- activated kinase 3; p21-activated kinase-3 666 pregnancy-associated plasma protein A, Pregnancy-associated plasma protein a - PAPPA pappalysin 1 ASBABP2, DIPLA1, IGFBP-4ase, PAPA, PAPP-A, PAPPA1, aspecific BCL2 ARE- binding protein 2; differentially placenta 1 expressed protein; insulin-like growth factor- dependent IGF binding protein-4 protease; pregnacy-associated plasma protein A; pregnancy-associated plasma protein A 667 progestin and adipoQ receptor family steroid progestin receptor gamma - MPRG - PAQR5 member V membrane progestin receptor gamma 668 progestin and adipoQ receptor family steroid progestin receptor alpha - MPRA, mSR, PAQR7 member VII membrane progestin receptor alpha 669 progestin and adipoQ receptor family steroid progestin receptor beta - C6orf33, PAQR8 member VIII LMPB1, MPRB, lysosomal membrane protein in brain-1; membrane progestin receptor beta 670 poly (ADP-ribose) polymerase family, poly(ADP-ribose) polymerase - ADPRT, PARP1 member 1 ADPRT1, PARP, PARP-1, PPOL, pADPRT-1, ADP-ribosyltransferase (NAD+; poly (ADP- ribose) polymerase); ADP-ribosyltransferase NAD(+); poly(ADP-ribose) polymerase; poly(ADP-ribose) synthetase; poly(ADP- ribosyl)transferase 671 poly (ADP-ribose) polymerase family, poly(ADP-ribose) polymerase - ADPRT2, PARP2 member 2 ADPRTL2, ADPRTL3, PARP-2, pADPRT-2, ADP-ribosyltransferase (NAD+; poly(ADP- ribose) polymerase)-like 2; poly (ADP-ribosyl) transferase-like 2; poly(ADP-ribose) synthetase 672 poly (ADP-ribose) polymerase family, poly(ADP-ribose) polymerase - ADPRT3, PARP3 member 3 ADPRTL2, ADPRTL3, IRT1, hPARP-3, pADPRT-3, ADP-ribosyltransferase (NAD+; poly (ADP-ribose) polymerase)-like 2; ADP- ribosyltransferase (NAD+; poly (ADP-ribose) polymerase)-like 3; NAD+ ADP- ribosyltransferase 3; poly(ADP-ribose) polymerase 3; poly(ADP-ribose) synthetase-3 673 poly (ADP-ribose) polymerase family, poly(ADP-ribose) polymerase - ADPRTL1, PARP4 member 4 PARPL, PH5P, VAULT3, VPARP, p193, ADP- ribosyltransferase (NAD+; poly (ADP-ribose) polymerase)-like 1; H5 proline-rich; I-alpha-I- related; PARP-related; poly(ADP-ribose) synthetase; poly(ADP-ribosyl)transferase-like 1; vault protein, 193-kDa 674 proliferating cell nuclear antigen PCNA - DNA polymerase delta auxiliary PCNA protein; cyclin 675 proprotein convertase subtilisin/kexin type 9 PCSK9 gene or in the NARC-1 - FH3, PCSK9 HCHOLA3, NARC-1, NARC1, hypercholesterolemia, autosomal dominant 3; neural apoptosis regulated convertase 1 676 phosphodiesterase 10A phosphodiesterase 10A - HSPDE10A, PDE10A (phosphodiesterase 10A); phosphodiesterase 10A1 (PDE10A1) 677 phosphodiesterase 11A phosphodiesterase 11A1 - PDE11A1, cyclic PDE11A nucleotide phosphodiesterase 11A1; phosphodiesterase 11A1; phosphodiesterase 11A3 678 phosphodiesterase 1A, calmodulin-dependent phosphodiesterase 1A - HCAM1, HSPDE1A, PDE1A 3′,5′ cyclic nucleotide phosphodiesterase; calcium/calmodulin-stimulated cyclic nucleotide phosphodiesterase; calmodulin-dependent phosphodiesterase; phosphodiesterase-1A 679 phosphodiesterase 1B, calmodulin-dependent phosphodiesterase 1B - PDE1B1, PDES1B, PDE1B Phosphodiesterase-1B; calcium/calmodulin- stimulated cyclic nucleotide phosphodiesterase; calmodulin-stimulated phosphodiesterase PDE1B1; phosphodiesterase IB; phosphodiesterase IB, calmodulin-dependent; presumed 63 kDa form of the type 1 cyclic nucleotide phosphodiesterase family known as PDE1B 680 phosphodiesterase 1C, calmodulin-dependent phosphodiesterase 1C - Hcam3, Human 3′,5′ PDE1C 70 kDa cyclic nucleotide phosphodiesterase (HSPDE1C1A); phosphodiesterase 1C, calmodulin-dependent (70 kD) 681 phosphodiesterase 3A, cGMP-inhibited phosphodiesterase 3A - CGI-PDE, cGMP- PDE3A inhibited 3′,5′-cyclic phosphodiesterase A; cyclic GMP inhibited phosphodiesterase A 682 phosphodiesterase 3B, cGMP-inhibited phosphodiesterase 3 B - cGIPDE1, cyclic PDE3B nucleotide phosphodiesterase 683 phosphodiesterase 4A, cAMP-specific phosphodiesterase 4A - DPDE2, PDE4, PDE4A (phosphodiesterase E2 dunce homolog, Phosphodiesterase-4A, cAMP-specific (dunce Drosophila) (Drosophila)-homolog; cAMP-specific phosphodiesterase; cyclic AMP phosphodiesterase PDE4A11; cyclic AMP- specific phosphodiesterase HSPDE4A10; phosphodiesterase 4A, cAMP-specific (dunce (Drosophila)-homolog phosphodiesterase E2); phosphodiesterase isozyme 4 684 phosphodiesterase 4B, cAMP-specific phosphodiesterase 4B - DPDE4, PDEIVB, PDE4B (phosphodiesterase E4 dunce homolog, cAMP-specific 3′,5′-cyclic phosphodiesterase Drosophila) 4B; dunce-like phosphodiesterase E4; phosphodiesterase 4B, cAMP-specific; phosphodiesterase 4B, cAMP-specific (dunce (Drosophila)-homolog phosphodiesterase E4) 685 phosphodiesterase 4C, cAMP-specific phosphodiesterase 4C - DPDE1, ISOFORM OF PDE4C (phosphodiesterase E1 dunce homolog, CAMP-DEPENDENT 3′,5′-CYCLIC Drosophila) PHOSPHODIESTERASE 4C; PDE4C [amino acids 597-712]; PDE4C-delta54, cAMP-specific (dunce (Drosophila)-homolog; dunce (Drosophila)-homolog phosphodiesterase E1; phosphodiesterase 4C, cAMP-specific (dunce (Drosophila)-homolog phosphodiesterase E1) 686 phosphodiesterase 4D, cAMP-specific phosphodiesterase 4D - DPDE3, HSPDE4D, PDE4D (phosphodiesterase E3 dunce homolog, PDE4DN2, STRK1, cAMP-specific Drosophila) phosphodiesterase 4D; cAMP-specific phosphodiesterase PDE4D6; dunce-like phosphodiesterase E3; phosphodiesterase 4D, cAMP-specific (dunce (Drosophila)-homolog phosphodiesterase E3) 687 phosphodiesterase 6B, cGMP-specific, rod, PHOSPHODIESTERASE 6B - CSNB3, PDEB, PDE6B beta (congenital stationary night blindness 3, phosphodiesterase 6B, cGMP-specific, rod, beta autosomal dominant) 688 phosphodiesterase 6C, cGMP-specific, cone, phosphodiesterase PDE6C - PDEA2 PDE6C alpha prime 689 phosphodiesterase 7A phosphodiesterase 7a1 - HCP1, PDE7, PDE7A phosphodiesterase isozyme 7 690 phosphodiesterase 7B phosphodiesterase 7b - high-affinity cAMP- PDE7B specific 3′,5′-cyclic phosphodiesterase; rolipram- insensitive phosphodiesterase type 7 691 phosphodiesterase 8A phosphodiesterase 8A - HsT19550, cAMP- PDE8A specific cyclic nucleotide phosphodiesterase 8A; high-affinity cAMP-specific and IBMX- insensitive 3′,5′-cyclic phosphodiesterase 8A 692 phosphodiesterase 8B phosphodiesterase 8B - 3′,5′ cyclic nucleotide PDE8B phosphodiesterase 8B 693 phosphodiesterase 9A PHOSPHODIESTERASE 9A1 - HSPDE9A2, PDE9A CGMP-specific 3′,5′-cyclic phosphodiesterase type 9; phosphodiesterase PDE9A21 694 platelet-derived growth factor alpha platelet derived growth factor (PDGF-alpha): PDGFA polypeptide PDGF A-chain; platelet-derived growth factor alpha; platelet-derived growth factor alpha chain 695 platelet-derived growth factor beta Platelet-derived growth factor beta polypeptide - PDGFB polypeptide (simian sarcoma viral (v-sis) PDGF2, SIS, SSV, c-sis, HUMANES PDGF-B oncogene homolog GEN AUS PGEM2-PDGF-B, PDGF, B chain; PDGF-B VORLAEUFERSEQUENZ; Platelet- derived growth factor, beta polypeptide (oncogene SIS); becaplermin; oncogene SIS; platelet-derived growth factor 2; platelet-derived growth factor beta; platelet-derived growth factor, B chain; v-sis platelet-derived growth factor beta polypeptide (simian sarcoma viral oncogene homolog) 696 platelet-derived growth factor beta Platelet-derived growth factor beta polypeptide - PDGFB polypeptide (simian sarcoma viral (v-sis) PDGF2, SIS, SSV, c-sis, HUMANES PDGF-B oncogene homolog) GEN AUS PGEM2-PDGF-B, PDGF, B chain; PDGF-B VORLAEUFERSEQUENZ; Platelet- derived growth factor, beta polypeptide (oncogene SIS); becaplermin; oncogene SIS; platelet-derived growth factor 2; platelet-derived growth factor beta; platelet-derived growth factor, B chain; v-sis platelet-derived growth factor beta polypeptide (simian sarcoma viral oncogene homolog) 697 platelet-derived growth factor beta platelet-derived growth factor beta polypeptide PDGFB polypeptide (simian sarcoma viral (v-sis) (simian sarcoma viral (v-sis) oncogene oncogene homolog) homolog), FLJ12858, PDGF2, SIS, SSV, c-sis, HUMANES PDGF-B GEN AUS PGEM2- PDGF-B, FLANKIERT VON 5′-ECORI UND 3′-HINDIII RESTRIKTIONSSCHNITTSTELLEN; PDGF, B chain; PDGF-B VORLAEUFERSEQUENZ; Platelet-derived growth factor, beta polypeptide (oncogene SIS); becaplermin; oncogene SIS; platelet-derived growth factor 2; platelet-derived growth factor beta; platelet-derived growth factor, B chain; v-sis platelet-derived growth factor beta polypeptide (simian sarcoma viral oncogene homolog) 698 platelet-derived growth factor receptor, alpha platelet derived growth factor PDGF-alpha PDGFRA polypeptide receptor 699 platelet-derived growth factor receptor, beta platelet derived growth factor PDGF-beta PDGFRB polypeptide receptor-CD140B, JTK12, PDGF-R-beta, PDGFR, PDGFR1 beta platelet-derived growth factor receptor; platelet-derived growth factor receptor beta 700 pyruvate dehydrogenase kinase, isozyme 1pyruvate dehydrogenase kinase 1 (PDK1) - PDK1 mitochondrial pyruvate dehydrogenase kinase isoenzyme 1; pyruvate dehydrogenase kinase, isoenzyme 1701 pyruvate dehydrogenase kinase, isozyme 2pyruvate dehydrogenase kinase 2 (PDK2) - PDK2 pyruvate dehydrogenase kinase, isoenzyme 2702 pyruvate dehydrogenase kinase, isozyme 3pyruvate dehydrogenase kinase 3 (PDK3) - PDK3 pyruvate dehydrogenase kinase, isoenzyme 3703 pyruvate dehydrogenase kinase, isozyme pyruvate dehydrogenase kinase 1 (PDK1) - PDK4 4 + A4 pyruvate dehydrogenase kinase 4; pyruvatedehydrogenase kinase, isoenzyme 4704 platelet/endothelial cell adhesion molecule circulating CD31+ apoptotic microparticles in PECAM1 (CD31 antigen) peripheral blood, (Entered CD31 into Entrez), CD31, PECAM-1, CD31/EndoCAM; PECAM-1, CD31/EndoCAM; adhesion molecule 705 proenkephalin proenkephalin (no “other” names listed than PENK official name) 706 peptidase D X-pro dipeptidase-PROLIDASE, Xaa-Pro PEPD dipeptidase; proline dipeptidase 707 platelet factor 4 (chemokine (C—X—C motif) platelet factor 4 (PF4) - CXCL4, SCYB4 PF4 ligand 4) 708 phosphoglycerate mutase family member 4phosphoglycerate mutase (PGM) B-type - PGAM4 PGAM-B, PGAM3, phosphoglycerate mutase family 3; phosphoglycerate mutase family 4;phosphoglycerate mutase processed protein 709 plasma glutamate carboxypeptidase plasma glutamate carboxypeptidase - PGCP aminopeptidase 710 placental growth factor, vascular endothelial placental growth factor - PLGF, PlGF-2 PGF growth factor- related protein 711 serum placental growth factor Placenta growth factor [Precursor], PlGF, PLGF PGF 712 phosphate regulating endopeptidase homolog, phosphate regulating endopeptidase homolog - PHEX X-linked (hypophosphatemia, vitamin D HPDR, HPDR1, HYP, HYP1, PEX, XLH, X- resistant rickets) linked phosphate regulating endopeptidase homolog; phosphate regulating gene with homologies to endopeptidases on the X chromosome; phosphate regulating gene with homologies to endopeptidases on the X chromosome (hypophosphatemia, vitamin D resistant rickets) 713 phospholipase A2, group VII (platelet- lipoprotein-associated phospholipase A2 (Lp- PLA2G7 activating factor acetylhydrolase, plasma) PLA2) (associated with coronary endothelial dysfunction). LDL-PLA2, PAFAH, phospholipase A2, group VII; platelet-activating factor acetylhydrolase 714 plasminogen activator, tissue tissue Plasminogen Activator (tPA), T-PA, TPA, PLAT alteplase; plasminogen activator, tissue type; reteplase; t-plasminogen activator; tissue plasminogen activator (t-PA) 715 phospholipase C, beta 1 (phosphoinositide- Phosphoinositide-specific-phospholipase-B1: 1- PLCB1 specific) phosphatidyl-D-myo-inositol-4,5-bisphosphate; 1-phosphatidylinositol-4,5- bisphosphate phosphodiesterase beta 1; PLC-beta-1; inositoltrisphosphohydrolas 716 phospholipase C-like 1 phospholipase C-like protein - PLC-L, PLCE, PLCL1 PLCL, PLDL1, phospholipase C, epsilon 717 phospholipase C-like 2 phospholipase C-like protein - KIAA1092, PLCL2 PLCE2, phospholipase C, epsilon 2718 plasminogen plasminogen - covering first half of fourth PLG kringle 719 phospholamban phospholamban - CMD1P, PLB, cardiac PLN phospholamban 720 proopiomelanocortin (adrenocorticotropin/ proopiomelanocortin - beta-LPH; beta-MSH; POMC beta-lipotropin/alpha-melanocyte stimulating alpha-MSH; gamma-LPH; gamma-MSH; hormone/beta-melanocyte stimulating corticotropin; beta-endorphin; met-enkephalin; hormone/beta-endorphin) lipotropin beta; lipotropin gamma; melanotropin beta; N-terminal peptide; melanotropin alpha; melanotropin gamma; pro-ACTH-endorphin; adrenocorticotropin; pro-opiomelanocortin; corticotropin-lipotrophin; adrenocorticotropic hormone; alpha-melanocyte-stimulating hormone; corticotropin-like intermediary peptide 721 paraoxonase 1 ESA, PON, Paraoxonase paraoxonase - ESA, PON, Paraoxonase PON1 722 paraoxonase 2 paraoxonase - A-esterase 2; aromatic esterase 2; PON2 serum aryldialkylphosphatase 2; serum paraoxonase/ arylesterase 2723 paraoxonase 3paraoxonase - paraoxanase-3; serum PON3 paraoxonase/lactonase 3 724 phosphatidic acid phosphatase type 2A LLP1a, LPP1, PAP-2a, PAP2, PAP2a2, PPAP2A PAP2alpha2, PAPalphal, lipid phosphate phosphohydrolase 1; lipid phosphate phosphohydrolase 1a; phosphatidic acid phosphatase 2a; phosphatidic acid phosphohydrolase type 2a; type 2 phosphatidicacid phosphohydrolase; type-2 phosphatidic acid phosphatase alpha 725 phosphatidic acid phosphatase type 2C phosphatidic acid phosphatase type 2C-like - PPAP2C LPP2, PAP-2c, PAP2-g, lipid phosphate phosphohydrolase 2; phosphatidic acid phosphohydrolase type 2c; type-2 phosphatidic acid phosphatase- gamma 726 peroxisome proliferative activated receptor, Peroxisome proliferator-activated receptor PPARA alpha (PPAR), NR1C1, PPAR, hPPAR, PPAR alpha 727 peroxisome proliferative activated receptor, Peroxisome proliferator-activated receptor PPARD delta (PPAR), FAAR, NR1C2, NUC1, NUCI, NUCII, PPAR-beta, PPARB, nuclear hormone receptor 1, PPAR Delta 728 peroxisome proliferative activated receptor, Peroxisome proliferator-activated receptor PPARG gamma (PPAR), HUMPPARG, NR1C3, PPARG1, PPARG2, PPAR gamma; peroxisome proliferative activated receptor gamma; peroxisome proliferator activated-receptor gamma; peroxisome proliferator- activated receptor gamma 1; ppar gamma2 729 pro-platelet basic protein (chemokine (C—X—C beta-thromboglobulin (BTG) - B-TG1, Beta-TG, PPBP motif) ligand 7) CTAP3, CTAPIII, CXCL7, LA-PF4, LDGF, MDGF, NAP-2, NAP-2-L1, PBP, SCYB7, TC1, TC2, TGB, TGB1, THBGB, THBGB1 - CXC chemokine ligand 7; beta-thromboglobulin; connective tissue-activating peptide III; low- affinity platelet factor IV; neutrophil-activating peptide-2; pro-platelet basic protein; pro-platelet basic protein (includes platelet basic protein, beta-thromboglobulin, connective tissue- activating peptide III, neutrophil-activating peptide-2); small inducible cytokine B7; small inducible cytokine subfamily B, member 7;thrombocidin 1;thrombocidin 2;thromboglobulin, beta-1 730 pro-platelet basic protein-like 1 (includes beta-thromboglobulin (betaTG) - TGB2, PPBPL1 platelet basic protein, beta-thromboglobulin, Thromboglobulin, beta-2; beta-thromboglobulin; connective tissue-activating peptide III, connective tissue-activating peptide I; platelet neutrophil-activating peptide-2-like 1) basic protein 731 protective protein for beta-galactosidase Protective protein for beta-galactosidase - CTSA, PPGB (galactosialidosis) GLB2, GSL, NGBE, PPCA, Protective protein for beta-galactosidase (cathepsin A); beta- galactosidase 2; beta-galactosidase protectiveprotein; protective protein for beta- galactosidase 732 protein phosphatase 1, regulatory (inhibitor)Growth arrest and DNA damage protein 34PPP1R15A subunit 15A (GADD34), GADD34, growth arrest and DNA- damage-inducible 34; protein phosphatase 1,regulatory subunit 15A 733 protein phosphatase 3 (formerly 2B), calcineurin - CALNB1, CNB, CNB1, PPP3R1 regulatory subunit B, 19 kDa, alpha isoform calcineurin B; protein phosphatase 3 (formerly (calcineurin B, type I) 2B), regulatory subunit B (19 kD), alpha isoform (calcineurin B, type I); protein phosphatase 3,regulatory subunit B, alpha isoform 1734 protein phosphatase 3 (formerly 2B), calcineurin - PPP3RL, CBLP-like; calcineurin B, PPP3R2 regulatory subunit B, 19 kDa, beta isoform type II; calcineurin B-like protein; protein (calcineurin B, type II) phosphatase 3 (formerly 2B), regulatory subunit B (19 kD), beta isoform (calcineurin B, type II); protein phosphatase 3 regulatory subunit B,beta isoform 735 pancreatic polypeptide receptor 1 G Protein- Coupled Receptor NPY4 - NPY4-R, PPYR1 NPY4R, PP1, Y4 736 proteoglycan 4glycosaminoglycans - CACP, HAPO, JCAP, PRG4 MSF, SZP, Jacobs camptodactyly-arthropathy- pericarditis syndrome gene; articular superficial zone protein; (MSF: megakaryocyte stimulating factor); camptodactyly, arthropathy, coxa vara, pericarditis syndrome gene; lubricin; megakaryocyte stimulating factor; proteoglycan 4, (megakaryocyte stimulating factor, articular superficial zone protein, camptodactyly, arthropathy, coxa vara, pericarditis syndrome) 737 protein kinase C, gamma protein kinase C gamma - PKC-gamma, PKCC, PRKCG PKCG, SCA14, spinocerebellar ataxia 14738 protein kinase, DNA-activated, catalytic DNA-PK: DNAPK, DNPK1, HYRC, HYRC1, PRKDC polypeptide XRCC7, p350 739 protein kinase, cGMP-dependent, type I Protein Kinase, cGMP-Dependent - CGKI, PRKG1 FLJ36117, PGK, PRKG1B, PRKGR1B, cGKI- BETA, cGKI-alpha, Protein kinase, cGMP- dependent, regulatory, type I; protein kinase, cGMP-dependent, regulatory, type I, beta 740 prolactin releasing hormone receptor G-protein coupled receptor 10 - GPR10, GR3, PRLHR PrRPR, G protein-coupled receptor 10; prolactinreleasing peptide receptor; prolactin- releasing hormone receptor 741 protein C (inactivator of coagulation factors Protein C - PROC1, protein C PROC Va and VIIIa) 742 protein C receptor, endothelial (EPCR) protein C receptor (endothelial) - CCCA, PROCR CCD41, CD201, EPCR, APC receptor; CD201 antigen; activated protein C receptor; cell cycle, centrosome-associated protein; centrocyclin; endothelial protein C receptor 743 prokineticin receptor 1 G protein coupled receptor 73a - GPR73, PROKR1 GPR73a, PKR1, ZAQ, G protein-coupled receptor 73; G protein-coupled receptor ZAQ744 protein S (alpha) Protein S - PROS, PS 26, PS21, PS22, PS23,PROS1 PS24, PS25, PSA, Protein S, protein Sa, preproprotein S; propiece of latent protein S; truncated CDS due to variation 745 protein Z, vitamin K-dependent plasma PZ PROZ glycoprotein 746 proline rich Gla (G-carboxyglutamic acid) 3 gamma carboxyglutamic acid (gla) - TMG3, PRRG3 (transmembrane) transmembrane gamma- carboxyglutamic acid protein 3 747 proline rich Gla (G-carboxyglutamic acid) 4 gamma carboxyglutamic acid (gla) - TMG4, PRRG4 (transmembrane) transmembrane gamma- carboxyglutamic acid protein 4 748 protease, serine, 1 (trypsin 1) eosinophil serine protease 1 (PRSS1) - TRP1, PRSS1 TRY1, TRY4, TRYP1, cationic trypsinogen; digestive zymogen; nonfunctional trypsin 1;protease serine 1; protease, serine, 1;serine protease 1; trypsin 1; trypsin I;trypsinogen 1;trypsinogen A 749 protease, serine, 8 (prostasin) serine protease 8 - CAP1, PROSTASIN, PRSS8 channel- activating protease 1;prostasin 750 growth-inhibiting protein 26prostate-specific membrane antigen-like - GCP3, PSMAL GCP III; N-acetylated-alpha-linked-acidic dipeptidase; glutamate carboxypeptidase III; hypothetical protein LOC219595; prostate- specific membrane antigen-like 751 prostaglandin E receptor 1 (subtype EP1), G protein coupled receptor prostaglandin E2 EP1 - PTGER1 42 kDa EP1PGE receptor, EP1 subtype; prostaglandin E receptor 1, subtype EP1; prostanoid EP1 receptor 752 prostaglandin E receptor 2 (subtype EP2), G-Protein Coupled Receptor Prostaglandin E2 PTGER2 53 kDa EP2 - EP2 Prostaglandin E receptor 2, EP2subtype, 53 kD 753 prostaglandin E receptor 3 (subtype EP3) G protein Coupled Receptor Prostaglandin E2 PTGER3 EP3 1 - EP3, EP3-I, EP3-II, EP3-III, EP3-IV, EP3e, PGE receptor, EP3 subtype; alternative splicing; prostaglandin E receptor 3, subtypeEP3; prostaglandin E2 receptor; prostaglandin receptor (PGE-2); prostanoid EP3 receptor 754 prostaglandin E receptor 4 (subtype EP4) G Protein Coupled Receptor Prostaglandin E2 PTGER4 EP4 - EP4, EP4R, PGE receptor, EP4 subtype; prostaglandin E receptor 4, subtype EP4;prostaglandin E2 receptor 755 prostaglandin F receptor (FP) G-Protein Coupled Receptor Prostaglandin F2- PTGFR alpha - FP, PGF receptor; PGF2 alpha receptor; prostaglandin F receptor; prostaglandin F2 alpha receptor; prostaglandin receptor (2-alpha); prostanoid FP receptor 756 prostaglandin I2 (prostacyclin) receptor (IP) prostaglandin 12 receptor - IP, PRIPR, PGIPTGIR receptor; prostacyclin receptor; prostanoid IP receptor 757 prostaglandin I2 (prostacyclin) synthase prostacyclin synthetase (PGI-II synthetase) PTGIS 758 prostaglandin- endoperoxide synthase 1Pro17Leu variant of PTGS1 - COX1, COX3, PTGS1 (prostaglandin G/H synthase and PCOX1, PGG/HS, PGHS-1, PGHS1, PHS1, cyclooxygenase) PTGHS, prostaglandin G/H synthase and cyclooxygenase; prostaglandin- endoperoxide synthase 1 759 prostaglandin- endoperoxide synthase 2Cyclo-oxygenase-2 (COX-2) - COX-2, COX2, PTGS2 (prostaglandin G/H synthase and PGG/HS, PGHS-2, PHS-2, hCox-2, cyclooxygenase) cyclooxygenase 2b; prostaglandin G/H synthase and cyclooxygenase; prostaglandin- endoperoxide synthase 2760 parathyroid hormone-like hormone parathyroid hormone related protein: PTH- PTHLH related protein; humoral hypercalcemia of malignancy; osteostatin; parathyroid hormone- like protein; parathyroid hormone-like related protein; parathyroid hormone-related protein; parathyroid- like protein 761 parathyroid hormone-like hormone parathormone-like protein PTHLH (PTH/parathyroidhormone related protein) - HHM, PLP, PTHR, PTHRP, PTH-related protein; humoral hypercalcemia of malignancy; osteostatin; parathyroid hormone-like protein; parathyroid hormone-like related protein; parathyroid hormone-related protein; parathyroid- like protein 762 parathyroid hormone receptor 1parathyroid hormone receptor 1 - PTHR, PTH PTHR1 receptor; PTH/PTHr receptor; PTH/PTHrP receptor; PTH/PTHrP type I receptor; parathyroid hormone/parathyroid hormone- related peptide receptor; parathyroid hormone/parathyroid hormone-related protein receptor; seven transmembrane helix receptor 763 pituitary tumor-transforming 1 PTTG: ESP1-associated protein 1; pituitaryPTTG1 tumor-transforming protein 1; tumor-transforming protein 1764 phosphorylase, glycogen; brain glycogen phosphorylase BB - brain glycogen PYGB phosphorylase; glycogen phosphorylase B (cardiac ? - Anderson reference?) 765 v-raf-1 murine leukemia viral oncogene Raf protein - CRAF, Raf-1, c-Raf, Oncogene RAF1 homolog 1RAF1; raf proto-oncogene serine/ threonine protein kinase 766 retinoic acid receptor, alpha retinoic acid receptor alpha - NR1B1, RAR, RARA Retinoic acid receptor, alpha polypeptide; nucleophosmin-retinoic acid receptor alpha fusion protein NPM-RAR long form; nucleophosmin-retinoic acid receptor alpha fusion protein NPM-RAR short form 767 retinoic acid receptor, beta Nuclear Receptor Subfamily 1, Group B,RARB Member 2 (NR1B2) - HAP, NR1B2, RRB2, HBV-activated protein; RAR-epsilon; hepatitis B virus activated protein; retinoic acid receptor beta 2; retinoic acid receptor beta 4; retinoicacid receptor beta 5; retinoic acid receptor, beta polypeptide 768 retinoblastoma-like 1 (p107) p107 - CP107, PRB1, 107 kDa retinoblastoma- RBL1 associated protein; cellular protein 107;retinoblastoma- like protein 1769 renin REN: angiotensin-forming enzyme precursor; REN angiotensinogenase precursor; renin precursor, renal 770 resistin resistin - ADSF, FIZZ3, RETN1, RSTN, XCP1, RETN C/EBP-epsilon regulated myeloid-specific secreted cysteine- rich protein precursor 1; foundin inflammatory zone 3771 regulator of G- protein signalling RGS2 - G0S8, G0 to G1 switch regulatory 8, RGS2 24 kD; cell growth-inhibiting protein 31772 rhomboid, veinlet-like 1 (Drosophila) rhomboid-related protein - RHBDL, RRP, RHBDL1 Rhomboid, Drosophila, homolog of; rhomboid (veinlet, Drosophila)-like; rhomboid, veinlet-like 1 773 rhomboid, veinlet-like 2 (Drosophila) rhomboid-related protein - RRP2, rhomboid RHBDL2 (veinlet, Drosophila)-like 2; rhomboid- related protein 2 774 arginyl aminopeptidase (aminopeptidase B) Arginyl Amino-peptidase RNPEP - RNPEP aminopeptidase B 775 arginyl aminopeptidase (aminopeptidase B)- arginyl aminopeptidase B-like 1 - argininyl RNPEPL1 like 1 aminopeptidase-like 1 776 Rho-associated, coiled-coil containing protein Rho-associated protein kinase 1 - P160ROCK, ROCK1 kinase 1p160-ROCK 777 Rho-associated, coiled-coil containing protein Rho-associated protein kinase 1 - ROCK2 kinase 2 778 relaxin family peptide receptor 3somatostatin- and angiogenin-like peptide RXFP3 receptor-GPCR135, RLN3R1, SALPR, G- protein coupled receptor SALPR; relaxin 3receptor 1; somatostatin and angiotensin-like peptide receptor 779 retinoid X receptor, alpha Retinoid X Receptor Alpha - NR2B1 RXRA 780 retinoid X receptor, gamma Retinoid X Receptor Gamma - NR2B3, RXRC, RXRG retinoic acid receptor RXR- gamma 781 RYK receptor-like tyrosine kinase Ryk - JTK5, JTK5A, RYK1, JTK5A protein RYK tyrosine kinase; hydroxyaryl- protein kinase 782 ryanodine receptor 2 (cardiac) calcium-release channel (ryanodin receptor II) RYR2 783 S100 calcium binding protein, beta (neural) S-100b (astroglial protein, candidate marker for S100B cerebral tissue damage) (entered S-100b into Entrez) - NEF, S100, S-100 calcium-binding protein, beta chain; S100 beta; S100 calcium- binding protein, beta; S100 calcium-binding protein, beta (neural) 784 serum amyloid A1 cluster Serum Amyloid A (SAA), SAA, SAA4, serum SAA@ amyloid A cluster 785 serum amyloid A1 Serum Amyloid A (SAA), PIG4, SAA, TP53I4, SAA1 tumor protein p53 inducible protein 4786 serum amyloid A2 Serum Amyloid A (SAA) (no “other names SAA2 listed other than official name) 787 serum amyloid A4, constitutive Serum Amyloid A (SAA), C-SAA, CSAA SAA4 788 stearoyl-CoA desaturase (delta-9-desaturase) Stearoyl CoA desaturase - FADS5, PRO0998, SCD SCD1, acyl-CoA desaturase; delta-9-desaturase; fatty acid desaturase; predicted protein of HQ0998; stearoyl-CoA desaturase 789 secretoglobin, family 1A, member 1uteroglobin - CC10, CC16, CCSP, UGB, SCGB1A1 (uteroglobin) Uteroglobin (Clara-cell specific 10-kD protein); uteroglobin 790 sodium channel, voltage-gated, type V, alpha CDCD2, CMD1E, CMPD2, HB1, HB2, HH1, SCN5A (long QT syndrome 3) IVF, LQT3, Nav1.5, SSS1, cardiac sodium channel alpha subunit; cardiomyopathy, dilated 1E (autosomal dominant); sodium channel, voltage-gated, type V, alpha polypeptide (long (electrocardiographic) QT syndrome 3); voltage- gated sodium channel type V alpha 791 sterol carrier protein 2sterol carrier protein 2, DKFZp686C12188,SCP2 DKFZp686D11188, NLTP, NSL-TP, SCPX, nonspecific lipid-transfer protein; sterol carrier protein X 792 serine carboxypeptidase 1retinoid-inducible serine carboxypeptidase - SCPEP1 HSCP1, RISC, serine carboxypeptidase 1precursor protein 793 selectin E (endothelial adhesion molecule 1) E-selectin, CD62E, ELAM, ELAM1, ESEL, SELE LECAM2, leukocyte endothelial cell adhesion molecule 2; selectin E, endothelial adhesion molecule 1 794 selectin L (lymphocyte adhesion molecule 1) L-Selectin - CD62L, LAM-1, LAM1, LECAM1, SELL LNHR, LSEL, LYAM1, Leu-8, Lyam-1, PLNHR, TQ1, hLHRc, Leu-8 antigen; Leu-8 antigen short form; leukocyte adhesion molecule-1 (LAM-1); lymph node homing receptor; lymphocyte adhesion molecule 1;selectin L 795 selectin P (granule membrane protein CD62, CD62P, GMP140, GRMP, PADGEM, SELP 140 kDa, antigen CD62) PSEL, antigen CD62; granulocyte membrane protein; selectin P; selectin P ( granule membrane protein 140 kD, antigen CD62) 796 selectin P ligand CLA, CD162, PSGL-1, PSGL1, cutaneous SELPLG lymphocyte-associated antigen 797 serpin peptidase inhibitor, clade A (alpha-1 alpha(1)-antitrypsin - A1A, A1AT, AAT, PI, SERPINA1 antiproteinase, antitrypsin), member 1PI1, alpha-1-antitrypsin MBrescia variant; protease inhibitor 1 (anti-elastase), alpha-1- antitrypsin; serine (or cysteine) proteinase inhibitor, clade A (alpha-1 antiproteinase, antitrypsin), member 1798 serpin peptidase inhibitor, clade A (alpha-1 alpha(1)-antitrypsin - ARGS, ATR, PIL, SERPINA2 antiproteinase, antitrypsin), member 2psiATR, Protease inhibitor 1-like; protease inhibitor 1 (alpha-1-antitrypsin)-like; serine (or cysteine) proteinase inhibitor, clade A (alpha-1 antiproteinase, antitrypsin), member 2799 serpin peptidase inhibitor, clade A (alpha-1 Alpha (1)-antichymotrypsin - alpha-1- SERPINA3 antiproteinase, antitrypsin), member 3antichymotrypsin; antichymotrypsin; growth- inhibiting protein 24; growth-inhibitingprotein 25; serine (or cysteine) proteinase inhibitor, clade A, member 3; serpin peptidase inhibitor,clade A, member 3800 serpin peptidase inhibitor, clade A (alpha-1 protein C inhibitor (PCI) - PAI3, PCI, PLANH3, SERPINA5 antiproteinase, antitrypsin), member 5PROCI, Protein C inhibitor (plasminogen activator inhibitor-3); protein C inhibitor; protein C inhibitor (plasminogen activator inhibitor III); serine (or cysteine) proteinase inhibitor, clade A (alpha-1 antiproteinase, antitrypsin), member 5801 serpin peptidase inhibitor, clade A (alpha-1 alpha(1)-antitrypsin - RP1-82J11.2, TBG, alpha- SERPINA7 antiproteinase, antitrypsin), member 71 antiproteinase, antitrypsin; serine (or cysteine) proteinase inhibitor, clade A (alpha-1 antiproteinase, antitrypsin), member 7; serine (orcysteine) proteinase inhibitor, clade A, member 7; thyroxin-binding globulin; thyroxine- binding globulin 802 serpin peptidase inhibitor, clade C Anti-thrombin III (ATIII), AT3, ATIII, SERPINC1 (antithrombin), member 1antithrombin; antithrombin (aa 375-432); antithrombin III; coding sequence signal peptide antithrombin part 1; serine (or cysteine) proteinase inhibitor, clade C (antithrombin), member 1; signalpeptide antithrombin part 1803 serpin peptidase inhibitor, clade D (heparin HCII - HC2, HCF2, HCII, HLS2, LS2, heparin SERPIND1 cofactor), member 1cofactor II; leuserpin 2; serine (or cysteine)proteinase inhibitor, clade D (heparin cofactor), member 1804 serpin peptidase inhibitor, clade E (nexin, plasminogen activator inhibitor-1 - PAI, PAI-1, SERPINE1 plasminogen activator inhibitor type 1), PAI1, PLANH1, plasminogen activator inhibitor, member 1type I; plasminogen activator inhibitor-1; serine (or cysteine) proteinase inhibitor, clade E (nexin, plasminogen activator inhibitor type 1), member 1805 serpin peptidase inhibitor, clade E (nexin, Plasminogen activator inhibitor I - PAI, PAI-1, SERPINE1 plasminogen activator inhibitor type 1), PAI1, PLANH1, plasminogen activator inhibitor, member 1type 1; plasminogen activator inhibitor-1; serine(or cysteine) proteinase inhibitor, clade E (nexin, plasminogen activator inhibitor type 1), member 1806 serpin peptidase inhibitor, clade F Alpha 2 antiplasmin - alpha-2-antiplasmin; SERPINF2 alpha-2-plasmin inhibitor; serine (or cysteine) proteinase inhibitor, clade F (alpha-2 antiplasmin, pigment epithelium derived factor), member 2807 serpin peptidase inhibitor, clade G (C1 complement C1 inactivator - complement SERPING1 inhibitor), member 1component 1 inhibitor; plasma protease C1inhibitor; serine (or cysteine) proteinase inhibitor, clade G (C1 inhibitor), member 1,(angioedema, hereditary); serine/cysteine proteinase inhibitor clade G member 1splice variant 3 808 sarcoglycan, delta (35 kDa dystrophin- sarcoglycan - 35DAG, CMD1L, DAGD, SG- SGCD associated glycoprotein) delta, SGCDP, SGD, 35 kD dystrophin- associated glycoprotein; delta-sarcoglycan; dystrophin associated glycoprotein, delta sarcoglycan; placental delta sarcoglycan; sarcoglycan, delta (35 kD dystrophin-associated glycoprotein) 809 serum/glucocorticoid regulated kinase Serum/Glucocorticoid Regulated Kinase 1 - SGK SGK1, serine/threonine protein kinase SGK; serum and glucocorticoid regulated kinase 810 serum/glucocorticoid regulated kinase family, serum/glucocorticoid regulated kinase-like - SGK3 member 3CISK, SGK2, SGKL, cytokine-independent survival kinase; serum/glucocorticoid regulated kinase 3; serum/glucocorticoid regulated kinase-like 811 sphingosine-1- phosphate lyase 1sphingosine phosphate lyase - SPL SGPL1 812 sphingosine-1- phosphate phosphatase 1FLJ39004, SPP2; sphingosine 1-phosphate SGPP2 phosphohydrolase 2 813 sex hormone-binding globulin sex hormone-binding globulin (SHBG) - ABP, SHBG Sex hormone-binding globulin (androgen binding protein) 814 S-phase kinase-associated protein 2 (p45) Skp2: CDK2/cyclin A-associated protein p45; S- SKP2 phase kinase-associated protein 2815 solute carrier family 22 (organic cation Organic Cation Transporter SLC22A1 - HOCT1, SLC22A1 transporter), member 1OCT1, oct1_cds, organic cation transporter 1;solute carrier family 22member 1816 solute carrier family 22 (organic anion/cation organic cation transporter SLC22A10 - OAT5, SLC22A10 transporter), member 10hOAT5, organic anion transporter 5, UST3-LIKE2 817 solute carrier family 22 (organic anion/cation Organic Cation Transporter SLC22A11 - OAT4, SLC22A11 transporter), member 11hOAT4, organic anion transporter 4;solute carrier family 22 member 11818 solute carrier family 22 (organic anion/cation Organic Cation Transporter SLC22A12 - SLC22A12 transporter), member 12OAT4L, RST, URAT1, organic anion transporter 4-like; solute carrier family 22member 12; urateanion exchanger 1; urate transporter 1819 solute carrier family 22 (organic cation organic cationic transporter-like 3 - OCTL1, SLC22A13 transporter), member 13OCTL3, ORCTL3, organic cation transporter like 3; organic cationic transporter-like 3 820 solute carrier family 22 (organic cation Organic Cationic Transporter-Like 4 - OCTL2, SLC22A14 transporter), member 14OCTL4, ORCTL4, organic cation transporter like 4; organic cationic transporter-like 4 821 solute carrier family 22 (organic cation ORGANIC CATION TRANSPORTER FLIPT1 - SLC22A15 transporter), member 15FLIPT1, fly-like putative organic ion transporter 1; trans- like protein 822 solute carrier family 22 (organic cation Putative Organic Ion Transporter 0KB1 - CT2, SLC22A16 transporter), member 16FLIPT2, OCT6, OKB1; carnitine transporter 2;fly-like putative organic ion transporter 2;organic cation transporter 6;solute carrier family 22, member 16823 solute carrier family 22 (organic cation Potent Brain Type Organic Ion Transporter - SLC22A17 transporter), member 17BOCT, BOIT, hBOIT, potent brain type organic ion transporter 824 solute carrier family 22 (organic cation Organic Cation Transporter SLC22A1L - SLC22A18 transporter), member 18BWR1A, BWSCR1A, HET, IMPT1, ITM, ORCTL2, SLC22A1L, TSSC5, p45-BWR1A, Beckwith-Wiedemann syndrome chromosome region 1, candidate A; efflux transporter-like protein; imprinted multi-membrane spanning polyspecific transporter-related protein; organic cation transporter-like 2; p45 Beckwith- Wiedemann region 1A; solute carrier family 22 (organic cation transporter), member 1-like; tumor suppressing subtransferable candidate 5;tumor-suppressing STF cDNA 5825 solute carrier family 22 (organic cation Organic Cation Transporter SLC22A2 - OCT2, SLC22A2 transporter), member 2organic cation transporter (OCT2); organic cation transporter 2; solute carrier family 22member 2826 solute carrier family 22 (extraneuronal Organic Cation Transporter SLC22A3 - EMT, SLC22A3 monoamine transporter), member 3EMTH, OCT3, EMT organic cation transporter 3; extraneuronal monoamine transporter; organic cation transporter 3; solute carrier family 22member 3827 solute carrier family 22 (organic cation Organic Cation Transporter SLC22A4 - OCTN1, SLC22A4 transporter), member 4integral membrane transport protein; organic cation transporter 4; solute carrier family 22member 4828 solute carrier family 22 (organic cation Organic Cation Transporter SLC22A5 - CDSP, SLC22A5 transporter), member 5OCTN2, high-affinity sodium dependent carnitine cotransporter; organic cation transporter 5; organic cation/ carnitine transporter 2; solute carrier family 22member 5829 solute carrier family 22 (organic anion Organic Cation Transporter SLC22A6 - SLC22A6 transporter), member 6HOAT1, OAT1, PAHT, ROAT1, para- aminohippurate transporter; renal organic anion transporter 1; solute carrier family 22member 6833 solute carrier family 22 (organic anion Organic anion Transporter SLC22A7 - NLT, SLC22A7 transporter), member 7OAT2, liver-specific transporter; organic anion transporter 2; solute carrier family 22member 7830 solute carrier family 22 (organic anion organic anion transporter SLC22A8 - OAT3, SLC22A8 transporter), member 8organic anion transporter 3;solute carrier family 22 member 8831 solute carrier family 22 (organic anion/cation organic anion transporting (OAT)-like protein SLC22A9 transporter), member 9UST3-LIKE1-HOAT4, OAT4, UST3H, ust3, organic anion transporter 4832 solute carrier family 22 (organic anion/cation Organic Cation Transporter SLC22A9 - HOAT4, SLC22A9 transporter), member 9OAT4, UST3H, ust3, organic anion transporter 4834 solute carrier family 27 (fatty acid fatty acid CoA ligase-like AMP-binding enzyme - SLC27A2 transporter), member 2ACSVL1, FACVL1, FATP2, HsT17226, VLACS, VLCS, hFACVL1, very long-chain fatty-acid- coenzyme A ligase 1; very-long-chainacyl- CoA synthetase 835 solute carrier family 31 (copper transporters) COPT1; CTR1; MGC75487; hCTR1; copper SLC31A1 member 1 transporter homolog 1;copper transporter 1836 solute carrier family 6 (neurotransmitter neurotransmitter transporters - GAT-3, GAT3 SLC6A11 transporter, GABA), member 11837 solute carrier family 6 (neurotransmitter neurotransmitter transporters - 5-HTT, 5HTT, SLC6A4 transporter, serotonin), member 4HTT, OCD1, SERT, hSERT, 5- hydroxytryptamine transporter; 5HT transporter; Na+/Cl− dependent serotonin transporter; serotonin transporter; sodium-dependent serotonin transporter; solute carrier family 6member 4838 solute carrier family 9 (sodium/hydrogen sodium proton exchanger (NHE-I) - APNH, SLC9A1 exchanger), member 1 (antiporter, Na+/H+, NHE1, Na+/H+ antiporter, amiloride-sensitive; amiloride sensitive) Na—Li countertransporter; sodium/ hydrogen exchanger 1; solute carrier family 9 (sodium/hydrogen exchanger), isoform 1 (antiporter, Na+/H+, amiloride sensitive); solute carrier family 9, isoform A1 839 sphingomyelin phosphodiesterase 1, acidASM, NPD, acid sphingomyelinase; SMPD1 lysosomal (acid sphingomyelinase) sphingomyelin phosphodiesterase 1, acidlysosomal 840 smoothelin smoothelin SMTN 841 superoxide dismutase 1, soluble (amyotrophicsuperoxide-dismutase: Cu/Zn superoxide SOD1 lateral sclerosis 1 (adult)) dismutase; Cu/Zn superoxide dismutase; SOD, soluble; indophenoloxidase A 842 secreted phosphoprotein 1 (osteopontin, bone osteopontin: secreted phosphoprotein 1; secretedSPP1 sialoprotein I, early T-lymphocyte activation phosphoprotein-1 (osteopontin, bone 1) sialoprotein) 843 somatostatin receptor 1somatostatin receptor 1 - SRIF-2, G-protein SSTR1 coupled receptor; somatostatin receptor isoform 1844 somatostatin receptor 2somatostatin receptor subtype 2SSTR2 845 somatostatin receptor 3somatostatin receptor 3 - SSTR3 846 somatostatin receptor 4somatostatin receptor 4 - G-protein coupled SSTR4 receptor 847 somatostatin receptor 5somatostatin receptor 5 - somatostatin receptor SSTR5 subtype 5848 succinate receptor 1 G protein-coupled receptor 91 - GPR91, G SUCNR1 protein-coupled receptor 91;P2Y purinoceptor 1849 trace amine associated receptor 1trace amine receptor 1 - TA1, TAR1, TRAR1, TAAR1 trace amine receptor 1850 trace amine associated receptor 2 G-protein coupled receptor 58 - GPR58, G TAAR2 protein-coupled receptor 58851 trace amine associated receptor 3 G-protein coupled receptor 57 - G protein- TAAR3 coupled receptor 57, GPR57, GPR58, TAAR3852 trace amine associated receptor 5putative neurotransmitter receptor - PNR, TAAR5 putative neurotransmitter receptor 853 trace amine associated receptor 6 G protein-coupled receptor polypeptide (TA4 TAAR6 receptor) - TA4, TRAR4, trace amine receptor 4854 trace amine associated receptor 8TA5 receptor - GPR102, TA5, TAR5, TRAR5, TAAR8 G protein- coupled receptor 102;trace amine receptor 5 855 tachykinin receptor 1Tachykinin Receptor 1 - NK1R, NKIR, SPR, TACR1 TAC1R, NK-1 receptor; Tachykinin receptor 1 (substance P receptor; neurokinin-1 receptor); neurokinin 1 receptor;tachykinin 1 receptor(substance P receptor, neurokinin 1 receptor)856 tachykinin receptor 2Tachykinin Receptor 2 - NK2R, NKNAR, SKR, TACR2 TAC2R, NK-2 receptor; Tachykinin receptor 2 (substance K receptor; neurokinin 2 receptor);neurokinin 2 receptor; neurokinin-2 receptor;seven transmembrane helix receptor; tachykinin 2 receptor (substance K receptor, neurokinin 2receptor) 857 tachykinin receptor 3Tachykinin Receptor 3 - NK3R, TAC3RL, NK-3 TACR3 receptor; neurokinin B receptor 858 TBC1 domain family, member 2TBC1 domain family member 2 - PARIS-I, TBC1D2 PARIS1, TBC1D2A, prostate antigen recognized and identified by SEREX (serological identification of anitgens by recombinant expression cloning) 859 thromboxane A2 receptor thromboxane A2 - TXA2-R, PROSTANOID TP TBXA2R RECEPTOR 860 transcription factor 2, hepatic; LF-B3; varianthepatocyte nuclear factor 2 - FJHN, HNF1B, TCF2 hepatic nuclear factor HNF1beta, HNF2, LFB3, MODY5, VHNF1, transcription factor 2861 transcription factor CP2 SEF - CP2, LBP-1C, LSF, SEF, TFCP2C, SAA3 TFCP2 enhancer factor; Transcription factor CP2, alpha globin 862 tissue factor pathway inhibitor (lipoprotein- Tissue factor pathway inhibitor (TFPI) - EPI, TFPI associated coagulation inhibitor) LACI 863 transforming growth factor, beta 1 (Camurati- TGF-beta: TGF- beta 1 protein; diaphysealTGFB1 Engelmann disease) dysplasia 1, progressive; transforminggrowth factor beta 1; transforming growth factor, beta 1;transforming growth factor- beta 1, CED, DPD1,TGFB 864 transforming growth factor, beta 2TGF beta 2 - TGF-beta2 TGFB2 865 transforming growth factor, beta receptor III TGF-3: TGF-beta3 TGFB3 (betaglycan, 300 kDa) 866 thrombomodulin soluble thrombomodulin - CD141, THRM, TM, THBD CD141 antigen; fetomodulin 867 thrombospondin 1thrombospondin - THBS, TSP, TSP1, THBS1 thrombospondin-1p180 868 thrombospondin 2thrombospondin 2 - TSP2 THBS2 869 thyroid hormone receptor, alpha thyroid hormone receptor alpha - AR7, EAR-7.1, THRA (erythroblastic leukemia viral (v-erb-a) EAR-7.2, EAR7, ERB-T-1, ERBA, ERBA- oncogene homolog, avian) ALPHA, ERBA1, NR1A1, THRA1, THRA2, THRA3, TR-ALPHA-1, c-ERBA-1, c-ERBA- ALPHA-2, EAR-7.1/EAR-7.2; ERBA-related 7; avian erythroblastic leukemia viral (v-erb-a) oncogene homolog; thyroid hormone receptor, alpha; thyroid hormone receptor, alpha (avian erythroblastic leukemia viral (v-erb-a) oncogene homolog); thyroid hormone receptor, alpha 1;thyroid hormone receptor, alpha-2; thyroid hormone receptor, alpha-3; triiodothyronine receptor 870 thyroid hormone receptor, beta (erythroblastic thyroid hormone receptor-beta - ERBA-BETA, THRB leukemia viral (v-erb-a) oncogene homolog 2,ERBA2, GRTH, NR1A2, THR1, THRB1, avian) THRB2, avian erythroblastic leukemia viral (v- erb-a) oncogene homolog 2; generalizedresistance to thyroid hormone; oncogene ERBA2; thyroid hormone receptor beta 1;thyroid hormone receptor, beta; thyroid hormone receptor, beta (avian erythroblastic leukemia viral (v-erb-a) oncogene homolog 2) 871 TIMP metallopeptidase inhibitor 1Tissue inhibitors of metalloproteinase (TIMPs) - TIMP1 CLGI, EPA, EPO, HCI, TIMP, erythroid potentiating activity; fibroblast collagenase inhibitor; tissue inhibitor of metalloproteinase 1;tissue inhibitor of metalloproteinase 1 (erythroid potentiating activity, collagenase inhibitor) 872 TIMP metallopeptidase inhibitor 2Tissue inhibitors of metalloproteinase (TIMPs) - TIMP2 CSC-21K, tissue inhibitor of metalloproteinase 2; tissue inhibitor of metalloproteinase 2precursor; tissue inhibitor of metalloproteinases 2873 TIMP metallopeptidase inhibitor 3 (Sorsby Tissue inhibitors of metalloproteinase (TIMPs) - TIMP3 fundus dystrophy, pseudoinflammatory) HSMRK222, K222, K222TA2, SFD, MIG-5 protein; tissue inhibitor of metalloproteinase 3;tissue inhibitor of metalloproteinase 3 (Sorsby fundus dystrophy, pseudoinflammatory) 874 TIMP metallopeptidase inhibitor 4Tissue inhibitors of metalloproteinase (TIMPs) - TIMP4 tissue inhibitor of metalloproteinase 4875 TLR4 and Name: toll- like receptor 4TLR4 299Gly allele associated with TLR4 DECREASED CAD risk - CD284, TOLL, hToll, homolog of Drosophila toll 876 transmembrane protease, serine 13mosaic serine protease - MSP, MSPL, mosaic TMPRSS13 serine protease; transmembrane protease, serine 11 877 transmembrane protease, serine 2transmembrane serine protease 2 - PRSS10, TMPRSS2 epitheliasin 878 transmembrane protease, serine 3transmembrane serine protease 3 - DFNB10, TMPRSS3 DFNB8, ECHOS1, TADG12, serine protease TADG12 879 transmembrane protease, serine 4transmembrane serine protease 4 - MT-SP2, TMPRSS4 TMPRSS3, membrane-type serine protease 2;transmembrane serine protease 3880 transmembrane protease, serine 5 (spinesin) transmembrane serine protease 5 - SPINESIN, TMPRSS5 transmembrane protease, serine 5881 thymosin, beta 4, X-linkedThymosine beta 4 - FX, PTMB4, TB4X, TMSB4X TMSB4, prothymosin beta-4; thymosin beta-4; thymosin, beta 4; thymosin,beta 4,X chromosome 882 thymosin, beta 4, Y-linkedThymosine beta 4 - TB4Y, thymosin beta-4, Y TMSB4Y isoform; thymosin, beta 4,Y chromosome 883 tumor necrosis factor (TNF superfamily, TNF-alpha (tumour necrosis factor-alpha) - DIF, TNF member 2) TNF-alpha, TNFA, TNFSF2, APC1 protein; TNF superfamily, member 2; TNF, macrophage-derived; TNF, monocyte-derived; cachectin; tumor necrosis factor alpha 884 tumor necrosis factor (TNF superfamily, tumor necrosis factor receptor 2 - DIF, TNF- TNF member 2) alpha, TNFA, TNFSF2, APC1 protein; TNF superfamily, member 2; TNF, macrophage-derived; TNF, monocyte-derived; cachectin; tumor necrosis factor alpha 885 tumor necrosis factor receptor superfamily, soluble necrosis factor receptor - CD262, DR5, TNFRSF10B member 10b KILLER, KILLER/DR5, TRAIL-R2, TRAILR2, TRICK2, TRICK2A, TRICK2B, TRICKB, ZTNFR9, Fas-like protein precursor; TNF- related apoptosis- inducing ligand receptor 2;TRAIL receptor 2; apoptosis inducing proteinTRICK2A/2B; apoptosis inducing receptor TRAIL-R2; cytotoxic TRAIL receptor-2; death domain containing receptor for TRAIL/Apo-2L; death receptor 5; p53-regulated DNA damage-inducible cell death receptor(killer); tumor necrosis factor receptor-like protein ZTNFR9 886 tumor necrosis factor receptor superfamily, soluble necrosis factor receptor - CD263, DCR1, TNFRSF10C member 10c, decoy without an intracellular LIT, TRAILR3, TRID, TNF related TRAIL domain receptor; TNF related apoptosis-inducing ligand receptor 3; TRAIL receptor 3; antagonist decoyreceptor for TRAIL/Apo-2L; decoy receptor 1;decoy without an intracellular domain; lymphocyte inhibitor of TRAIL; tumor necrosis factor receptor superfamily, member 10c 887 tumor necrosis factor receptor superfamily, soluble necrosis factor receptor - CD264, DCR2, TNFRSF10D member 10d, decoy with truncated death TRAILR4, TRUNDD, TNF receptor-related domain receptor for TRAIL; TRAIL receptor 4; TRAILreceptor with a truncated death domain; decoy receptor 2; decoy with truncated death domain; tumor necrosis factor receptor superfamily, member 10d 888 tumor necrosis factor receptor superfamily, CD265, EOF, FEO, ODFR, OFE, PDB2, RANK, TNFRSF11A member 11a, NFKB activator TRANCER, osteoclast differentiation factor receptor; receptor activator of nuclear factor- kappa B; tumor necrosis factor receptor superfamily, member 11a; tumor necrosis factor receptor superfamily, member 11a, activator of NFKB 923 tumor necrosis factor receptor superfamily, OPG (osteoprotegerin), OCIF, OPG, TR1, TNFRSF11B member 11b (osteoprotegerin) osteoclastogenesis inhibitory factor; osteoprotegerin 889 tumor necrosis factor receptor superfamily, soluble necrosis factor receptor - ATAR, HVEA, TNFRSF14 member 14 (herpesvirus entry mediator) HVEM, LIGHTR, TR2, CD40-like protein precursor; herpesvirus entry mediator; herpesvirus entry mediator A; tumor necrosis factor receptor superfamily, member 14; tumornecrosis factor receptor- like gene2 890 tumor necrosis factor receptor superfamily, tumor necrosis factor receptor 1 gene R92QTNFRSF1A member 1A polymorphism - CD120a, FPF, TBP1, TNF-R, TNF-R-I, TNF-R55, TNFAR, TNFR1, TNFR55, TNFR60, p55, p55-R, p60, tumor necrosis factor binding protein 1; tumor necrosis factor receptor 1; tumor necrosis factor receptor type 1; tumornecrosis factor- alpha receptor 891 tumor necrosis factor receptor superfamily, soluble necrosis factor receptor - CD120b, TNFRSF1B member 1BTBPII, TNF-R-II, TNF-R75, TNFBR, TNFR2, TNFR80, p75, p75TNFR, p75 TNF receptor; tumor necrosis factor beta receptor; tumor necrosis factor binding protein 2; tumornecrosis factor receptor 2 892 tumor necrosis factor receptor superfamily, soluble necrosis factor receptor - APO-3, DDR3, TNFRSF25 member 25DR3, LARD, TNFRSF12, TR3, TRAMP, WSL- 1, WSL-LR, apoptosis inducing receptor; apoptosis-mediating receptor; death domain receptor 3; death domain receptor 3 solubleform; death receptor beta; lymphocyte associated receptor of death; translocating chain-association membrane protein; tumor necrosis factor receptor superfamily, member 12; tumor necrosisfactor receptor superfamily, member 12 (translocating chain-association membrane protein) 893 tumor necrosis factor superfamily, member 8CD30, DIS166E, KI-1, CD30 antigen; CD30L TNFRSF8 receptor; Ki-1 antigen; cytokine receptor CD30; lymphocyte activation antigen CD30 894 tumor necrosis factor (ligand) superfamily, TNF-related apoptosis-inducing ligand (APO- TNFSF10 member 102L) (TRAIL), APO2L, Apo-2L, CD253, TL2, TRAIL, Apo-2 ligand; TNF-related apoptosis inducing ligand TRAIL 895 tumor necrosis factor (ligand) superfamily, CD254, ODF, OPGL, RANKL, TRANCE, TNFSF11 member 11hRANKL2, sOdfTNF-related; activation- induced cytokine; osteoclast differentiation factor; osteoprotegerin ligand; receptor activator of nuclear factor kappa B ligand; tumor necrosis factor ligand superfamily, member 11896 troponin C type 1 (slow) TNC, TNNC; Troponin-C1, slow; cardiac TNNC1 troponin C; troponin C, slow; troponin C1, slow 897 troponin I type 3 (cardiac) cardiac Troponin I, CMH7, TNNC1, cTnI, TNNI3 familial hypertrophic cardiomyopathy 7;troponin I, cardiac 898 TNNI3 interacting kinase cardiac-related ankyrin-repeat protein kinase- TNNI3K CARK, TNNI3 interacting kinase variant; cardiac ankyrin repeat kinase 899 troponin T type 1 (skeletal, slow) ANM, MGC104241; troponin T1, skeletal, slow; TNNT1 troponin-T1, skeletal, 900 troponin T type 2 (cardiac) cardiac Troponin T, CMD1D, CMH2, TnTC, TNNT2 cTnT, troponin T type 2, cardiac; troponin T,cardiac muscle; troponin T2, cardiac 901 tropomyosin 1 (alpha) tropomyosin, α-skeletal - HTM-alpha, TMSA, TPM1 TPM1-alpha, TPM1-kappa, alpha tropomyosin; sarcomeric tropomyosin kappa; tropomyosin 1alpha chain 902 tropomyosin 3tropomysin 3 - NEM1, TRK TPM3 903 tripeptidyl peptidase I TpP - CLN2, GIG1, LINCL, TPP I, TPP-I, TPP1 ceroid-lipofuscinosis, neuronal 2, late infantile (Jansky-Bielschowsky disease); growth- inhibiting protein 1; tripeptidyl-peptidase I904 tripeptidyl peptidase II Tripeptidyl Peptidase 2 - TRIPEPTIDYL TPP2 PEPTIDASE II 905 tryptase alpha/ beta 1mast cell Tryptase, TPS1, TPS2, TPSB1, alpha TPSAB1 II, lung tryptase; mast cell protease II; mast cell tryptase; pituitary tryptase; skin tryptase; tryptase 1; tryptase II;tryptase beta 1; tryptase,alpha; tryptase-I; tryptase-III 906 tryptase beta 2mast cell Tryptase, TPS2, TPSB1, tryptaseC, TPSB2 beta; beta II; beta III; lung tryptase; mast cell protease I; mast cell tryptase; pituitary tryptase; skin tryptase; tryptase II; tryptase III; tryptaseB 907 tryptase delta 1mast cell Tryptase, MCP7L1, MMCP-7L, TPSD1 hmMCP-3-like tryptase III; hmMCP-7-like; mMCP-7-like delta II tryptase; mMCP-7-like-1; mMCP-7-like-2; mast cell protease 7-like; mast cell tryptase 908 tryptase gamma 1mast cell Tryptase, PRSS31, TMT, trpA, gamma TPSG1 I; gamma II; lung tryptase; mast cell protease II; mast cell tryptase; pituitary tryptase; skin tryptase; transmembrane tryptase 909 thyrotropin-releasing hormone degrading thyrotropin-releasing hormone degrading TRHDE enzyme ectoenzyme - PAP-II, PGPEP2, TRH-DE, pyroglutamyl-peptidase II; thyrotropin-releasing hormone degrading ectoenzyme 910 transient receptor potential cation channel, vanilloid receptor 1 - VR1, capsaicin receptor; TRPV1 subfamily V, member 1transient receptor potential vanilloid 1a; transient receptor potential vanilloid 1b; vanilloid receptor subtype 1, capsaicin receptor; transient receptor potential vanilloid subfamily 1 (TRPV1) 911 thymidylate synthetase thymidylate synthase - HsT422, TMS, TS, Tsase, TYMS Thymidylate synthase 912 UDP glycosyltransferase 8 (UDP-galactose ceramide glucosyl transferase - CGT UGT8 ceramide galactosyltransferase) 913 urotensin 2 receptorG-protein coupled receptor 14 - GPR14, UTR, UTS2R UTR2, G protein-coupled receptor 14914 vascular cell adhesion molecule 1 (soluble) vascular cell adhesion molecule-1, VCAM1 CD106, INCAM-100, CD106 antigen, VCAM-1 915 vinculin vinculin - MVCL VCL 916 vitamin D (1,25-dihydroxyvitamin D3) vitamin D receptor 1 - NR1I1 - vitamin D (1,25- VDR receptor dihydroxyvitamin D3) receptor 917 vascular endothelial growth factor VEGF - VEGFA, VPF, vascular endothelial VEGF growth factor A; vascular permeability factor 918 vascular endothelial growth factor A MGC70609, VEGF, VEGF-A, VPF; vascular VEGFA permeability factor, VEGF(A)21 919 vasoactive intestinal peptide receptor 1vasoactive intestinal peptide receptor 1 - HVR1, VIPR1 II, PACAP-R-2, RCD1, RDC1, VIPR, VIRG, VPAC1, PACAP type II receptor; VIP receptor, type I; pituitary adenylate cyclase activating polypeptide receptor, type II 920 vasoactive intestinal peptide receptor 2Vasoactive Intestinal Peptide Receptor 2 - VIPR2 VPAC2 921 vitronectin fibrin monomer, complement S-protein; VTN epibolin; serum spreading factor; somatomedin B; vitronectin (serum spreading factor, somatomedin B, complement S-protein) 922 von Willebrand factor A domain containing 2 von Willebrand Factor propeptide (vWFAgII) - VWA2 AMACO, CCSP-2, A-domain containing protein similar to matrilin and collagen; colon cancer diagnostic marker; colon cancer secreted protein-2 938 von Willebrand factor von Willebrand factor, F8VWF, VWD, VWF coagulation factor VIII VWF 939 chemokine (C motif) receptor 1 G protein-coupled receptor 5 - CCXCR1, GPR5, XCR1 G protein-coupled receptor 5;XC chemokine receptor 1; chemokine (C motif) XC receptor 1;lymphotactin receptor 940 X-prolyl aminopeptidase (aminopeptidase P) x-prolyl aminopeptidase (aminopeptidase P) 1 - XPNPEP1 1, soluble SAMP, XPNPEP, XPNPEPL, XPNPEPL1, X- prolyl aminopeptidase (aminopeptidase P) 1, soluble (SAMP, XPNPEP, XPNPEPL); X-prolyl aminopeptidase (aminopeptidase P)-like 941 X-prolyl aminopeptidase (aminopeptidase P) X-prolyl aminopeptidase 2 - X-prolyl XPNPEP2 2, membrane-bound aminopeptidase 2 (aminopeptidase P); X-prolyl aminopeptidase 2, membrane-bound; aminoacylproline aminopeptidase; aminopeptidase P 942 sterile alpha motif and leucine zipper sterile-alpha motif and leucine zipper containing ZAK containing kinase AZK kinase - AZK, MLK7, MLT, MLTK, MRK, mlklak, MLK-like mitogen-activated protein triple kinase; MLK-related kinase; cervical cancer suppressor gene 4 protein; leucine zipper-and sterile alpha motif-containing kinase; mitogen-activated protein kinase kinase kinase MLT; mixed lineage kinase 7; mixed lineagekinase with a leucine zipper and a sterile alpha motif; mixed lineage kinase-related kinase; mixed lineage kinase-related kinase MRK- beta 943 leukocyte-platelet aggregates (LPA) - leukocyte-platelet aggregates (LPA) - measured zCells measured by whole blood flow cytometry by whole blood flow cytometry 944 Mobilization of CD34/CXCR4+, Mobilization of CD34/CXCR4+, zCells CD34/CD117+, c-met+ stem cells CD34/CD117+, c- met+ stem cells 945 CD14+CD16+ monocytes CD14+ CD16+ monocytes zCells 946 circulating endothelial cells circulating endothelial cells zCells 947 HLADR+ CD3+ and CD69+CD4+ cells HLADR+ CD3+ and CD69+ CD4+ cells zCells 948 Circulating hHSP60-specific CD4 + CD28null Circulating hHSP60-specific CD4 + CD28null zCells cells cells 949 erythrocyte aggregability erythrocyte aggregability zCells 950 Cytomegalovirus infection CMV infection zCMV 951 D-Dimer D-Dimer, Fragment D-dimer, Fibrin degradation zD-Dimer fragment, Fibrin Degradation Products (FDP) 952 4-hydroxynonenal (HNE) 4-hydroxynonenal (HNE) zHNE 953 malondialdehyde-modified low density malondialdehyde-modified low density zMDA-LDL lipoprotein (MDA-LDL) lipoprotein (MDA-LDL) 954 thromboxane A2 Thromboxane (TX) A(2), a cyclooxygenase- zMetabolite derived mediator 955 thromboxane B2 11-Dehydro-thromboxane B2, a stable zMetabolite thromboxane metabolite, is a full agonistof chemoattractant receptor-homologous molecule expressed on TH2 cells (CRTH2)in human eosinophils andbasophils 956 uric acid uric acid zMetabolite 957 Unbound free fatty acids (FFA(u)) Unbound free fatty acids (FFA(u)) zMetabolite 958 neopterin neopterin zMetabolite 959 glucose altered glycemia zMetabolite 960 malondialdehyde (MDA) malondialdehyde (MDA) zMetabolite 961 calcium coronary calcium - (coronary for CEP) & zMetabolite (ionized calcium for OFP) 962 lactic acid lactic acid zMetabolite 963 prostacyclin PGI2 - present in urine zMetabolite 964 Total Sialic Acid (TSA) Total Sialic Acid (TSA) zMetabolite 965 citric acid citric acid zMetabolite 970 citrulline citrulline zMetabolite 971 uridine uridine zMetabolite 972 hyaluronan hyaluronan zMetabolite 973 alanine alanine zMetabolite 974 argininosuccinate argininosuccinate zMetabolite 975 Gamma-aminobutyric acid (GABA) Gamma-aminobutyric acid (GABA) zMetabolite 976 aconitic acid aconitic acid zMetabolite 977 hydroxyhippuric acid hydroxyhippuric acid zMetabolite 978 hypoxanthine hypoxanthine zMetabolite 979 inosine inosine zMetabolite 980 oxaloacetate oxaloacetate zMetabolite 981 phenylalanine phenylalanine zMetabolite 982 serine serine zMetabolite 983 tryptophan tryptophan zMetabolite 984 lysophosphatidic acid lysophosphatidic acid zMetabolite 985 8-isoprostane-prostaglandin F 2 (Iso-P) 8-isoprostane-prostaglandin F 2 (Iso-P) zMetabolite 986 Remnant-like lipoprotein particles Remnant-like lipoprotein particles cholesterol; zMetabolite cholesterol; RLP-C RLP- C 987 6-ketoprostaglandin F1a 6-ketoprostaglandin F1a, the stable metabolite of zMetabolite prostacyclin (PGI2) 988 chlorine soluble mucoprotein chlorine soluble mucoprotein zMetabolite 989 neutrophil protease-4 (NP4) neutrophil protease-4 (NP4) zMetabolite 990 protenin protenin zMetabolite 991 Intraplatelet Tetrahydrobiopterin (BH[4]) Intraplatelet BH(4) zMetabolite 992 hydroxybutyrate dehydrogenase (HBDH) hydroxybutyrate dehydrogenase (HBDH) zMetabolite 993 Med2 Subunit of the RNA polymerase II mediator zMetabolite complex; associates with core polymerase subunits to form the RNA polymerase II holoenzyme; essential for transcriptional regulation 994 2,3-dinor-6-keto Prostaglandin F1α 2,3-dinor-6- keto PGF1α zMetabolite 995 8,12-iso- iPF2α 8,12-iso-iPF2α zMetabolite 996 acylglycerol acyltransferase-like proteins acylglycerol acyltransferase-like proteins DC4 zMetabolite DC4 997 ATPase Ca++ binding protein ATPase Ca++ binding protein zMetabolite 998 calcium-dependent alpha-latrotoxin receptor calcium-dependent alpha- latrotoxin receptor zMetabolite 999 cardiovascular disorder plasma polypeptide cardiovascular disorder plasma polypeptide zMetabolite 1000 G-protein-coupled receptor H7TBA62 G-protein-coupled receptor zMetabolite H7TBA62, Polynucleotide encoding G-protein coupled receptor (H7TBA62) 1001 hematopoietin receptor-like protein hematopoietin receptor-like protein zMetabolite 1002 HM74-like G protein coupled receptor HM74-like G protein coupled receptor zMetabolite 1003 IGS70 IGS70 zMetabolite 1004 neuropeptide Y G protein-coupled receptor neuropeptide Y G protein-coupled receptor zMetabolite 1005 organic anion transporter ust3 like 3 organic anion transporter ust3 like 3 zMetabolite 1006 phosphate channel interacting protein phosphate channel interacting protein zMetabolite 1007 phosphodiesterase 9a3 phosphodiesterase 9a3 zMetabolite 1008 phosphodiesterase 9a4 phosphodiesterase 9a4 zMetabolite 1009 plasma 13-HODE plasma 13- HODE zMetabolite 1010 secretin-like G protein-coupled receptor secretin-like G protein- coupled receptor zMetabolite 1011 iPF2α-III iPF2α-III zMetabolite 1012 LFA-2 LFA-2, human lymphocyte membrane protein zMetabolite 1013 phosphoglyceric acid mutase-MB phosphoglyceric acid mutase-MB zMetabolite 1014 renin-angiotensin system renin-angiotensin system zMetabolite 1015 sphingosine sphingosine zMetabolite 1016 mitochondrial DNA mitochondrial DNA zmtDNA 1017 C terminal propeptide of Type I procollagen C terminal propeptide of Type I procollagen zPICP (PICP) (PICP) - CICP, collagen I synthesis byproduct (PICP) 1018 collagen III synthesis byproduct (PIIINP) collagen III synthesis byproduct (PIIINP) zPIIINP 1019 amino-terminal propeptide of type I Amino-terminal propeptide of type I procollagen zPINP procollagen (PINP) (PINP), collagen I synthesis byproduct (PINP) 1020 collagen I synthesis byproduct (PIP) collagen I synthesis byproduct (PIP) zPIP 1021 Homocysteine (total) Homocysteine (total) ztHcy 1022 a vascular endothelial cell specific and LIM a vascular endothelial cell specific and LIM zVELP2 domain containing molecule domain containing molecule 1023 white blood cell count white blood cell count zWBC Count - In addition to the above listed analyte-based ARTERIORISKMARKERS, all of the previously described Clinical Parameters and Traditional Laboratory Risk Factors are also considered ARTERIORISKMARKERS.
- Additional ARTERIORISKMARKERS are those described in co-pending applications, U.S. patent application Ser. No. 11/546,874 and U.S. patent application Ser. No. 11/788,260, the disclosures of which are herein incorporated in their entirety.
- One skilled in the art will note that the above listed ARTERIORISKMARKERS come from a diverse set of physiological and biological pathways, including many which are not commonly accepted to be related to arteriovascular disease. These groupings of different ARTERIORISKMARKERS, even within those high significance segments, may passage differing signals of the stage or rate of the progression of the disease. Such distinct groupings of ARTERIORISKMARKERS may allow a more biologically detailed and clinically useful signal from the ARTERIORISKMARKERS as well as opportunities for pattern recognition within the ARTERIORISKMARKER algorithms combining the multiple ARTERIORISKMARKER signals.
- The present invention concerns, in one aspect, a subset of ARTERIORISKMARKERS; other ARTERIORISKMARKERS and even biomarkers which are not listed in the above Table 2, but related to these physiological and biological pathways, may prove to be useful given the signal and information provided from these studies. To the extent that other biomarker pathway participants (i.e., other biomarker participants in common pathways with those biomarkers contained within the list of ARTERIORISKMARKERS in the above Table 2) are also relevant pathway participants in arteriovascular disease or an arteriovascular event, they may be functional equivalents to the biomarkers thus far disclosed in Table 2. These other pathway participants are also considered ARTERIORISKMARKERS in the context of the present invention, provided they additionally share certain defined characteristics of a good biomarker, which would include both involvement in the herein disclosed biological processes and also analytically important characteristics such as the bioavailability of said biomarkers at a useful signal to noise ratio, and in a useful and accessible sample matrix such as blood serum. Such requirements typically limit the diagnostic usefulness of many members of a biological pathway, and frequently occurs only in pathway members that constitute secretory substances, those accessible on the plasma membranes of cells, as well as those that are released into the serum upon cell death, due to apoptosis or for other reasons such as endothelial remodeling or other cell turnover or cell necrotic processes, whether or not they are related to the disease progression of arteriovascular disease or an arteriovascular event. However, the remaining and future biomarkers that meet this high standard for ARTERIORISKMARKERS are likely to be quite valuable.
- Furthermore, other unlisted biomarkers will be very highly correlated with the biomarkers listed as ARTERIORISKMARKERS in Table 1 (for the purpose of this application, any two variables will be considered to be “very highly correlated” when they have a Coefficient of Determination (R2) of 0.5 or greater). The present invention encompasses such functional and statistical equivalents to the aforementioned ARTERIORISKMARKERS. Furthermore, the statistical utility of such additional ARTERIORISKMARKERS is substantially dependent on the cross-correlation between multiple biomarkers and any new biomarkers will often be required to operate within a panel in order to elaborate the meaning of the underlying biology.
- One or more, preferably two or more of the listed ARTERIORISKMARKERS can be detected in the practice of the present invention. For example, two (2), three (3), four (4), five (5), ten (10), fifteen (15), twenty (20), forty (40), fifty (50), seventy-five (75), one hundred (100), one hundred and twenty five (125), one hundred and fifty (150), one hundred and seventy-five (175), two hundred (200), two hundred and ten (210), two hundred and twenty (220), two hundred and thirty (230), two hundred and forty (240), two hundred and fifty (250), two hundred and sixty (260) or more, four hundred (400) or more, six hundred (600) or more, eight hundred (800) or more, and 1000 (1000) or more ARTERIORISKMARKERS can be detected.
- In some aspects, all 1023 ARTERIORISKMARKERS listed herein can be detected. Preferred ranges from which the number of ARTERIORISKMARKERS can be detected include ranges bounded by any minimum selected from between one and 1,023, particularly two, five, ten, twenty, fifty, seventy-five, one hundred, one hundred and twenty five, one hundred and fifty, one hundred and seventy-five, two hundred, two hundred and ten, two hundred and twenty, two hundred and thirty, two hundred and forty, two hundred and fifty, five hundred, seven hundred, and 1000 paired with any maximum up to the total known ARTERIORISKMARKERS, particularly five, ten, twenty, fifty, and seventy-five. Particularly preferred ranges include two to five (2-5), two to ten (2-10), two to fifty (2-50), two to seventy-five (2-75), two to one hundred (2-100), five to ten (5-10), five to twenty (5-20), five to fifty (5-50), five to seventy-five (5-75), five to one hundred (5-100), ten to twenty (10-20), ten to fifty (10-50), ten to seventy-five (10-75), ten to one hundred (10-100), twenty to fifty (20-50), twenty to seventy-five (20-75), twenty to one hundred (20-100), fifty to seventy-five (50-75), fifty to one hundred (50-100), one hundred to one hundred and twenty-five (100-125), one hundred and twenty-five to one hundred and fifty (125-150), one hundred and fifty to one hundred and seventy five (150-175), one hundred and seventy-five to two hundred (175-200), two hundred to two hundred and ten (200-210), two hundred and ten to two hundred and twenty (210-220), two hundred and twenty to two hundred and thirty (220-230), two hundred and thirty to two hundred and forty (230-240), two hundred and forty to two hundred and fifty (240-250), two hundred and fifty to two hundred and sixty (250-260), two hundred and sixty to more than three hundred (260-300), three hundred and fifty to more than five hundred (350-500), five hundred and fifty to more than seven hundred (550-700), seven hundred and fifty to one thousane (750-1000), and one thousane and fifty to more than one thousane and twenty (1050-1020).
- Construction of ARTERIORISKMARKER Panels
- Groupings of ARTERIORISKMARKERS can be included in “panels.” A “panel” within the context of the present invention means a group of biomarkers (whether they are ARTERIORISKMARKERS, clinical parameters, or traditional laboratory risk factors) that includes more than one ARTERIORISKMARKER. A panel can also comprise additional biomarkers, e.g., clinical parameters, traditional laboratory risk factors, known to be present or associated with arteriovascular disease, in combination with a selected group of the ARTERIORISKMARKERS listed in Table 2.
- As noted above, many of the individual ARTERIORISKMARKERS, clinical parameters, and traditional laboratory risk factors listed, when used alone and not as a member of a multi-biomarker panel of ARTERIORISKMARKERS, have little or no clinical use in reliably distinguishing individual normal subjects, subjects at risk for having an arteriovascular event, and subjects having arteriovascular disease from each other in a selected general population, and thus cannot reliably be used alone in classifying any subject between those three states. Even where there are statistically significant differences in their mean measurements in each of these populations, as commonly occurs in studies which are sufficiently powered, such biomarkers may remain limited in their applicability to an individual subject, and contribute little to diagnostic or prognostic predictions for that subject. A common measure of statistical significance is the p-value, which indicates the probability that an observation has arisen by chance alone; preferably, such p-values are 0.05 or less, representing a 5% or less chance that the observation of interest arose by chance. Such p-values depend significantly on the power of the study performed. As discussed above, in the study populations of the below Examples, none of the individual ARTERIORISKMARKERS demonstrated a very high degree of diagnostic accuracy when used by itself for the diagnosis of arteriovascular disease or an arteriovascular event, even though many showed statistically significant differences between the study populations (as seen in
FIG. 4 andFIG. 5 in the Examples). However, when each ARTERIORISKMARKER is taken individually to assess the individual subjects of the population, such ARTERIORISKMARKERS are of limited use in the intended risk indications for the invention (as is shown inFIG. 14 ). - Combinations of multiple clinical parameters used singly alone or together in formulas is another approach, but also generally has difficulty in reliably achieving a high degree of diagnostic accuracy for individual subjects when tested across multiple study populations except when the blood-borne biomarkers are included (by way of example,
FIG. 6 demonstrates this in the Examples). Even when individual traditional laboratory risk factors that are blood-borne biomarkers are added to clinical parameters, as with HDLC within the Framingham Risk Score of Wilson (1998), it is difficult to reliably achieve a high degree of diagnostic accuracy for individual subjects when tested across multiple study populations. Used herein, for a formula or biomarker (including ARTERIORISKMARKERS, clinical parameters, and traditional laboratory risk factors) to “reliably achieve” a given level of diagnostic accuracy measnt to achieve this metric under cross-validation (such as LOO-CV or 10-Fold CV within the original population) or in more than one population (e.g., demonstrate it beyond the original population in which the formula or biomarker was originally measured and trained). It is recognized that biological variability is such that it is unlikely that any given formula or biomarker will achieve the same level of diagnostic accuracy in every individual population in which it can be measured, and that substantial similarity between such training and validation populations is assumed and, indeed, required. - Despite this individual ARTERIORISKMARKER performance, and the general performance of formulas combining only the traditional clinical parameters and few traditional laboratory risk factors, the present inventors have noted that certain specific combinations of two or more ARTERIORISKMARKERS can also be used as multi-biomarker panels comprising combinations of ARTERIORISKMARKERS that are known to be involved in one or more physiological or biological pathways, and that such information can be combined and made clinically useful through the use of various formulae, including statistical classification algorithms and others, combining and in many cases extending the performance characteristics of the combination beyond that of the individual ARTERIORISKMARKERS. These specific combinations show an acceptable level of diagnostic accuracy, and, when sufficient information from multiple ARTERIORISKMARKERS is combined in a trained formula, often reliably achieve a high level of diagnostic accuracy transportable from one population to another.
- The general concept of how two less specific or lower performing ARTERIORISKMARKERS are combined into novel and more useful combinations for the intended indications, is a key aspect of the invention. Multiple biomarkers can often yield better performance than the individual components when proper mathematical and clinical algorithms are used; this is often evident in both sensitivity and specificity, and results in a greater AUC. Secondly, there is often novel unperceived information in the existing biomarkers, as such was necessary in order to achieve through the new formula an improved level of sensitivity or specificity. This hidden information may hold true even for biomarkers which are generally regarded to have suboptimal clinical performance on their own. In fact, the suboptimal performance in terms of high false positive rates on a single biomarker measured alone may very well be an indicator that some important additional information is contained within the biomarker results—information which would not be elucidated absent the combination with a second biomarker and a mathematical formula.
- Several statistical and modeling algorithms known in the art can be used to both assist in ARTERIORISKMARKER selection choices and optimize the algorithms combining these choices. Statistical tools such as factor and cross-biomarker correlation/covariance analyses allow more rationale approaches to panel construction. Mathematical clustering and classification tree showing the Euclidean standardized distance between the ARTERIORISKMARKERS can be advantageously used. While such grouping may or may not give direct insight into the biology and desired informational content targets for ideal arteriovascular event formula, it is the result of a method of factor analysis intended to group collections of ARTERIORISKMARKERS with similar information content (see Examples below for more statistical techniques commonly employed). Pathway informed seeding of such statistical classification techniques also may be employed, as may rational approaches based on the selection of individual ARTERIORISKMARKERS based on their participation across in particular pathways or physiological functions.
- Ultimately, formula such as statistical classification algorithms can be directly used to both select ARTERIORISKMARKERS and to generate and train the optimal formula necessary to combine the results from multiple ARTERIORISKMARKERS into a single index. Often, techniques such as forward (from zero potential explanatory parameters) and backwards selection (from all available potential explanatory parameters) are used, and information criteria, such as AIC or BIC, are used to quantify the tradeoff between the performance and diagnostic accuracy of the panel and the number of ARTERIORISKMARKERS used. The position of the individual ARTERIORISKMARKER on a forward or backwards selected panel can be closely related to its provision of incremental information content for the algorithm, so the order of contribution is highly dependent on the other constituent ARTERIORISKMARKERS in the panel.
- The inventors have observed that certain ARTERIORISKMARKERS are frequently selected across many different formulas and model types for biomarker selection and model formula construction. One aspect of the present invention relates to selected key biomarkers that are categorized based on the frequency of the presence of the ARTERIORISKMARKERS and in the best fit models of given types taken across multiple population studies.
- One such grouping of several classes of ARTERIORISKMARKERS is presented below in Table 3 and again in
FIG. 1 .TABLE 3 ARTERIORISKMARKER Categories Preferred in Panel Constructions Traditional Clinical Laboratory Core Core Supplemental Supplemental Additional Additional Parameters Risk Factors Markers I Markers II Markers I Markers II Markers I Markers II Age CHOL ANG CCL2 APOA1 APOB ACE ANGPT2 BMI (Cholesterol) CD40 IGF1 CDK5 APOE ADIPOQ CCL11 Diabetes CRP DPP4 LEP EGF BAX AGER CCL13 DBP FGA IL6ST VEGF FTH1 C3 AHSG CCL7 (DiastolicBP) Glucose POMC IGFBP1 CD14 ICAM1 CCL8 FamHX HBA1C (A1c) VCAM1 IL18 ENG IGFBP3 CSF1 (Family History) HDLC (HDL) IL2RA HGF INHBA CXCL10 Hip INS (Insulin, IL6R HP PLAT IFNG (Circumference) SCp) IL8 SELP IL3 HT (Height) LDL (LDL) SELE SHBG IL5 RACE LPA TNFRSF1B VWF IL7 (Ethnicity) TRIG APOA2 MMP9 SBP (Triglycerides) FAS NGFB (Systolic BP) VLDL FASLG TNF Sex IL6 Smoking MMP2 Waist RETN (Circumference) TGFB1 WT (Weight) TNFRSF1A - For the purposes of Table 3, the Examples and Figures, Glucose includes fasting plasma glucose (Glucose), or glucose levels during and after oral glucose tolerance (Gluc120) or other challenge testing. INS includes fasting insulin (Insulin), or insulin levels during and after oral glucose tolerance (Ins120) or other challenge testing. Used generally, it includes its precursor pro-insulin, and cleavage product soluble C-peptide (SCp).
- In the context of the present invention, and without limitation of the foregoing, Table 3 above may be used to construct an ARTERIORISKMARKER panel comprising a series of individual ARTERIORISKMARKERS. The table, derived using the above statistical and pathway informed classification techniques, is intended to assist in the construction of preferred embodiments of the invention by choosing individual ARTERIORISKMARKERS from selected categories of multiple ARTERIORISKMARKERS. Preferably, at least two biomarkers from one or more of the above lists of Clinical Parameters, Traditional Laboratory Risk Factors, Core Markers I and II, Supplemental Markers I and II, and Additional Markers I and II are selected, however, the invention also concerns selection of at least two, at least three, at least four, at least five, at least six, at least seven, at least eight, at least nine, at least ten, at least eleven, and at least twelve of these biomarkers, and larger panels up to the entire set of biomarkers listed herein. For example, at least two, at least three, at least four, at least five, at least six, at least seven, at least eight, at least nine, at least ten, at least eleven, or at least twelve biomarkers can be selected from Core Biomarkers I and II, or from Supplemental Biomarkers I and II.
- Using the categories presented above and without intending to limit the practice of the invention, several panel selection approaches can be used independently or, when larger panels are desired, in combination in order to achieve improvements in the diagnostic accuracy of a ARTERIORISKMARKER panel over the individual ARTERIORISKMARKERS. A preferred approach involves first choosing one or more ARTERIORISKMARKERS from the columns labeled Core Biomarkers I and II, which represents those ARTERIORISKMARKERS most frequently chosen using the various selection algorithms. While biomarker substitutions are possible with this approach, several biomarker selection formulas, across multiple studies and populations, have demonstrated and confirmed the importance of those ARTERIORISKMARKERS listed in the Core Biomarkers I and II columns shown above for the discrimination of subjects likely to convert to arteriovascular events from those who are not likely to do so. In general, for smaller panels, the higher performing ARTERIORISKMARKER panels generally contain ARTERIORISKMARKERS chosen first from the list in the Core Biomarker I column, with the highest levels of performance when several ARTERIORISKMARKERS are chosen from this category. ARTERIORISKMARKERS in the Core Biomarker II column can also be chosen first, and, in sufficiently large panels may also achieve high degrees of accuracy, but generally are most useful in combination with the ARTERIORISKMARKERS in the Core Biomarker I column shown above.
- Panels of ARTERIORISKMARKERS chosen in the above fashion may also be supplemented with one or more ARTERIORISKMARKERS chosen from either or both of the columns labeled Supplemental Markers I and Additional Markers II or from the columns labeled “Traditional Laboratory Risk Factors” and “Clinical Parameters.” Of the Traditional Laboratory Risk Factors, preference is given to HDLC and CRP, then FGA, finally Insulin and Glucose. Of the Clinical Parameters, preference is given to Age and measures of blood pressure (SBP and DBP) and of waist or hip circumference. Such Additional Biomarkers can be added to panels constructed from one or more ARTERIORISKMARKERS from the Core Biomarker I and/or Core Biomarker II columns.
- Finally, such Supplemental Biomarkers can also be used individually as initial seeds in construction of several panels together with other ARTERIORISKMARKERS. The ARTERIORISKMARKERS identified in the Supplemental Biomarkers I and Supplemental Biomarkers II column are identified as common substitution strategies for Core Biomarkers particularly in larger panels, and panels so constructive often still arrive at acceptable diagnostic accuracy and overall ARTERIORISKMARKER panel performance. In fact, as a group, some substitutions of Core Biomarkers for Supplemental Biomarkers are beneficial for panels over a certain size, and can result in different models and selected sets of ARTERIORISKMARKERS in the panels selected using forward versus stepwise (looking back and testing each previous ARTERIORISKMARKER's individual contribution with each new ARTERIORISKMARKER addition to a panel) selection formula. Multiple biomarker substitutes for individual Core Biomarkers may also be derived from substitution analysis (presenting only a constrained set of biomarkers, without the relevant Core Biomarker, to the selection formula used, and comparing the before and after panels constructed) and replacement analysis (replacing the relevant Core Biomarker with every other potential biomarker parameter, reoptimizing the formula coefficients or weights appropriately, and ranking the best replacements by a performance criteria).
- As implied above, in all such panel construction techniques, initial and subsequent Core or Supplemental Biomarkers, or Traditional Laboratory Risk Factors or Clinical Parameters, may also be deliberately selected from a field of many potential ARTERIORISKMARKERS by ARTERIORISKMARKER selection formula, including the actual performance of each derived statistical classifier algorithm itself in a training subject population, in order to maximize the improvement in performance at each incremental addition of a ARTERIORISKMARKER. In this manner, many acceptably performing panels can be constructed using any number of ARTERIORISKMARKERS up to the total set measured in one's individual practice of the invention (as summarized in
FIG. 7 , and in detail inFIGS. 10, 11 , 20 and 21 for the relevant Example populations). This technique is also of great use when the number of potential ARTERIORISKMARKERS is constrained for other reasons of practicality or economics, as the order of ARTERIORISKMARKER selection is demonstrated in the Examples to vary upon the total ARTERIORISKMARKERS available to the formula used in selection. It is a feature of the invention that the order and identity of the specific ARTERIORISKMARKERS selected under any given formula may vary based on both the starting list of potential biomarker parameters presented to the formula (the total pool from which biomarkers may be selected to form panels) as well as due to the training population characteristics and level of diversity, as shown in the Examples below. - Examples of specific ARTERIORISKMARKER panel construction derived using the above general techniques are also disclosed herein in the Examples, without limitation of the foregoing, our techniques of biomarker panel construction, or the applicability of alternative ARTERIORISKMARKERS or biomarkers from functionally equivalent classes which are also involved in the same constituent physiological and biological pathways. Of particular note are the panels summarized in
FIG. 13 through 15, which include ARTERIORISKMARKERS shown in the above Tables 2 and 3 together with Traditional Laboratory Risk Factors and Clinical Parameters, and describe their AUC performance in fitted formulas within the relevant identified population and biomarker sets. - Of further note is
FIG. 2 , which is a flow chart depicting ARTERIORISKMARKER pathophysiology and progression and biomarker functions, pathways and other categories over the spectrum of arteriovascular disease, including numerical references to the canonical molecular pathways as currently listed within the Kyoto University Encyclopedia of Genes and Genomes (KEGG) web site. Such pathway diagrams listed at the KEGG web site include references to each of the various biomarker participants within the given pathway, relating biomarkers both directly and indirectly associated with arteriovascular disease. These KEGG pathways are furthermore depicted in the followingFIGS. 2A through 2P , and referenced below in the marker grouping discussion. - Two or more ARTERIORISKMARKERS of the present invention can also be combined into marker panels comprising combinations of ARTERIORISKMARKERS that are known to be involved in one or more physiological pathways. Examples of ARTERIORISKMARKER Component Categories and a representative number of ARTERIORISKMARKERS implicated in the physiological pathways for such Component Categories are disclosed herein, without limitation of the forgoing techniques of marker panel construction, or of the applicability of alternative ARTERIORISKMARKERS or biomarkers from functionally equivalent classes which are also involved in the same Component Categories and their constituent physiological pathways.
- Accordingly, ARTERIORISKMARKERS according to the invention can be classified into panels that comprise biomarkers specific to a particular disease pathway, disease site, disease stage, disease kinetics, and can also comprise markers that can be used to exclude and distinguish arteriovascular diseases from each other (“exclusion markers”). Such panels can comprise two or more ARTERIORISKMARKERS, but can also comprise one ARTERIORISKMARKER, where that one ARTERIORISKMARKER can provide information about several pathways, diseases, disease kinetics, or disease stages.
- For example, pathway activity marker panels can comprise one or more ARTERIORISKMARKERS that are indicative of general physiological pathways that are active in the subject and associated with an arteriovascular disease, such as, but not limited to inflammation, platelet aggregation, apoptosis, angiogenesis, lipid metabolism, and vascular calcification. Disease site marker panels can comprise one or more ARTERIORISKMARKERS that are indicative of a particular site of disease, such as sites involved in CAD (coronary arteries), PAD (peripheral arteries), or CVD (cerebrovascular arteries). Such panels can comprise markers of necrosis at high sensitivity, such as, but not limited to ARTERIORISKMARKERS corresponding to creatine kinase MB isozyme (CKMB), troponin I, and troponin T. Another marker panel that is useful in the practice of the present invention is a disease stage marker, wherein one or more ARTERIORISKMARKERS are indicative of the expression kinetics that vary with the absolute stage of progression for the thrombosis prior to the subject exhibiting symptoms of the arteriovascular disease. Such ARTERIORISKMARKERS include, without limitation, thrombus precursor protein (TpP) and d-dimer. The invention also concerns marker panels that comprise one or more ARTERIORISKMARKERS that are indicative of the speed of progression of an arteriovascular disease, wherein the ARTERIORISKMARKERS provide information on the kinetics of expression and how they vary with the speed of disease progression. For example, such ARTERIORISKMARKERS include, without limitation, chemoattractants and cell activation markers having enzymatic effects on disease development progression. An additional marker panel provided by the present invention comprises “exclusion markers”, wherein one or more ARTERIORISKMARKERS are indicative of a common disease that do not correspond to or are not involved in arteriovascular disease, or which distinguish among different characteristics and sequelae associated with a particular type of arteriovascular disease.
TABLE 4 Category A - Adipose and Insulin Metabolism Pathway FIG. ARTERIORISKMARKERS Adipocytokine KEGG 4920; TNF, LEP, ADIPOQ, PPARA, Signaling Pathway PPARD, PPARG Insulin Signaling KEGG 4910; INS, INSR, PDE3, GSK3B, PDK1, Pathway PDK2 -
TABLE 5 Category B - Inflammation and Leukocyte Infiltration Pathway FIG. ARTERIORISKMARKERS Cytokine- KEGG 4060;BLR1, CCL2 (MCP-1), CCL5 Cytokine FIG. 2 -C(RANTES), CCL9 (MIP-1g), CCL11 Receptor Interaction (Eotaxin), CCL12 (MCP-5), CCL19 Pathway (MIP-3b), CCL21 (TCA4/6CKine), CSF1, CSF2 (GM-CSF), CSF3 (GCSF), CXCL1 (KC), CXCL2 (MIP- 2) CXCR4, CXCR6, GDF15 (MIC1), IFNA, IFNG, IL1B, IL2, IL3, IL4, IL5, IL6, IL8, IL10, IL12B, IL17D (IL27), IL18, PPBP, PF4, TNFA, TNFSF11 (RANKL), CRP, SAA Cell Adhesion KEGG 4514; ICAM1, ICAM2, ICAM3, JAM2, Molecule FIG. 2 -DJAM3, PECAM1, VCAM1, E- Pathway selectin, SELP (P-selectin), SELPLG, vWF, CD40, CD40L, ITGAL, ITGB2, IT Leukocyte KEGG 4670; JAM1, MMP1, MMP2, MMP3, Transendothelial FIG. 2 -EMMP9, MMP11, MMP12, MMP14 Migration Pathway T Cell Receptor KEGG 4660; CDK4, IFNG, TNFA Signaling FIG. 2 -FPathway -
TABLE 6 Category C - Cell Proliferation and Death Pathway FIG. ARTERIORISKMARKERS VEGF Signaling KEGG 4370; FIG. 2 -GVEGF, PIGF, HGF, FGF Pathway Cell Cycle KEGG 4110; FIG. 2 -HTGFB1, CCNE1, CCNH, Pathway CDK4, CDK6, PCNA, SKP2 MAPK Signaling KEGG 4010; FIG. 2 -IMAPK14 (p38), HSPA8, Pathway HSP72, FGF, CD14, PDGFA, ACTN1(Actinin), VCL (Vinculin) Apoptosis KEGG 4210; FIG. 2 -JTNFA, CASP3, CASP9 Pathway Calcium KEGG 4020; FIG. 2 -KCCNB1, F2R, PDGFRB, Signaling TnC, MLCK Pathway -
TABLE 7 Category D - Oxidative Stress, Cell Matrix and Coagulation Pathway FIG. ARTERIORISKMARKERS Complement and Coagulation KEGG 4610; FIG. 2 -LC3, C4, vWF, F2, F3, F5, F7, F9, F10, Cascade Pathway F12, F13, CpB2, TFPI, PROC (Protein C), SERPIN G1, PLAT (TPA), PLG (Plasminogen), CD55 (DAF) Extracellular Matrix (ECM) - KEGG 4512;FIG. 2 -MMMP-1, MMP-2, MMP-9, PAPP-A, Receptor Interaction Pathway FSD1 (Fibronectin), LAM3 (Laminin), ITGA, ITGB, VCL (Vinculin) Oxidative Metabolism KEGG 0564, 0590; FIGS. MPO, sPLA2, Lp-PLA2, ENO2 2-N and 2-O (Enolase), PGAM4, Ox-LDL, IMA (Ischemia Modified Albumin) Regulation of Actin Cytoskeleton KEGG 4810; FIG. 2 -PACTN1 (Actinin), CD14, F2RL1 Pathway -
TABLE 8 Category E - Acute and Post-Acute Event Markers Pathway FIG. ARTERIORISKMARKERS Cellular Necrosis — CKMB, Troponin I, Troponin C, Troponin T, Tropomyosin, Myoglobin, Myosin Light Chain, Total CK, Actin, Myosin, Fibronectin Hemodynamic Stress and — BNP, proNT-BNP, ANP Remodelling -
TABLE 9 Category F - Arteriovasculate Physiological Pathway FIG. ARTERIORISKMARKERS Physiological — Blood Pressure, Weight, Body- Mass ARTERIORISKMARKERS Index, Resting Heart Rate, Sex, Age, Diabetes, Smoking, Hip or Waist Circumference -
TABLE 10 Category G - Algorithms and Index Construction Pathway FIG. ARTERIORISKMARKERS Statistical and Syntactic — Linear classifiers (Fisher's linear (Structural) Classification discriminant, Logistic regression, Algorithms and Index Naïve Bayes classifier, Perceptron), k- Construction Methods nearest neighbor, Boosting, Decision Trees, Neural Networks, Bayesian Networks, Support Vector Machines, Hidden Markov Models - ARTERIORISKMARKERS according to the present invention need not be limited or bound by the categories A-G as disclosed above, but may also be analyzed in total or individually, or in clusters not reflected in categories A-G. Furthermore, the above component marker listings do not purport to be complete; further references to the KEGG pathways contained within
FIG. 2 are made above so as to enable the more rapid addition of new biomarkers into the above groupings when they are shown to be functional or statistical equivalents of an existing ARTERORISKMARKER. - Table 11 provides a summary of specific example ARTERIORISKMARKER panels and their inclusion of one or more biomarkers from one or more categories A-G, as indicated below.
TABLE 11 ARTERIORISKMARKER Panels Using One Or More ARTERIORISKMARKERS Each From One Or More Component Categories A-G Categories Used: 1 2 3 4 5 6 7 Examples of A AB ABC ABCD ABCDE ABCDEF ABCDEFG ARTERIORISKMARKER B AC ABD ABCE ABCDF ABCDEG Panels C AD ABE ABCF ABCDG ABCDFG D AE ABF ABCG ABCEF ABCEFG E AF ABG ABDE ABCEG ABDEFG F AG ACD ABDF ABCFG ACDEFG G BC ACE ABDG ABDEF BCDEFG BD ACF ABEF ABDEG BE ACG ABEG ABDFG BF ADE ABFG ABEFG BG ADF ACDE ACDEF CD ADG ACDF ACDEG CE AEF ACDG ACDFG CF AEG ACEF ACEFG CG AFG ACEG ADEFG DE BCD ACFG BCDEF DF BCE ADEF BCDEG DG BCF ADEG BCDFG EF BCG ADFG BCEFG EG BDE AEFG BDEFG FG BDF BCDE CDEFG BDG BCDF BEF BCDG BEG BCEF BFG BCEG CDE BCFG CDF BDEF CDG BDEG CEF BDFG CEG BEFG CFG CDEF DEF CDEG DEG CDFG DFG CEFG EFG DEFG - As seen in
FIG. 2 , the manifestations of the ARTERIORISKMARKERS and the categories proceeds with the progression of the disease, allowing several of such categories to serve as a measure of disease status or of the speed of disease progression. Furthermore, constituent ARTERIORISKMARKERS within categories such as the Cellular Necrosis group can also provide specificity as to the focal organ site of the arteriovascular disease, for example, whether CAD, PAD, or CVD, as certain ARTERIORISKMARKERS have particular tissue specificity, as is the case with the cardiac troponins (I and T), which are highly specific for CAD. - Furthermore, given that arteriovascular disease often affects the microvasculature for some time before having sufficient impact on the macrovasculature to cause patient symptoms, these markers may be usable in this “site of disease indicator” role (as part of an overall panel) earlier than in the acute symptomatic phase where they are currently used. A prerequisite to this is that sufficient assay analytical performance is achieved to allow lower limits of detection and quantification of necrotic markers coming from asymptomatic microvasculature ischemic events.
- The ARTERIORISKMARKER panels of the present invention can also be used to generate reference values from a population of subjects who exhibit no symptoms (or who are asymptomatic) for an arteriovascular disease, or subjects who exhibit similar risk factors for an arteriovascular disease, such as similar body mass index, similar total cholesterol, similar LDL/HDL levels, similar blood glucose levels, similar systolic and/or diastolic blood pressure, subjects of same or similar age, subjects in the same or similar ethnic group, subjects exhibiting similar symptoms of an arteriovascular disease, or subjects having family histories of atherosclerosis, atherothrombosis, CAD, PAD, or CVD.
- Construction of Clinical Algorithms
- Any formula may be used to combine ARTERIORISKMARKER results into indices useful in the practice of the invention. As indicated above, and without limitation, such indices may indicate, among the various other indications, the probability, likelihood, absolute or relative risk, time to or rate of conversion from one to another disease states, or make predictions of future biomarkers measurements of arteriovascular disease such as HDLC, LDL, CRP, coronary calcium scoring, used in the diagnosis of frank arteriovascular disease. This may be for a specific time period or horizon, or for remaining lifetime risk, or simply be provided as an index relative to another reference subject population.
- Although various preferred formula are described here, several other model and formula types beyond those mentioned herein and in the definitions above are well known to one skilled in the art. The actual model type or formula used may itself be selected from the field of potential models based on the performance and diagnostic accuracy characteristics of its results in a training population. The specifics of the formula itself may commonly be derived from ARTERIORISKMARKER results in the relevant training population. Amongst other uses, such formula may be intended to map the feature space derived from one or more ARTERIORISKMARKER inputs to a set of subject classes (e.g. useful in predicting class membership of subjects as normal, at risk for having an arteriovascular event, having arteriovascular disease), to derive an estimation of a probability function of risk using a Bayesian approach (e.g. the risk of arteriovascular disease or an arteriovascular event), or to estimate the class-conditional probabilities, then use Bayes' rule to produce the class probability function as in the previous case.
- Preferred formulas include the broad class of statistical classification algorithms, and in particular the use of discriminant analysis. The goal of discriminant analysis is to predict class membership from a previously identified set of features. In the case of linear discriminant analysis (LDA), the linear combination of features is identified that maximizes the separation among groups by some criteria. Features can be identified for LDA using an eigengene based approach with different thresholds (ELDA) or a stepping algorithm based on a multivariate analysis of variance (MANOVA). Forward, backward, and stepwise algorithms can be performed that minimize the probability of no separation based on the Hotelling-Lawley statistic.
- Eigengene-based Linear Discriminant Analysis (ELDA) is a feature selection technique developed by Shen et al. (2006). The formula selects features (e.g. biomarkers) in a multivariate framework using a modified eigen analysis to identify features associated with the most important eigenvectors. “Important” is defined as those eigenvectors that explain the most variance in the differences among samples that are trying to be classified relative to some threshold.
- A support vector machine (SVM) is a classification formula that attempts to find a hyperplane that separates two classes. This hyperplane contains support vectors, data points that are exactly the margin distance away from the hyperplane. In the likely event that no separating hyperplane exists in the current dimensions of the data, the dimensionality is expanded greatly by projecting the data into larger dimensions by taking non-linear functions of the original variables (Venables and Ripley, 2002). Although not required, filtering of features for SVM often improves prediction. Features (e.g., biomarkers) can be identified for a support vector machine using a non-parametric Kruskal-Wallis (KW) test to select the best univariate features. A random forest (RF, Breiman, 2001) or recursive partitioning (RPART, Breiman et al., 1984) can also be used separately or in combination to identify biomarker combinations that are most important. Both KW and RF require that a number of features be selected from the total. RPART creates a single classification tree using a subset of available biomarkers.
- Other formula may be used in order to pre-process the results of individual ARTERIORISKMARKER measurement into more valuable forms of information, prior to their presentation to the predictive formula. Most notably, normalization of biomarker results, using either common mathematical transformations such as logarithmic or logistic functions, as normal or other distribution positions, in reference to a population's mean values, etc. are all well known to those skilled in the art (as shown in
FIGS. 4 and 5 , and described in the Examples, such transformation and normalization of individual biomarker concentrations may commonly be performed in the practice of the invention). Of particular interest are a set of normalizations based on Clinical Parameters such as age, gender, race, or sex, where specific formula are used solely on subjects within a class or continuously combining a Clinical Parameter as an input. In other cases, analyte-based biomarkers can be combined into calculated variables (much as BMI is a calculation using Height and Weight) which are subsequently presented to a formula. - In addition to the individual parameter values of one subject potentially being normalized, an overall predictive formula for all subjects, or any known class of subjects, may itself be recalibrated or otherwise adjusted based on adjustment for a population's expected prevalence and mean biomarker parameter values, according to the technique outlined in D'Agostino et al, (2001) JAMA 286:180-187, or other similar normalization and recalibration techniques. Such epidemiological adjustment statistics may be captured, confirmed, improved and updated continuously through a registry of past data presented to the model, which may be machine readable or otherwise, or occasionally through the retrospective query of stored samples or reference to historical studies of such parameters and statistics. Additional examples that may be the subject of formula recalibration or other adjustments include statistics used in studies by Pepe, M. S. et al, 2004 on the limitations of odds ratios; Cook, N. R., 2007 relating to ROC curves; and Vasan, R. S., 2006 regarding biomarkers of cardiovascular disease.
- Finally, the numeric result of a classifier formula itself may be transformed post-processing by its reference to an actual clinical population and study results and observed endpoints, in order to calibrate to absolute risk and provide confidence intervals for varying numeric results of the classifier or risk formula. An example of this is the presentation of absolute risk, and confidence intervals for that risk, derivied using an actual clinical study, chosen with reference to the output of the recurrence score formula in the Oncotype Dx product of Genomic Health, Inc. (Redwood City, Calif.). A further modification is to adjust for smaller sub-populations of the study based on the output of the classifier or risk formula and defined and selected by their Clinical Parameters, such as age or sex.
- Modifications For Therapeutic Intervention Panels
- An ARTERIORISKMARKER panel can be constructed and formula derived specifically to enhance performance for use also in subjects undergoing therapeutic interventions, or a separate panel and formula may alternatively be used solely in such patient populations. An aspect of the invention is the use of specific known characteristics of ARTERIORISKMARKERS and their changes in such subjects for such panel construction and formula derivation. Such modifications may enhance the performance of various indications noted above in arteriovascular disease prevention, and diagnosis, therapy, monitoring, and prognosis of arteriovascular disease or arteriovascular events.
- Several of the ARTERIORISKMARKERS disclosed herein are known to those skilled in the art to vary predictably under therapeutic intervention, whether lifestyle (e.g. diet and exercise), surgical (e.g. coronary artery bypass graft (CABG), percutaneous intervention (PCI), bare metal, bioabsorbable or drug eluting (DES) stent placement, bariatric surgery) or pharmaceutical (e.g, one of the various classes of drugs mentioned herein or known to modify common risk factors or risk of arterio) intervention. For example, a PubMed search using the terms “POMC drug,” will return over 21,100 references, many with respect to the changes or non-changes in the levels of proopiomelanocortin (POMC) in subjects treated with various individual disease-modulating agents, for both arteriovascular and other diseases. In particularly there is a documented history with the glucocorticoid drug class, but also such representative class drugs as candesartan, insulin, glyburid have all been studied with POMC.
- Similar evidence of variance under therapeutic intervention is widely available for many of the biomarkers listed in Table 3, such as CRP, FGA, INS, LEP, DPP4, amongst others. Relationships have been noted in the literature between serum levels of ANG and heparin and sodium, and between CD40 and dexamethosone together with other corticosteroids, as well as with statins. VCAM1 and LEP have evidence of being affected by both statins and TZDs such as rosiglitazone.
- Certain of the biomarkers listed, most particularly the Clinical Parameters and the Traditional Laboratory Risk Factors (including such biomarkers as SBP, DBP, CHOL, HDL, and HBA1c), are furthermore traditionally used as surrogate or primary endpoint markers of efficacy for entire classes of arteriovascular disease-modulating agents, thus most certainly changing in a statistically significant way.
- Still others, including genetic biomarkers, such as those polymorphisms known in the PPARG and INSR (and generally all genetic biomarkers absent somatic mutation), are similarly known not to vary in their measurement under particular therapeutic interventions. Such variation may or may not impact the general validity of a given panel, but will often impact the index values reported, and may require different marker selection, the formula to be re-optimized or other changes to the practice of the invention. Alternative model calibrations may also be practiced in order to adjust the normally reported results under a therapeutic intervention, including the use of manual table lookups and adjustment factors.
- Such properties of the individual ARTERIORISKMARKERS can thus be anticipated and exploited to select, guide, and monitor therapeutic interventions. For example, specific ARTERIORISKMARKERS may be added to, or subtracted from, the set under consideration in the construction of the ARTERIORISKMARKER PANELS, based on whether they are known to vary, or not to vary, under therapeutic intervention. Alternatively, such ARTERIORISKMARKERS may be individually normalized or formula recalibrated to adjust for such effects according to the above and other means well known to those skilled in the art.
- Combination with Clinical Parameters and Traditional Laboratory Risk Factors
- Any of the aforementioned Clinical Parameters may be used in the practice of the invention as an ARTERIORISKMARKER input to a formula or as a pre-selection criteria defining a relevant population to be measured using a particular ARTERIORISKMARKER panel and formula. As noted above, Clinical Parameters may also be useful in the biomarker normalization and pre-processing, or in ARTERIORISKMARKER selection, panel construction, formula type selection and derivation, and formula result post-processing. A similar approach can be taken with the Traditional Laboratory Risk Factors, as either an input to a formula or as a pre-selection criteria.
- Measurement of ARTERIORISKMARKERS
- Biomarkers may be measured in using several techniques designed to achieve more predictable subject and analytical variability. On subject variability, many of the above ARTERIORISKMARKERS are commonly measured in a fasting state, and most commonly in the morning, providing a reduced level of subject variability due to both food consumption and metabolism and diurnal variation. The invention hereby claims all fasting and temporal-based sampling procedures using the ARTERIORISKMARKERS described herein. Pre-processing adjustments of ARTERIORISKMARKER results may also be intended to reduce this effect.
- The actual measurement of levels or amounts of the ARTERIORISKMARKERS can be determined at the protein or nucleic acid level using any method known in the art. For example, at the nucleic acid level, Northern and Southern hybridization analysis, as well as ribonuclease protection assays using probes which specifically recognize one or more of these sequences can be used to determine gene expression. Alternatively, amounts of ARTERIORISKMARKERS can be measured using reverse-transcription-based PCR assays (RT-PCR), e.g., using primers specific for the differentially expressed sequence of genes. Amounts of ARTERIORISKMARKERS can also be determined at the protein level, e.g., by measuring the levels of peptides encoded by the gene products described herein, or activities thereof. Such methods are well known in the art and include, e.g., immunoassays based on antibodies to proteins encoded by the genes, aptamers or molecular imprints. Any biological material can be used for the detection/quantification of the protein or its activity. Alternatively, a suitable method can be selected to determine the activity of proteins encoded by the marker genes according to the activity of each protein analyzed.
- The ARTERIORISKMARKER proteins, polypeptides, mutations, and polymorphisms thereof can be detected in any suitable manner, but is typically detected by contacting a sample from the subject with an antibody which binds the ARTERIORISKMARKER protein, polypeptide, mutation, or polymorphism and then detecting the presence or absence of a reaction product. The antibody may be monoclonal, polyclonal, chimeric, or a fragment of the foregoing, as discussed in detail above, and the step of detecting the reaction product may be carried out with any suitable immunoassay. The sample from the subject is typically a biological fluid as described above, and may be the same sample of biological fluid used to conduct the method described above.
- Immunoassays carried out in accordance with the present invention may be homogeneous assays or heterogeneous assays. In a homogeneous assay the immunological reaction usually involves the specific antibody (e.g., anti-ARTERIORISKMARKER protein antibody), a labeled analyte, and the sample of interest. The signal arising from the label is modified, directly or indirectly, upon the binding of the antibody to the labeled analyte. Both the immunological reaction and detection of the extent thereof can be carried out in a homogeneous solution. Immunochemical labels which may be employed include free radicals, radioisotopes, fluorescent dyes, enzymes, bacteriophages, or coenzymes.
- In a heterogeneous assay approach, the reagents are usually the sample, the antibody, and means for producing a detectable signal. Samples as described above may be used. The antibody can be immobilized on a support, such as a bead (such as protein A and protein G agarose beads), plate or slide, and contacted with the specimen suspected of containing the antigen in a liquid phase. The support is then separated from the liquid phase and either the support phase or the liquid phase is examined for a detectable signal employing means for producing such signal. The signal is related to the presence of the analyte in the sample. Means for producing a detectable signal include the use of radioactive labels, fluorescent labels, or enzyme labels. For example, if the antigen to be detected contains a second binding site, an antibody which binds to that site can be conjugated to a detectable group and added to the liquid phase reaction solution before the separation step. The presence of the detectable group on the solid support indicates the presence of the antigen in the test sample. Examples of suitable immunoassays are oligonucleotides, immunoblotting, immunofluorescence methods, immunoprecipitation, chemiluminescence methods, electrochemiluminescence (ECL) or enzyme-linked immunoassays.
- Those skilled in the art will be familiar with numerous specific immunoassay formats and variations thereof which may be useful for carrying out the method disclosed herein. See generally E. Maggio, Enzyme-Immunoassay, (1980) (CRC Press, Inc., Boca Raton, Fla.); see also U.S. Pat. No. 4,727,022 to Skold et al. titled “Methods for Modulating Ligand-Receptor Interactions and their Application,” U.S. Pat. No. 4,659,678 to Forrest et al. titled “Immunoassay of Antigens,” U.S. Pat. No. 4,376,110 to David et al., titled “Immunometric Assays Using Monoclonal Antibodies,” U.S. Pat. No. 4,275,149 to Litman et al., titled “Macromolecular Environment Control in Specific Receptor Assays,” U.S. Pat. No. 4,233,402 to Maggio et al., titled “Reagents and Method Employing Channeling,” and U.S. Pat. No. 4,230,767 to Boguslaski et al., titled “Heterogenous Specific Binding Assay Employing a Coenzyme as Label.”
- Antibodies can be conjugated to a solid support suitable for a diagnostic assay (e.g., beads such as protein A or protein G agarose, microspheres, plates, slides or wells formed from materials such as latex or polystyrene) in accordance with known techniques, such as passive binding. Antibodies as described herein may likewise be conjugated to detectable labels or groups such as radiolabels (e.g., 35S, 125I, 131I), enzyme labels (e.g., horseradish peroxidase, alkaline phosphatase), and fluorescent labels (e.g., fluorescein, Alexa, green fluorescent protein, rhodamine) in accordance with known techniques.
- Antibodies can also be useful for detecting post-translational modifications of ARTERIORISKMARKER proteins, polypeptides, mutations, and polymorphisms, such as tyrosine phosphorylation, threonine phosphorylation, serine phosphorylation, glycosylation (e.g., O-GlcNAc). Such antibodies specifically detect the phosphorylated amino acids in a protein or proteins of interest, and can be used in immunoblotting, immunofluorescence, and ELISA assays described herein. These antibodies are well-known to those skilled in the art, and commercially available. Post-translational modifications can also be determined using metastable ions in reflector matrix-assisted laser desorption ionization-time of flight mass spectrometry (MALDI-TOF) (Wirth, U. et al. (2002) Proteomics 2(10): 1445-51).
- For ARTERIORISKMARKER proteins, polypeptides, mutations, and polymorphisms known to have enzymatic activity, the activities can be determined in vitro using enzyme assays known in the art. Such assays include, without limitation, kinase assays, phosphatase assays, reductase assays, among many others. Modulation of the kinetics of enzyme activities can be determined by measuring the rate constant KM using known algorithms, such as the Hill plot, Michaelis-Menten equation, linear regression plots such as Lineweaver-Burk analysis, and Scatchard plot.
- Using sequence information provided by the database entries for the ARTERIORISKMARKER sequences, expression of the ARTERIORISKMARKER sequences can be detected (if present) and measured using techniques well known to one of ordinary skill in the art. For example, sequences within the sequence database entries corresponding to ARTERIORISKMARKER sequences, or within the sequences disclosed herein, can be used to construct probes for detecting ARTERIORISKMARKER RNA sequences in, e.g., Northern blot hybridization analyses or methods which specifically, and, preferably, quantitatively amplify specific nucleic acid sequences. As another example, the sequences can be used to construct primers for specifically amplifying the ARTERIORISKMARKER sequences in, e.g., amplification-based detection methods such as reverse-transcription based polymerase chain reaction (RT-PCR). When alterations in gene expression are associated with gene amplification, deletion, polymorphisms, and mutations, sequence comparisons in test and reference populations can be made by comparing relative amounts of the examined DNA sequences in the test and reference cell populations.
- Expression of the genes disclosed herein can be measured at the RNA level using any method known in the art. For example, Northern hybridization analysis using probes which specifically recognize one or more of these sequences can be used to determine gene expression. Alternatively, expression can be measured using reverse-transcription-based PCR assays (RT-PCR), e.g., using primers specific for the differentially expressed sequences. RNA can also be quantified using, for example, other target amplification methods (e.g., TMA, SDA, NASBA), or signal amplification methods (e.g., bDNA), and the like.
- Alternatively, ARTERIORISKMARKER protein and nucleic acid metabolites can be measured. The term “metabolite” includes any chemical or biochemical product of a metabolic process, such as any compound produced by the processing, cleavage or consumption of a biological molecule (e.g., a protein, nucleic acid, carbohydrate, or lipid). Metabolites can be detected in a variety of ways known to one of skill in the art, including the refractive index spectroscopy (RI), ultra-violet spectroscopy (UV), fluorescence analysis, radiochemical analysis, near-infrared spectroscopy (near-IR), nuclear magnetic resonance spectroscopy (NMR), light scattering analysis (LS), mass spectrometry, pyrolysis mass spectrometry, nephelometry, dispersive Raman spectroscopy, gas chromatography combined with mass spectrometry, liquid chromatography combined with mass spectrometry, matrix-assisted laser desorption ionization-time of flight (MALDI-TOF) combined with mass spectrometry, ion spray spectroscopy combined with mass spectrometry, capillary electrophoresis, NMR and IR detection. (See, WO 04/056456 and WO 04/088309, each of which are hereby incorporated by reference in their entireties) In this regard, other ARTERIORISKMARKER analytes can be measured using the above-mentioned detection methods, or other methods known to the skilled artisan. For example, circulating calcium ions (Ca2+) can be detected in a sample using fluorescent dyes such as the Fluo series, Fura-2A, Rhod-2, among others. Other ARTERIORISKMARKER metabolites can be similarly detected using reagents that are specifically designed or tailored to detect such metabolites.
- Kits
- The invention also includes a ARTERIORISKMARKER-detection reagent, e.g., nucleic acids that specifically identify one or more ARTERIORISKMARKER nucleic acids by having homologous nucleic acid sequences, such as oligonucleotide sequences, complementary to a portion of the ARTERIORISKMARKER nucleic acids or antibodies to proteins encoded by the ARTERIORISKMARKER nucleic acids packaged together in the form of a kit. The oligonucleotides can be fragments of the ARTERIORISKMARKER genes. For example the oligonucleotides can be 200, 150, 100, 50, 25, 10 or less nucleotides in length. The kit may contain in separate containers a nucleic acid or antibody (either already bound to a solid matrix or packaged separately with reagents for binding them to the matrix), control formulations (positive and/or negative), and/or a detectable label such as fluorescein, green fluorescent protein, rhodamine, cyanine dyes, Alexa dyes, luciferase, radiolabels, among others. Instructions (e.g., written, tape, VCR, CD-ROM, etc.) for carrying out the assay may be included in the kit. The assay may for example be in the form of a Northern hybridization or a sandwich ELISA as known in the art.
- For example, ARTERIORISKMARKER detection reagents can be immobilized on a solid matrix such as a porous strip to form at least one ARTERIORISKMARKER detection site. The measurement or detection region of the porous strip may include a plurality of sites containing a nucleic acid. A test strip may also contain sites for negative and/or positive controls. Alternatively, control sites can be located on a separate strip from the test strip. Optionally, the different detection sites may contain different amounts of immobilized nucleic acids, e.g., a higher amount in the first detection site and lesser amounts in subsequent sites. Upon the addition of test sample, the number of sites displaying a detectable signal provides a quantitative indication of the amount of ARTERIORISKMARKERS present in the sample. The detection sites may be configured in any suitably detectable shape and are typically in the shape of a bar or dot spanning the width of a test strip.
- Alternatively, the kit contains a nucleic acid substrate array comprising one or more nucleic acid sequences. The nucleic acids on the array specifically identify one or more nucleic acid sequences represented by ARTERIORISKMARKERS 1-1023. In various embodiments, the expression of 2, 3, 4, 5, 6, 7, 8, 9, 10, 15, 20, 25, 40, 50, 100, 125, 150, 175, 200, 300, 400, 500, 600, 700, 800, 900, 1000 or more of the sequences represented by ARTERIORISKMARKERS 1-1023 can be identified by virtue of binding to the array. The substrate array can be on, e.g., a solid substrate, e.g., a “chip” as described in U.S. Pat. No. 5,744,305. Alternatively, the substrate array can be a solution array, e.g., xMAP (Luminex, Austin, Tex.), Cyvera (Illumina, San Diego, Calif.), CellCard (Vitra Bioscience, Mountain View, Calif.) and Quantum Dots' Mosaic (Invitrogen, Carlsbad, Calif.).
- Suitable sources for antibodies for the detection of ARTERIORISKMARKERS includecommercially available sources such as, for example, Abazyme, Abnova, Affinity Biologicals, AntibodyShop, Biogenesis, Biosense Laboratories, Calbiochem, Cell Sciences, Chemicon International, Chemokine, Clontech, Cytolab, DAKO, Diagnostic BioSystems, eBioscience, Endocrine Technologies, Enzo Biochem, Eurogentec, Fusion Antibodies, Genesis Biotech, GloboZymes, Haematologic Technologies, Immunodetect, Immunodiagnostik, Immunometrics, Immunostar, Immunovision, Biogenex, Invitrogen, Jackson ImmunoResearch Laboratory, KMI Diagnostics, Koma Biotech, LabFrontier Life Science Institute, Lee Laboratories, Lifescreen, Maine Biotechnology Services, Mediclone, MicroPharm Ltd., ModiQuest, Molecular Innovations, Molecular Probes, Neoclone, Neuromics, New England Biolabs, Novocastra, Novus Biologicals, Oncogene Research Products, Orbigen, Oxford Biotechnology, Panvera, PerkinElmer Life Sciences, Pharmingen, Phoenix Pharmaceuticals, Pierce Chemical Company, Polymun Scientific, Polysiences, Inc., Promega Corporation, Proteogenix, Protos Immunoresearch, QED Biosciences, Inc., R&D Systems, Repligen, Research Diagnostics, Roboscreen, Santa Cruz Biotechnology, Seikagaku America, Serological Corporation, Serotec, SigmaAldrich, StemCell Technologies, Synaptic Systems GmbH, Technopharm, Terra Nova Biotechnology, TiterMax, Trillium Diagnostics, Upstate Biotechnology, US Biological, Vector Laboratories, Wako Pure Chemical Industries, and Zeptometrix. However, the skilled artisan can routinely make antibodies, nucleic acid probes, e.g., oligonucleotides, aptamers, siRNAs, antisense oligonucleotides, against any of the ARTERIORISKMARKERS in Table 2.
- Materials and Methods
- Source Reagents: A-large and diverse array of vendors that were used to source immunoreagents as a starting point for assay development, such as, but not limited to, Abazyme, Abnova, Affinity Biologicals, AntibodyShop, Biogenesis, Biosense Laboratories, Calbiochem, Cell Sciences, Chemicon International, Chemokine, Clontech, Cytolab, DAKO, Diagnostic BioSystems, eBioscience, Endocrine Technologies, Enzo Biochem, Eurogentec, Fusion Antibodies, Genesis Biotech, GloboZymes, Haematologic Technologies, Immunodetect, Immunodiagnostik, Immunometrics, Immunostar, Immunovision, Biogenex, Invitrogen, Jackson ImmunoResearch Laboratory, KMI Diagnostics, Koma Biotech, LabFrontier Life Science Institute, Lee Laboratories, Lifescreen, Maine Biotechnology Services, Mediclone, MicroPharm Ltd., ModiQuest, Molecular Innovations, Molecular Probes, Neoclone, Neuromics, New England Biolabs, Novocastra, Novus Biologicals, Oncogene Research Products, Orbigen, Oxford Biotechnology, Panvera, PerkinElmer Life Sciences, Pharmingen, Phoenix Pharmaceuticals, Pierce Chemical Company, Polymun Scientific, Polysiences, Inc., Promega Corporation, Proteogenix, Protos Immunoresearch, QED Biosciences, Inc., R&D Systems, Repligen, Research Diagnostics, Roboscreen, Santa Cruz Biotechnology, Seikagaku America, Serological Corporation, Serotec, SigmaAldrich, StemCell Technologies, Synaptic Systems GmbH, Technopharm, Terra Nova Biotechnology, TiterMax, Trillium Diagnostics, Upstate Biotechnology, US Biological, Vector Laboratories, Wako Pure Chemical Industries, and Zeptometrix. A search for capture antibodies, detection antibodies, and analytes was performed to configure a working sandwich immunoassay. The reagents were ordered and received into inventory.
- Immunoassays were developed in three steps: Prototyping, Validation, and Kit Release. Prototyping was conducted using standard ELISA formats when the two antibodies used in the assay were from different host species. Using standard conditions, anti-host secondary antibodies conjugated with horse radish peroxidase were evaluated in a standard curve. If a good standard curve was detected, the assay proceeded to the next step. Assays that had the same host antibodies went directly to the next step (e.g., mouse monoclonal sandwich assays).
- Validation of working assays was performed using the Zeptosense detection platform from Singulex, Inc. (St. Louis, Mo.). The detection antibody was first conjugated to the
fluorescent dye Alexa 647. The conjugations used standard NHS ester chemistry, for example, according to the manufacturer. Once the antibody was labeled, the assay was tested in a sandwich assay format using standard conditions. Each assay well was solubilized in a denaturing buffer, and the material was read on the Zeptosense platform. - Once a working Zeptosense standard curve was demonstrated, assays were typically applied to 24-96 serum samples to determine the normal distribution of the target analyte across clinical samples. The amount of serum required to measure the biomarker within the linear dynamic range of the assay was determined, and the assay proceeded to kit release. For the initial validated assays, 0.004 microliters were used per well on average.
- Each component of the kit including manufacturer, catalog numbers, lot numbers, stock and working concentrations, standard curve, and serum requirements were complied into a standard operating procedures for each biomarker assay. This kit was then released for use to test clinical samples.
- Example 1 presents the practice of the invention in a longitudinal case-control study design. The starting sample was a large population based longitudinal study following approximately 6,300 patients over a minimum of five years to date. In the initial smaller subset study and analysis presented here, patients were first selected based on no prior history of acute arteriovascular events at baseline study entry, and risk enriched to an estimated applicable clinical population most likely to be tested by an ARTERIORISKMARKER combination panel by applying an “entry” baseline requirement of age greater than or equal to 39 years old and body mass index of greater than or equal to 25.
- This population was then filtered to remove those who subsequently experienced an arteriovascular event during the study, such events including a broad definition of myocardial infarction, unstable angina, revascularization (such as thrombolysis, PCI or CABG), or ischemic stroke (hemorrhagic strokes were removed). A randomized sampling of 33 of these subjects who ultimately converted to arteriovascular events during the course of the study (Converters) were initially selected as a Case arm for marker discovery and initial algorithm training.
- A general prevalence based randomized sample control arm of 724 of the total subjects was selected from the remaining age and BMI enriched population which did not experience a subsequent acute arteriovascular event during the study duration was also selected (Controls).
- Example 1 herein focuses on a subset Case group of 26 subjects of the 33, excluding those 7 subjects who experienced strokes (and without any other arteriovascular events) during the duration of the study, resulting in a subset comprising solely those who experienced myocardial infarction (14 subjects), angina requiring hospitalization (11 patients), any revascularization procedure (17 patients), or any combination of these arteriovascular events. None of these 26 patients also experienced stokes during this period.
- Example 2 focuses on the entire group of 33 Converters, including the 7 stroke patients. Summary descriptive subject statistics and risk factor distributions are presented in Table 11 below and in
FIG. 3 .TABLE 11 Study Design for Example 1 (26 Cases) and Example 2 (33 Cases) Excluding Stroke Including Stroke Cases Controls Cases Controls (n = 26) (n = 724) (n = 33) (n = 724) Age Mean 54 (4.7) 49 (6.4) Age Mean 53 (5) 49 (6.4) (sd) (sd) Sex Male 21 441 Sex Male 28 441 Female 5 283 Female 5 283 Family Hist. No 24 656 Family Hist. No 30 656 (Cardiac) Yes 2 68 (Cardiac) Yes 3 68 Hyperlipidemia No 8 212 Hyperlipidemia No 11 212 Yes 18 512 Yes 22 512 Diabetes No 23 635 Diabetes No 29 635 Yes 3 89 Yes 4 89 Smoking No 18 517 Smoking No 22 517 Yes 8 207 Yes 11 207 Dyslipidemia No 5 151 Dyslipidemia No 6 151 Yes 21 573 Yes 27 573 Hypertension No 12 338 Hypertension No 12 338 Yes 14 386 Yes 21 386 High HDL No 23 548 High HDL No 29 548 Yes 3 176 Yes 4 176 Risk Factor −1 0 12 Risk Factor −1 0 12 Score* 0 2 90 Score* 0 2 90 1 3 134 1 3 134 2 5 167 2 7 167 3 5 178 3 6 178 4 8 103 4 11 103 5 3 36 5 4 36 6 0 4 6 0 4
*Definition of Risk Factor Score
One point for each risk factor as below:
LDL > 160
HDL < 40 (IF HDL >= 60 then Score is −1)
CHOL > 200
BP: SBP >= 140 OR DP >= 90
AGE >= 45 (MEN) or AGE >= 55 (WOMEN)
Baseline Diabetes: Present
- Baseline (at study entry) samples were tested according to the above methods and results recorded for a representative grouping of 61 ARTERIORISKMARKERS, with biomarkers selected primarily on the basis of the strength of published literature supporting an association with arteriovascular and cardiometabolic disease.
- Data Analysis
- Prior to statistical methods being applied, each ARTERIORISKMARKER assay plate was reviewed for pass/fail criteria. Parameters taken into consideration included number of samples within range of the standard curve, serum control within the range of the standard curve, CVs of samples and dynamic range of assay.
- A model based on the continuous input model of the Framingham Risk Score of Wilson (1998), comprising eight ARTERIORISKMARKER inputs (Age, CHOL, HDLC, SBP, DBP, Smoking, Diabetes, and Sex), was calculated in order to have a baseline to measure improvement from the incorporation of differing ARTERIORISKMARKERS into the potential formulas.
FIG. 6 is a chart depicting the Receiver Operator Characteristic (ROC) curve of a global risk assessment index according to the Framingham model for risk of future cardiovascular events, as measured and calculated for the Example 1 populations (sensitivity and specificity of the Framingham model to cardiovascular events excluding stroke patients from the analysis) and with the Area Under the Curve (AUC) statistic of 0.61 calculated and shown in the legend. Additionally, various best fit models for the populations of Example 1 were also constructing using all of the Clinical Parameters and Traditional Laboratory Risk Factors of the invention (which include all of the aforementioned Framingham variables), this is presented, together with full models encompassing all of the blood-bourne ATERIORISKMARKERS and the total tested set of ATERIORISKMARKERS inFIG. 16 . - Prior to formula analysis, ARTERIORISKMARKER parameters were transformed, according to the methodologies shown for each ARTERIORISKMARKER in
FIG. 4 , and missing results were imputed. If the amount of missing data was greater than 1%, various imputation techniques were employed to evaluate the effect on the results, otherwise the k-nearest neighbor method (library EMV, R Project) was used using correlation as the distance metric and 6 nearest neighbors to estimate the missing values. - Excessive covariation, multicolinearity, between variables were evaluated graphically and by computing pairwise correlation coefficients. When the correlation coefficients exceeded 0.75, a strong lack of independence between biomarkers was indicated, suggesting that they should be evaluated separately. Univariate summary statistics including means, standard deviations, and odds ratios were computed using logistic regression.
-
FIG. 4 is a is a table summarizing the measured values and variances of certain selected ARTERIORISKMARKERS studied within the Examples given, including their concentration or other measurement units, mathematical normalization transformations (used in model formula and multi-biomarker index construction), transformed mean and standard deviation values, and back-transformed (raw) mean biomarker concentration or other value as measured for both the Total Cases (Converter to Arteriovascular Events, n=33) and Controls (Non-Converter to Cardiovascular Events, n=724) of the Examples, as well as a comparison of the mean values with a statistical p-value given, using a two-tailed t-test for the null hypothesis (the random probability that group means are equal). The given concentrations represent population based means and standard deviations useful in the construction and optimization of assays in the practice of the invention. -
FIG. 5 is is a table further dividing the Cases cohort into sub-groupings based on the event type, separating stroke into one cohort, and, for the non-stroke subjects, based on the time elapsed from the baseline entry date to the study (also the sample collection date for the samples tested for ARTERIORISKMARKERS) to the earliest arteriovascular event date. Subsequent examination of subject records also indicated a group of 3 subjects who likely had an arteriovascular event prior to the baseline, these were also separated into a cohort. This table also provides the measured means and variances for each sub-group as otherwise described inFIG. 4 applying the same summary statistics, additionally providing statistical p-values for a one-way Analysis of Variance (ANOVA) and non-parametric Kruskal-Wallis analysis of variance (KW). Several markers show statistically significant differences across the sub-groups, indicating an ability to both distinguish stroke from other arteriovascular events and also to distinguish between early and late converters to arteriovascular events when combined with appropriate models. - Biomarker Selection and Model Building
- Characteristics of the populations of Example 1 were considered in various predictive models, model types, and model parameters, and the AUC results of these formula are summarized in
FIG. 19 . Several stepwise marker addition algorithms were constructed from null and full sets, as well as groupings seeded by initial markers and alternative selection strategies as described herein; an example of a cumulative step analysis and ROC curve result is presented inFIG. 7 for the ARTERIORISKMARKER of POMC, which evidenced strong prognostic value in the populations of the example, particularly when combined with Core Markers, Clinical Parameters and the Traditional Laboratory Risk Factors disclosed in the invention.FIG. 7 is a chart depicting the ROC curves of multiple fitted linear discrimant analysis (LDA) models for risk of future arteriovascular events, as measured and calculated for the Example 1 populations, starting with a single ARTERIORISKMARKER clinical parameter (Age) ROC curve, then adding an additional ARTERIORISKMARKER (POMC, HDLC, and BMI) and reoptimizing the model at each subsequent ROC curve, with the AUC calculated and shown in the legend for each step. These increasing curve AUCs demonstrate the additional discrimination value imparted by the additional marker, increasing from 0.72 to 0.82. - Multiple model building techniques designed to trade off model size with performance were used. Models utilizing both blood-borne only ATERIORISKMARKERS, as might be most useful in a remote laboratory or site separated from the collection of the Clinical Parameters, and also using all ARTERIORISKMARKERS, were constructed. Two examples are provided in
FIG. 8 andFIG. 9 .FIG. 8 is a chart depicting the ROC curves of a seven biomarker fitted LDA model for risk of future arteriovascular events, as measured and calculated for the Example 1 populations, with the AUC calculated and shown in the legend. This LDA model was forward selected from a group limited to blood-bourne ARTERIORISKMARKERS as its sole parameters, and included POMC, HDLC, VEGF, LEP, IL6ST, Ins120, and IGF1 as inputs, with a calculated AUC of 0.8. -
FIG. 9 is a chart depicting the ROC curves of a nine biomarker fitted LDA model for risk of future arteriovascular events, as measured and calculated for the Example 1 populations, with the AUC calculated and shown in the legend. This LDA model was forward selected from the complete group of both the selected blood-bourne analyte and clinical parameter ARTERIORISKMARKERS, and included Age, POMC, HDLC, CCL2, BMI, VEGF, IL18, IL6ST, EGF, with a calculated AUC of 0.88. - Forward selection and complete enumeration techniques were used in order to confirm the ranking, ordering, and apparent categorization of the various ARTERIORISKMARKERS.
FIG. 10 andFIG. 11 present two such analyses performed using the results from the Example 1 population.FIG. 10 is a chart depicting the ROC curve calculated AUC statistics for multiple expanding “best forward selected” LDA models, starting from a single ARTERIORISKMARKER and then at each step adding one more incremental forward selected ARTERIORISKMARKER, re-optimizing the LDA model, and graphing the derived AUC statistic. This continues through 53 selected ARTERIORISKMARKERS selected from a total set of the selected blood-bourne ARTERIORISKMARKERS, Sex and Family History (FamHX). A superimposed line shows the parallel changes in Akaike's Information Criterion (AIC), a measure of the goodness of fit of an estimated statistical model which trades off model complexity (size in total number of ARTERIORISKMARKER inputs) against how well the model fits the data (a lower AIC is relatively better than a higher one). -
FIG. 11 is also a chart depicting the ROC curve calculated AUC statistics for multiple expanding “best forward selected” LDA models, starting from a single ARTERIORISKMARKER and then at each step adding one more incremental forward selected ARTERIORISKMARKER, re-optimizing the LDA model, and graphing the derived AUC statistic. This continues through 61 ARTERIORISKMARKERS representing the complete group of both the selected blood-bourne analyte and clinical parameter ARTERIORISKMARKERS. The AIC is included as in the previous chart. - Complete enumeration of various model sizes, as measured in numbers of ARTERIORISKMARKERS incorporated, was performed in order to confirm the substitutability of various markers and of the various ARTERIORISKMARKER categories of the invention.
FIG. 12 is a table summarizing the complete enumeration of fitted LDA models for all single, two, three, and four ARTERIORISKMARKER combinations possible from a starting set of 61 selected ARTERIORISKMARKERS, including both blood-bourne analytes and clinical parameters. The table indicates first the total possible panel combinations, which expands from 61 for single ARTERIORISKMARKERS to 521,855 for four ARTERIORISKMARKER combinations. It then gives the number of combinations which produce fitted LDA models that achieve an equal or greater AUC than that shown as the hurdle in the leftmost column of the table (all as calculated in the populations of Example 1). For example, in the row indicated 0.75, from all possible two ARTERIORISKMARKER combinations (1,830 combinations), only 2 combinations (0.11% of the total two ARTERIORISKMARKER combinations possible) resulted in a fitted LDA model that equalled or exceeded an AUC of 0.75, while only 198 three ARTERIORISKMARKER combinations (0.55% of 35,990 possible three ARTERIORISKMARKER combinations) resulted in fitted LDA models exceeding the same hurdle, and so on. No single markers reached this hurdle; in fact, in the data set used only Age and POMC equaled or exceeded an AUC of 0.65. - The highest performing subsets of the complete enumerated combinations, as measured in the populations of Example 1, are presented in
FIGS. 13 through 15 .FIG. 13 is a table listing all 200 individual two marker combinations (10.93% out of a total 1,830 unique combinations possible) achieving an AUC of 0.65 or better according to the analysis summarized previously.FIG. 14 is a table listing all 2,573 individual two marker combinations (7.15% out of a total 1,830 unique combinations possible) achieving an AUC of 0.70 or better according to the analysis summarized previously.FIG. 15 is a table listing all 8,153 individual two marker combinations (1.56% out of a total 521,855 unique combinations possible) achieving an AUC of 0.75 or better according to the analysis summarized previously. - This was continued with analysis of “full” models, consisting of various subsets and the total number of ARTERIORISKMARKERS available to the individual marker selection model.
FIG. 16 is a chart depicting the ROC curves of multiple fitted full models, utilizing the best model of any type by achieved ROC curve (chosen from model types including LDA (multiple selection and model size criteria), SVM (Random Forest, Top Kruskal-Wallis), and ELDA (multiple thresholds)) for risk of future arteriovascular events, as measured and calculated for the Example 1 populations. This chart encompasses models selected from three different overlapping subsets of ARTERIORISKMARKERS from a total set of 61 selected ARTERIORISKMARKERS. One subset encompassed all ” Clinical Marker” ARTERIORISKMARKERS, including both the non-analyte clinical parameters as well as only the blood-bourne traditional laboratory risk factors most commonly used in current global risk assessment models: CHOL, HDLC, LDL, HBA1C, Glucose, and Insulin; it achieved a maximum AUC of 0.82. Another group included only the “Blood-Bourne Markers” analyte-based ARTERIORISKMARKERS without non-analyte clinical parameters; it achieved an ROC of 0.86. The final set included all 61 selected ARTERIORISKMARKERS; it achieved an AUC of 0.92. This analysis demonstrates selected use of blood-bourne ARTERIORISKMARKERS imparts incremental information even to the full set of standard clinical parameters and traditional laboratory risk factors. -
FIG. 17 is a chart depicting the ROC curve of the best blood-bourne ARTERIORISKMARKER model fromFIG. 16 , selected from only the blood-borne ARTERIORISKMARKERS, including its AUC statistic of 0.86 as shown in the legend.FIG. 18 is a chart depicting the ROC curve of the best total ARTERIORISKMARKER model fromFIG. 16 , selected from all 61 possible ARTERIORISKMARKERS, including its AUC statistic of 0.90 as shown in the legend. - In general, Linear Discriminant Analysis (LDA) models maintained the most predictable performance under cross-validation. As a representative example LDA model, the below coefficients represent the terms of the linear discriminant (LD) of the respective LDA models shown in, given in the form of:
LD=coefficient1*biomarker1+coefficient2*biomarker2 +coefficient3*biomarker3+ - The terms “biomarker1,” “biomarker2,” “biomarker3” . . . represent the transformed values of the respective parameter as presented above in
FIG. 4 , with concentrations generally being log transformed, LDL being transformed using the square root function, and Age, HBA IC, HT, SCp values being used raw. Transformations were performed to correct the biomarkers for violations of univariate normality. - Table 12 shows the results of an LDA calculation for the LDA model presented as an ROC curve in
FIG. 8 , using actual transformed values for two subjects, one Case and one Control. Table 13 shows similar results for the LDA model ofFIG. 9 .TABLE 12 LDA Calculation Example from LDA Model of FIG. 8 LDA Coefficients Transformed Values 108441 109001 LD 108441 (NC) 109001 (−C) (NC) (−C) POMC 1.818722 0.9469045 0.9862581 1.722156 1.793729 HDLC 2.756437 0.2380461 0.1398791 0.656159 0.385568 VEGF −1.21085 −0.9776551 −0.2535115 1.183793 0.306964 LEP 1.268985 1.627581 1.416401 2.065376 1.797391 IL6ST −2.24028 2.595694 2.238538 −5.81509 −5.01496 Ins120 −1.03408 1.968483 2.252853 −2.03556 −2.32962 IGF1 0.759008 0.8657718 0.8696624 0.657127 0.66008 LD1 −1.56604 −2.40085 -
TABLE 13 LDA Calculation Example from LDA Model of FIG. 9 LDA Coefficients Transformed Values 108441 109001 LD 108441 (NC) 109001 (−C) (NC) (−C) Age −0.08447 59.9 54.9 −5.05953 −4.6372 POMC 1.820517 0.9469045 0.9862581 1.723856 1.7955 HDLC 5.071465 0.2380461 0.1398791 1.207242 0.709392 CCL2 −1.00237 −0.9285024 −1.1653494 0.930707 1.168116 BMI 5.502393 1.4133 1.372912 7.776532 7.554301 VEGF −1.09844 −0.9776551 −0.2535115 1.073892 0.278466 IL18 1.430255 −0.5086353 −0.6702777 −0.72748 −0.95867 IL6ST −1.50694 2.595694 2.238538 −3.91156 −3.37335 EGF 0.757834 −0.5828459 −0.3940661 −0.4417 −0.29864 LD1 2.571956 2.237922 - As known by one skilled in the art, various other LDA operations and analysis techniques can be used to then categorize an individual subject as at risk for a future arteriovascular event, including deriving an optimized direct LDA value “cutoff” using the LDA function output directly as the result, as is commonly done in diagnostics using biomarker ROC curve analysis for new disease markers, or using a normal distance function from the overall Case and Control Mean LDA values and applying the results to the pre-test probability of experiencing an arteriovascular event by using Bayesian methods.
- Similar analysis was performed for the populations of Example 2, which included stoke in the Case arm, as was summarized in
FIG. 3 . -
FIG. 19 is a table providing information on the inputs used under different ARTERIORISKMARKER model types and selection techniques, with resulting “best” models given model design and constraints, within both of the different case populations of Example 1 (excluding stroke from the Case arm) and Example 2 (including stroke in the Case arm). Of particular note is the consistency of selection of certain markers, which are the Core Markers of the invention, across three or more model types, multiple model constraints, and marker selection techniques. - Differences in marker selection using the same models and marker selection criteria across the different cohorts excluding versus including stroke converters, and amongst the markers when restricted to blood-bourne markers only versus allowed to select all variables, may demonstrate both the substitutability of certain biomarkers, where multiple solutions to the model optimization are likely, and the impact of population and diagnostic indication/intended use on the best fitted models. Several techniques of result normalization, model cross-validation, and model calibration are disclosed herein which may be employed in various scenarios as appropriate. Furthermore, the consistency of AUC results between Example 1 and Example 2 indicates the applicability of various implementations of the invention for both differing arteriovascular event endpoints, which typically are considered to represent the greater difference in pathophysiology than commonly seen in any one of CAD, PAD, or CVD.
- Complete forward selection of solely blood-bourne and all 61 ARTERIORISKMARKERS was performed for the populations of Example 2 and are presented in
FIGS. 20 and 21 .FIG. 20 is a chart depicting the ROC curve calculated AUC statistics for multiple expanding “best forward selected” LDA models, starting from a single ARTERIORISKMARKER and then at each step adding one more incremental forward selected ARTERIORISKMARKER, re-optimizing the LDA model, and graphing the derived AUC statistic. This continues through 53 selected ARTERIORISKMARKERS selected from a total set of the selected blood-bourne ARTERIORISKMARKERS, Sex and Family History (FamHX). The AIC is included as in the previous charts. -
FIG. 21 is a chart depicting the ROC curve calculated AUC statistics for multiple expanding “best forward selected” LDA models, starting from a single ARTERIORISKMARKER and then at each step adding one more incremental forward selected ARTERIORISKMARKER, re-optimizing the LDA model, and graphing the derived AUC statistic. This continues through 61 ARTERIORISKMARKERS representing the complete group of both the selected blood-bourne analyte and clinical parameter ARTERIORISKMARKERS. The AIC is included as in the previous charts. - A comparison of the selection ranking order of the markers shown in Example 2 versus those shown in the comparable analysis of Example 1, presented previously in FIGS 10 and 11, provides further evidence of the ability to optimize models for individual types of arteriovascular disease.
- It is to be understood that while the invention has been described in conjunction with the detailed description thereof, the foregoing description is intended to illustrate and not limit the scope of the invention, which is defined by the scope of the appended claims. Other aspects, advantages, and modifications are within the scope of the following claims.
Claims (59)
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US20170261520A1 (en) | 2017-09-14 |
WO2007146229A3 (en) | 2008-04-17 |
WO2007146229A2 (en) | 2007-12-21 |
EP2302395B1 (en) | 2015-04-15 |
EP2924440A2 (en) | 2015-09-30 |
US20110008805A1 (en) | 2011-01-13 |
US20150346218A1 (en) | 2015-12-03 |
US9689880B2 (en) | 2017-06-27 |
US9057736B2 (en) | 2015-06-16 |
EP2302395A1 (en) | 2011-03-30 |
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