US20130203624A1 - Methods of Detecting Prenatal or Pregnancy-Related Diseases or Conditions - Google Patents

Methods of Detecting Prenatal or Pregnancy-Related Diseases or Conditions Download PDF

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US20130203624A1
US20130203624A1 US13/811,682 US201113811682A US2013203624A1 US 20130203624 A1 US20130203624 A1 US 20130203624A1 US 201113811682 A US201113811682 A US 201113811682A US 2013203624 A1 US2013203624 A1 US 2013203624A1
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condition
disease
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Amin I. Kassis
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Harvard College
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    • G01N33/5005Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving human or animal cells
    • G01N33/5008Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving human or animal cells for testing or evaluating the effect of chemical or biological compounds, e.g. drugs, cosmetics
    • G01N33/5044Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving human or animal cells for testing or evaluating the effect of chemical or biological compounds, e.g. drugs, cosmetics involving specific cell types
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Definitions

  • This invention relates generally to methods of using phagocytic cells alone or in combination with non-phagocytic cells in the diagnosis, prognosis, or monitoring of prenatal or pregnancy-related diseases or conditions.
  • the invention also relates to methods of using phagocytic cells alone or in combination with non-phagocytic cells to identify markers of prenatal or pregnancy-related diseases or conditions.
  • Leukocytes begin as pluripotent hematopoietic stem cells in the bone marrow and develop along either the myeloid lineage (monocytes, macrophages, neutrophils, eosinophils, and basophils) or the lymphoid lineage (T and B lymphocytes and natural killer cells).
  • the major function of the myeloid lineage cells e.g., neutrophils and macrophages
  • the major function of the myeloid lineage cells e.g., neutrophils and macrophages
  • Phagocytes from healthy animals do not replicate and are diploid, i.e., have a DNA content of 2n. On average, each cell contains ⁇ 10 ng DNA, ⁇ 20 ng RNA, and ⁇ 300 ng of protein.
  • the lifetime of various white blood cell subpopulations varies from a few days (e.g., neutrophils) to several months (e.g., macrophages). Like other cell types, leukocytes age and eventually die. During their aging process, human blood- and tissue-derived phagocytes (e.g., neutrophils) exhibit all the classic markers of programmed cell death (i.e., apoptosis), including caspase activation, pyknotic nuclei, and chromatin fragmentation. These cells also display a number of “eat-me” flags (e.g., phosphatidylserine, sugars) on the extracellular surfaces of their plasma membranes. Consequently, dying and dead cells and subcellular fragments thereof are cleared from tissues and blood by other phagocytic cells.
  • apoptosis e.g., neutrophils
  • phagocytic cells serve as surrogates for diseased cells and non-phagocytic cells serve as control cells.
  • this invention provides a method for diagnosing or aiding in the diagnosis of a prenatal or pregnancy-related disease or condition in a subject comprising: a) determining a first profile of one or more markers of the disease or condition from a population of phagocytic cells; b) determining a second profile of at least one of the one or more markers from a population of non-phagocytic cells; and c) identifying a difference between the first and second profiles of at least one or more of said markers, wherein the difference is indicative of the presence of said disease or condition in the subject.
  • this invention provides a method for assessing the risk of developing a prenatal or pregnancy-related disease or condition in a subject comprising: a) determining a first profile of one or more markers of the disease or condition from a population of phagocytic cells; b) determining a second profile of at least one of the one or more markers from a population of non-phagocytic cells; and c) identifying a difference between the first and second profiles of at least one or more of said markers, wherein the difference is indicative of the risk of developing said disease or condition in the subject.
  • this invention provides a method for prognosing or aiding in the prognosis of a prenatal or pregnancy-related disease or condition in a subject comprising: a) determining a first profile of one or more markers of the disease or condition from a population of phagocytic cells; b) determining a second profile of at least one of the one or more markers from a population of non-phagocytic cells; and c) identifying a difference between the first and second profiles of at least one or more of said markers, wherein the identified difference is indicative of the prognosis of said disease or condition in the subject.
  • this invention provides a method for assessing the efficacy of a treatment for a prenatal or pregnancy-related disease or condition in a subject comprising: a) determining a first profile of one or more markers of the disease or condition from a population of phagocytic cells from the subject before the treatment; determining a second profile of at least one of the one or more markers from a population of non-phagocytic cells from the subject before the treatment; identifying a first difference between the first and second profiles of at least one or more of said markers; b) determining a third profile of the one or more markers from a population of phagocytic cells from the subject after the treatment; determining a fourth profile of at least one of the one or more markers from a population of non-phagocytic cells from the subject after the treatment; identifying a second difference between the third and fourth profiles of at least one or more of said markers; and c) identifying a difference between the first difference and the second difference, wherein the identified difference is indicative of
  • this invention provides a method for monitoring the progression or regression of a prenatal or pregnancy-related disease or condition in a subject comprising: a) determining a first profile of one or more markers of the disease or condition from a population of phagocytic cells from the subject at a first time point; determining a second profile of at least one of the one or more markers from a population of non-phagocytic cells from the subject at the first time point; identifying a first difference between the first and second profiles of at least one or more of said markers; b) determining a third profile of the one or more markers from a population of phagocytic cells from the subject at a second time point; determining a fourth profile of at least one of the one or more markers from a population of non-phagocytic cells from the subject at the second time point; identifying a second difference between the third and fourth profiles of at least one or more of said markers; and c) identifying a difference between the first difference and the second difference, wherein the
  • this invention provides a method for identifying a compound capable of ameliorating or treating a prenatal or pregnancy-related disease or condition in a subject comprising: a) determining a first profile of one or more markers of the disease or condition from a population of phagocytic cells from the subject before administering the compound to the subject; determining a second profile of at least one of the one or more markers from a population of non-phagocytic cells from the subject before administering the compound to the subject; identifying a first difference between the first and second profiles of at least one or more of said markers; b) determining a third profile of the one or more markers from a population of phagocytic cells from the subject after the administration of the compound; determining a fourth profile of at least one of the one or more markers from a population of non-phagocytic cells from the subject after the administration of the compound; identifying a second difference between the third and fourth profiles of at least one or more of said markers; and c) identifying a difference between
  • this invention provides a method for identifying one or more markers for a prenatal or pregnancy-related disease or condition comprising: a) determining a first profile of analytes from phagocytic cells from a subject having said disease or condition; determining a second profile of analytes from non-phagocytic cells from the subject having said disease or condition; identifying a first set of differences between the first and second profiles, wherein the first set of differences is specific to the first profile relative to the second profile; b) determining a third profile of analytes from phagocytic cells from a control subject not having said disease or condition; determining a fourth profile of analytes from non-phagocytic cells from the control subject not having said disease or condition; identifying a second set of differences between the third and fourth profiles, wherein the second set of differences is specific to the third profile relative to the fourth profile; c) identifying one or more analytes specific to the first set of differences relative to the second set of differences, the
  • this method further comprises d) obtaining a fifth profile of analytes from cells or tissues affected by said disease or condition in the subject having said disease or condition; obtaining a sixth profile of analytes from cells or tissues not affected by said disease or condition in the subject having said disease or condition; identifying a third set of differences between the fifth and sixth profiles, wherein the third set of differences is specific to the fifth profile relative to the sixth profile; and e) identifying at least one of the one or more markers of c) present in the third set of differences.
  • this invention provides a method for identifying one or more markers of a prenatal or pregnancy-related disease or condition comprision: a) determining a first profile of analytes from phagocytic cells from a subject having said disease or condition; determining a second profile of analytes from phagocytic cells from a control subject not having said disease or condition;
  • this invention provides a method for identifying one or more markers of a prenatal or pregnancy-related disease or condition comprising: a) determining a first profile of analytes from phagocytic cells from a subject having said disease or condition; obtaining a second profile of analytes from phagocytic cells from a control subject not having said disease or condition by data mining; identifying a first set of differences between the first and second profiles, wherein the first set of differences is specific to the first profile relative to the second profile; b) determining a third profile of analytes from non-phagocytic cells from the subject having said disease or condition; obtaining a fourth profile of analytes from non-phagocytic cells from a control subject not having said disease or condition by data mining; identifying a second set of differences between the third and fourth profiles, wherein the second set of differences is specific to the third profile relative to the fourth profile; and c) identifying one or more analytes specific to the first set of differences relative
  • the method further comprises d) obtaining a fifth profile of analytes from cells or tissues affected by said disease or condition by data mining; obtaining a sixth profile of analytes from cells or tissues not affected by said disease or condition by data mining; identifying a third set of differences between the fifth and sixth profiles, wherein the third set of differences is specific to the fifth profile relative to the sixth profile; and e) identifying at least one of the one or more markers of c) present in the third set of differences.
  • this invention provides a method for identifying one or more markers of a prenatal or pregnancy-related disease or condition comprising: a) determining a first profile of analytes from phagocytic cells from a subject having said disease or condition; determining a second profile of analytes from non-phagocytic cells from the subject having said disease or condition; identifying a first set of differences between the first and second profiles, wherein the first set of differences is specific to the first profile relative to the second profile; b) determining a third profile of analytes from cells or tissues affected by said disease or condition from the subject having said disease or condition; determining a fourth profile of analytes from cells or tissues not affected by said disease or condition from the subject having said disease or condition; identifying a second set of differences between the third and fourth profiles, wherein the second set of differences is specific to the third profile relative to the fourth profile; c) identifying one or more analytes present in both the first set of differences and the second set of differences, the identified
  • the method further comprises d) determining a fifth profile of analytes from phagocytic cells from a control subject not having said disease or condition; identifying a third set of differences between the first and fifth profiles, wherein the third set of differences is specific to the first profile relative to the fifth profile; e) identifying at least one of the one or more markers of c) present in the third set of differences.
  • the method further comprises: d) obtaining a fifth profile of analytes from cells or tissues affected by said disease or condition from the subject having said disease or condition; obtaining a sixth profile of analytes from cells or tissues not affected by said disease or condition from the subject having said disease or condition; identifying a third set of differences between the fifth and sixth profiles, wherein the third set of differences is specific to the fifth profile relative to the sixth profile; and e) identifying at least one of the one or more markers of c) present in the third set of differences.
  • the markers or the analytes are nucleic acids (e.g., nucleotides, oligonucleotides, DNAs, RNAs, or DNA-RNA hybrids), proteins (e.g., amino acids, peptides, enzymes, antigens, antibodies, cytokines, lipoproteins, glycoproteins, or hormones), lipids (e.g., fatty acids, phosphatides, cholesterol), carbohydrates (e.g., monosaccharides, disaccharides, polysaccharides), metabolites (e.g., vitamins, primary metabolites, secondary metabolites), or combinations thereof.
  • nucleic acids e.g., nucleotides, oligonucleotides, DNAs, RNAs, or DNA-RNA hybrids
  • proteins e.g., amino acids, peptides, enzymes, antigens, antibodies, cytokines, lipoproteins, glycoproteins, or hormones
  • lipids e.g., fatty
  • the profile is a nucleic acid profile (e.g., genotypic profile, a single nucleotide polymorphism profile, a gene mutation profile, a gene copy number profile, a DNA methylation profile, a DNA acetylation profile, a chromosome dosage profile, a gene expression profile), a protein profile (e.g., protein expression, protein activation), a lipid profile, a carbohydrate profile, a metabolite profile, or a combination thereof.
  • the profile is determined by a qualitative assay, a quantitative assay, or a combination thereof.
  • the first profile, the second profile, the third profile, the fourth profile, the fifth profile, or the sixth profile comprises the absence of at least one of the one or more markers.
  • the difference is at least 1.05-fold, 1.1-fold, 1.2-fold, 1.3-fold, 1.4-fold, 1.5-fold, 2-fold, 2.5-fold, 3-fold, 4-fold, 5-fold, 6-fold, 7-fold, 8-fold, 9-fold, or 10-fold difference.
  • the cellular contents of the phagocytic cells comprise viable diseased cells, dead diseased cells, apoptotic diseased cells, circulating tumor cells, infectious agents, fetal cells, trophoblasts, or fragments thereof.
  • the cellular contents of the >2n phagocytic cells comprise viable diseased cells, dead diseased cells, apoptotic diseased cells, circulating tumor cells, infectious agents, fetal cells, trophoblasts, or fragments thereof.
  • At least one of the one or more markers of the disease or condition is present in the cellular contents of the phagocytic cells. In some embodiments, the one or more markers of said disease or condition are not present in the cellular contents of the non phagocytic cells. In some embodiments, the phagocytic cells express at least one of the one or more markers of said disease or condition.
  • the methods of this invention also comprise comparing the identified difference of c) to a repository of one or more known markers of said disease or condition (e.g., data obtained by data mining).
  • the phagocytic cells are professional phagocytic cells (e.g., neutrophils, macrophages, monocytes, dendritic cells, foam cells, mast cells, eosinophils), non-professional phagocytic cells (e.g., epithelial cells, endothelial cells, fibroblasts, mesenchymal cells), or mixtures thereof.
  • the non-phagocytic cells are T cells, B cells, null cells, basophils, or mixtures thereof.
  • the non-phagocytic cells are isolated from a bodily fluid sample (e.g., blood, urine), tissues, or cells (e.g., white blood cells, fetal cells) of the subject.
  • the phagocytic cells can also be isolated by using a product secreted by the phagocytic cells, or by using a cell surface target (e.g., a receptor protein, a marker of said disease or condition) on the surface of the phagocytic cells.
  • a cell surface target e.g., a receptor protein, a marker of said disease or condition
  • the target is expressed by the phagocytic cells. In other embodiments, the target is not expressed by the phagocytic cells.
  • the non-phagocytic cells are isolated using a ligand that binds to a molecular receptor expressed on the plasma membranes of white blood cells.
  • markers that can be used in the methods of this invention and that can be identified by the methods of this invention.
  • FIG. 1A schematically depicts one embodiment of a method of the invention for diagnosing or aiding in the diagnosis of a pre-natal or pregnancy-related disease or condition.
  • phagocytic cells and non-phagocytic cells are separated from white blood cells of a subject.
  • the phagocytic cells serve as surrogates for diseased cells, while the non-phagocytic cells serve as control cells.
  • FIG. 1B schematically depicts one proposed pathway leading to acquisition of a pre-natal or pregnancy-related disease-specific DNA, RNA, protein and/or lipid markers by phagocytic cells.
  • Blood phagocytes engulf viable circulating diseased cells, apoptotic diseased cells, and/or fragmented diseased cells.
  • the disease-specific markers e.g., DNAs, RNAs, proteins, or lipids
  • non-phagocytic cells do not internalize these diseased cells/fragments, and, therefore, do not contain and/or express the disease-specific markers.
  • FIG. 1C schematically depicts a general flowchart of one embodiment of a method of the invention.
  • FIG. 1D schematically depicts a general flowchart of one embodiment of a method of the invention.
  • FIG. 2A schematically depicts one embodiment of a method of this invention for identifying one or more markers of a prenatal or pregnancy-related disease or condition.
  • D represents diseased cells/tissues from a patient having a pregnancy-related disease or condition or carrying an embryo or fetus with a prenatal condition; and ND represents not-diseased cells/tissues from the patient;
  • M D represents macrophages taken from the patient;
  • TC D represents T cells taken from the patient(s);
  • M C represents macrophages taken from a control subject not having the disease or condition;
  • TC C represents T cells taken from the control subject.
  • FIG. 2B schematically depicts one embodiment of a method of this invention for identifying one or more markers of a prenatal or pregnancy-related disease or condition.
  • D represents diseased cells/tissues from a patient having a pregnancy-related disease or condition or carrying an embryo or fetus with a prenatal condition; and ND represents not-diseased cells/tissues from the patient;
  • M D represents macrophages taken from the patient;
  • TC D represents T cells taken from the patient;
  • M C represents macrophages taken from a control subject not having the disease or condition;
  • TC C represents T cells taken from the control subject.
  • FIG. 2C schematically depicts one embodiment of a method of this invention for identifying one or more markers of a prenatal or pregnancy-related disease or condition.
  • D represents information obtained by data mining about diseased cells/tissues from patients having a pregnancy-related disease or condition or carrying an embryo or fetus with a prenatal condition; and ND represents information obtained by data mining about not-diseased cells/tissues from patients having the same disease or condition;
  • M D represents macrophages taken from a patient having the disease or condition;
  • TC D represents T cells taken from the patient;
  • M C represents information obtained by data mining about macrophages from control subjects not having the disease or condition;
  • TC C represents information obtained by data mining about T cells obtained from control subjects not having the disease or condition.
  • FIG. 3 depicts a schematic of gene expression profile data that could be compared to identify pre-natal or pregnancy-related disease-specific genes selectively acquired/expressed by macrophages.
  • FIG. 4A schematically depicts one embodiment of a method of this invention for diagnosing or aiding in the diagnosis of a pre-natal or pregnancy-related disease or condition.
  • a blood sample is withdrawn from an individual to be diagnosed.
  • the >2n phagocytic cells serve as surrogates for diseased cells and the 2n phagocytic cells serve as control cells.
  • FIG. 4B schematically depicts one proposed pathway leading to acquisition of pre-natal or pregnancy-related disease or condition-specific markers (e.g., DNA, RNA, protein and lipid markers) by phagocytic cells.
  • Blood phagocytes engulf viable circulating diseased cells, apoptotic diseased cells, and/or fragmented diseased cells.
  • the pre-natal or pregnancy-related disease or condition-specific markers e.g., DNAs, RNAs, proteins, or lipids
  • phagocytic cells that do not internalize these diseased cells/fragments, and thus, do not contain or express these markers, and remain DNA content of 2n.
  • FIG. 5 schematically depicts one embodiment of a method of this invention for identifying one or more markers of a pre-natal or pregnancy-related disease or condition.
  • D represents diseased tissues/cells from a patient having a pregnancy-related disease or condition or carrying an embryo or fetus with a prenatal condition; and ND represents not-diseased tissues/cells from the patient;
  • M D(N>2) represents macrophages having a DNA content of >2n taken from a patient with the disease or condition;
  • M C(N>2) represents macrophages having a DNA content of >2n taken from a control subject not having the disease or condition;
  • FIG. 6 schematically depicts one embodiment of a method of this invention for identifying pre-natal or pregnancy-related disease or condition-specific markers selectively acquired/expressed by >2n phagocytic cells of a patient.
  • FIG. 7 schematically depicts one embodiment of a method of this invention for diagnosing/detecting a pre-natal or pregnancy-related disease or condition by comparing expression profiles obtained from arrays.
  • FIG. 8 schematically depicts one embodiment of a method of this invention for identifying one or more markers of a pre-natal or pregnancy-related disease or condition.
  • D represents diseased cells/tissues from a patient having a pregnancy-related disease or condition or carrying an embryo or fetus with a prenatal condition; and ND represents not-diseased cells/tissues from the patient;
  • N D represents neutrophils taken from the patient;
  • TC D represents T cells taken from the patient;
  • N C represents neutrophils obtained from a control subject not having the disease or condition.
  • a “patient”, “subject”, or “individual” are used interchangeably and refer to either a human or a non-human animal. These terms include mammals, such as humans, primates, livestock animals (e.g., bovines, porcines), companion animals (e.g., canines, felines) and rodents (e.g., mice and rats).
  • mammals such as humans, primates, livestock animals (e.g., bovines, porcines), companion animals (e.g., canines, felines) and rodents (e.g., mice and rats).
  • a control subject refers to any individual that has not been diagnosed as having the disease or condition being assayed.
  • the terms “normal control”, “healthy control”, and “not-diseased cells” likewise mean a sample (e.g., cells, serum, tissue) taken from a source (e.g., subject, control subject, cell line) that does not have the condition or disease being assayed and therefore may be used to determine the baseline for the condition or disorder being measured.
  • a source e.g., subject, control subject, cell line
  • the control subject, normal control, and healthy control include data obtained and used as a standard, i.e. it can be used over and over again for multiple different subjects.
  • the data from the control sample could have been obtained in a different set of experiments, for example, it could be an average obtained from a number of healthy subjects and not actually obtained at the time the data for the subject was obtained.
  • diagnosis refers to methods by which the skilled artisan can estimate and/or determine whether or not a patient is suffering from a given disease or condition.
  • the skilled artisan often makes a diagnosis on the basis of one or more diagnostic indicators, e.g., a marker, the presence, absence, amount, or change in amount of which is indicative of the presence, severity, or absence of the condition.
  • prognosis refers to is used herein to refer to the likelihood of a prenatal or pregnancy-related disease or condition progression, including recurrence of a disease or condition.
  • profiles e.g., gene/protein/lipid/carbohydrate expression profiles, genotypes, gene copy number, gene dosage, DNA methylation, etc.
  • disease or condition-associated markers e.g., nucleic acids, proteins, lipids, carbohydrates, metabolites
  • This invention also provides methods for assessing the risk of developing a pre-natal or pregnancy-related disease or condition, prognosing said disease, monitoring said disease progression or regression, assessing the efficacy of a treatment, or identifying a compound capable of ameliorating or treating said disease or condition.
  • Such a subject-specific profile comparison eliminates the dependence on a population-derived average profile for a particular disease or condition, which may introduce error into the detection or diagnosis of a particular disease or condition in the subject.
  • the methods of this invention allow detection, diagnosis, and treatment to be personalized to the individual.
  • the methods of this invention (i) have high specificity, sensitivity, and accuracy and are capable of detecting disease or condition-specific markers present within a bodily fluid sample, cells or tissues; and (ii) eliminate the “inequality of baseline” that is known to occur among individuals due to intrinsic (e.g., age, gender, ethnic background, health status and the like) and temporal variations in marker expression. Accordingly, in certain aspects, the invention provides non-invasive assays for the early detection of a disease or condition, i.e., before the disease can be diagnosed by conventional diagnostic techniques, e.g., imaging techniques, and, therefore, provide a foundation for improved decision-making relative to the needs and strategies for intervention, prevention, and treatment of individuals with such disease or condition.
  • the methods of this invention can be used together with any known diagnostic methods, such as physical inspection, visual inspection, biopsy, scanning, histology, radiology, imaging, ultrasound, use of a commercial kit, genetic testing, immunological testing, analysis of bodily fluids, or monitoring neural activity.
  • diagnostic methods such as physical inspection, visual inspection, biopsy, scanning, histology, radiology, imaging, ultrasound, use of a commercial kit, genetic testing, immunological testing, analysis of bodily fluids, or monitoring neural activity.
  • Phagocytic cells that can be used in the methods of this invention include all types of cells that are capable of ingesting various types of substances (e.g., apoptotic cells, infectious agents, dead cells, viable cells, cell-free DNAs, cell-free RNAs, cell-free proteins).
  • the phagocytic cells are professional phagocytic cells, such as neutrophils, macrophages, monocytes, dendritic cells, foam cells, mast cells, or eosinophils.
  • the phagocytic cells are non-professional phagocytic cells, such as epithelial cells, endothelial cells, fibroblasts, or mesenchymal cells.
  • the phagocytic cells can be a mixture of different types of phagocytic cells.
  • Non-phagocytic cells that can be used in this invention include, but are not limited to, T cells, B cells, null cells, basophils, or mixtures thereof.
  • the >2n phagocytic cells refer to phagocytic cells that have a DNA content of greater than 2n
  • some phagocytic cells engulf live/dying/dead diseased cells (and sub-cellular fragments thereof) and/or cell-free disease-specific nucleic acids, proteins, carbohydrates and/or lipids present in bodily fluids. Such phagocytosis leads to the internalization of these disease markers into the phagocytic cell and, therefore, the DNA content of these phagocytic cells will become greater than 2n.
  • phagocytic cells have not engulfed living/dying/dead diseased cells or fragments and/or cell-free disease-specific nucleic acids, proteins, lipids, and/or carbohydrates present in bodily fluids.
  • the DNA contents of this group of phagocytic cells remain 2n.
  • the disease-specific markers e.g., DNA with disease-specific mutations
  • the mutated DNA of diseased cells is integrated into the normal DNA of the >2n phagocytic cells.
  • the internalized disease-specific markers are not expressed by the >2n phagocytic cells.
  • the markers may be translocated onto the membranes of the >2n phagocytic cells, or secreted out by the >2n phagocytic cells.
  • a “profile” of a marker of a disease or condition can broadly refer to any information concerning the marker. This information can be either qualitative (e.g., presence or absence) or quantitative (e.g., levels, copy numbers, or dosages). In some embodiments, a profile of a marker can indicate the absence of this marker.
  • the profile can be a nucleic acid (e.g., DNA or RNA) profile, a protein profile, a lipid profile, a carbohydrate profile, a metabolite profile, or a combination thereof.
  • a “marker” as used herein generally refers to an analyte which is differentially detectable in phagocytes and is indicative of the presence of a disease or condition. An analyte is differentially detectable if it can be distinguished quantitatively or qualitatively in phagocytes.
  • prenatal or pregnancy-related disease or condition can refer to any disease, disorder, or condition affecting a pregnant woman, embryo, or fetus.
  • Prenatal or pregnancy-related diseases or conditions can also refer to any disease, disorder, or condition that is associated with or arises, either directly or indirectly, as a result of pregnancy.
  • diseases or conditions can include any and all birth defects, congenital conditions, or hereditary diseases or conditions.
  • prenatal or pregnancy-related diseases or conditions include, but are not limited to, detection of pregnancy, Rhesus disease, hemolytic disease of the newborn, beta-thalassemia, sex determination, a hereditary Mendelian genetic disorder, chromosomal aberrations, a fetal chromosomal aneuploidy, fetal chromosomal trisomy, fetal chromosomal monosomy, trisomy 8, trisomy 13 (Patau Syndrom), trisomy 16, trisomy 18 (Edwards syndrome), trisomy 21 (Down syndrome), X-chromosome linked disorders, trisomy X (XXX syndrome), monosomy X (Turner syndrome), XXY syndrome, XYY syndrome, XYY syndrome, XXXY syndrome, XYY syndrome, XYYY syndrome, XXXXX syndrome, XXXY syndrome, XXYY syndrome, XXYY syndrome, XXYY syndrome, Fragile
  • the methods of this invention can also be applied to the prenatal or pregnancy-related diseases or conditions disclosed in, for example, U.S. Pat. Nos. 6,258,540, 7,235,359, and 7,645,576, United States Patent Application Publications 20100120056, 20090317797, 20070141625, 20060037085, 20040137452, 20050164241, 20090181421, and 20080176237, International Patent Application Publications WO/2006/026020, WO/2002/068685, WO/2005/111626, WO/2009/055487, WO/2008/021995, and by the World Health Organization (www.who.int/genomics/about/en/BD%20list.pdf) and March of Dimes (www.marchofdimes.com/pnhec/4439 — 10286.asp).
  • treating refers to taking steps to obtain beneficial or desired results, including clinical results.
  • beneficial or desired clinical results include, but are not limited to, alleviation or amelioration of one or more symptoms associated with prenatal or pregnancy-related diseases or conditions.
  • a compound or agent can also appropriately be introduced by rechargeable or biodegradable polymeric devices or other devices, e.g., patches and pumps, or formulations, which provide for the extended, slow, or controlled release of the compound or agent.
  • Administering can also be performed, for example, once, a plurality of times, and/or over one or more extended periods.
  • the administration includes both direct administration, including self-administration, and indirect administration, including the act of prescribing a drug.
  • a physician who instructs a patient to self-administer a drug, or to have the drug administered by another and/or who provides a patient with a prescription for a drug is administering the drug to the patient.
  • a compound or an agent is administered orally, e.g., to a subject by ingestion, or intravenously, e.g., to a subject by injection.
  • the orally administered compound or agent is in an extended release or slow release formulation, or administered using a device for such slow or extended release.
  • up-regulation or up-regulated can refer to an increase in expression levels (e.g., gene expression or protein expression), gene copy numbers, gene dosages, and other qualitative or quantitative detectable state of the markers.
  • down-regulation or down-regulated can refer to an increase in expression levels, gene copy numbers, gene dosages, and other qualitative or quantitative detectable state of the markers.
  • activation or activated can refer to an active state of the marker, e.g., a phosphorylation state, a DNA methylation state, or a DNA acetylation state.
  • methods of this invention also comprise at least one of the following steps before determination of various profiles: i) lysing the phagocytic cells and the non-phagocytic cells; ii) extracting cellular contents from the lysed phagocytic cells, the lysed non-phagocytic cells. Any known cell lysis and extraction methods can be used herein.
  • the cellular contents of the phagocytic cells comprise various types of materials that they have engulfed, such as, viable diseased cells, dead diseased cells, apoptotic diseased cells, circulating tumor cells, infectious agents, fetal cells, trophoblasts, or fragments thereof.
  • At least one or more markers of a prenatal or pregnancy-related disease or condition are present in the cellular contents of the phagocytic cells. In certain embodiments, there is no marker present in the cellular contents of the non-phagocytic cells.
  • the cellular contents of the >2n phagocytic cells comprise various types of materials that they have engulfed, such as, viable diseased cells, dead diseased cells, apoptotic diseased cells, circulating tumor cells, infectious agents, fetal cells, trophoblasts, or fragments thereof.
  • methods of this invention further comprise comparing the identified difference of the disease or condition-specific markers to a repository of at least one markers known in the art. Such comparison can further confirm the presence of the disease or condition.
  • the repository of the known markers can be obtained by data mining.
  • data mining refers to a process of finding new data patterns, relations, or correlations derived from the known data of the databases and of extracting practicable information in the future.
  • a computer-based system can be trained on data to perform the data mining, e.g., to classify the input data and then subsequently used with new input data to make decisions based on the training data.
  • systems include, but are not limited, expert systems, fuzzy logic, non-linear regression analysis, multivariate analysis, decision tree classifiers, and Bayesian belief networks.
  • the non-phagocytic cells are isolated from a bodily fluid sample, tissues, or cells.
  • Exemplar bodily fluid sample can be whole blood, urine, stool, saliva, lymph fluid, cerebrospinal fluid, synovial fluid, cystic fluid, ascites, pleural effusion, fluid obtained from a pregnant woman in the first trimester, fluid obtained from a pregnant woman in the second trimester, fluid obtained from a pregnant woman in the third trimester, maternal blood, amniotic fluid, chorionic villus sample, fluid from a preimplantation embryo, maternal urine, maternal saliva, placental sample, fetal blood, lavage and cervical vaginal fluid, interstitial fluid, or ocular fluid.
  • the non-phagocytic cells are isolated from white blood cells.
  • cell separation/isolation/purification methods are used to isolate populations of cells from bodily fluid sample, cells, or tissues of a subject.
  • Exemplar techniques include, but are not limited to, using antibodies, flow cytometry, fluorescence activated cell sorting, filtration, gradient-based centrifugation, elution, microfluidics, magnetic separation technique, fluorescent-magnetic separation technique, nanostructure, quantum dots, high throughput microscope-based platform, or a combination thereof.
  • the phagocytic cells and the non-phagocytic cells are isolated by using a product secreted by the phagocytic cells.
  • the phagocytic cells and the non-phagocytic cells are isolated by using a cell surface target (e.g., receptor protein) on the surface of phagocytic cells.
  • the cell surface target is a protein that has been engulfed by the phagocytic cells.
  • the cell surface target is expressed by the phagocytic cells on their plasma membranes.
  • the cell surface target is an exogenous protein that is translocated on the plasma membranes, but not expressed by the phagocytic cells.
  • the cell surface target is a marker of the disease or condition to be detected.
  • the cell surface target is a protein that has been engulfed by the >2n phagocytic cells.
  • the cell surface target is expressed by the >2n phagocytic cells on their plasma membranes.
  • the cell surface target is an exogenous protein that is translocated on the plasma membranes, but not expressed by the >2n phagocytic cells. In some embodiments, the cell surface target is a marker of the disease or condition to be detected.
  • analytes include nucleic acids, proteins, lipids, carbohydrates, metabolites, or any combinations of these.
  • markers include nucleic acids, proteins, lipids, carbohydrates, metabolites, or any combinations of these.
  • nucleic acid is intended to include DNA molecules (e.g., cDNA or genomic DNA), RNA molecules (e.g., mRNA), DNA-RNA hybrids, and analogs of the DNA or RNA generated using nucleotide analogs.
  • the nucleic acid molecule can be a nucleotide, oligonucleotide, double-stranded DNA, single-stranded DNA, multi-stranded DNA, complementary DNA, genomic DNA, non-coding DNA, messenger RNA (mRNAs), microRNA (miRNAs), small nucleolar RNA (snoRNAs), ribosomal RNA (rRNA), transfer RNA (tRNA), small interfering RNA (siRNA), heterogeneous nuclear RNAs (hnRNA), or small hairpin RNA (shRNA).
  • mRNAs messenger RNA
  • miRNAs microRNA
  • rRNA ribosomal RNA
  • tRNA transfer RNA
  • siRNA small interfering RNA
  • hnRNA heterogeneous nuclear RNAs
  • shRNA small hairpin RNA
  • amino acid includes organic compounds containing both a basic amino group and an acidic carboxyl group. Included within this term are natural amino acids (e.g., L-amino acids), modified and unusual amino acids (e.g., D-amino acids and ⁇ -amino acids), as well as amino acids which are known to occur biologically in free or combined form but usually do not occur in proteins.
  • natural amino acids e.g., L-amino acids
  • modified and unusual amino acids e.g., D-amino acids and ⁇ -amino acids
  • Natural protein occurring amino acids include alanine, arginine, asparagine, aspartic acid, cysteine, glutamic acid, glutamine, glycine, histidine, isoleucine, leucine, lysine, methionine, phenylalanine, serine, threonine, tyrosine, tryptophan, proline, and valine.
  • peptide includes compounds that consist of two or more amino acids that are linked by means of a peptide bond. Peptides may have a molecular weight of less than 10,000 Daltons, less than 5,000 Daltons, or less than 2,500 Daltons.
  • peptide also includes compounds containing both peptide and non-peptide components, such as pseudopeptide or peptidomimetic residues or other non-amino acid components. Such compounds containing both peptide and non-peptide components may also be referred to as a “peptide analog.”
  • protein includes compounds that consist of amino acids arranged in a linear chain and joined together by peptide bonds between the carboxyl and amino groups of adjacent amino acid residues. Proteins used in methods of the invention include, but are not limited to, amino acids, peptides, antibodies, antibody fragments, cytokines, lipoproteins, or glycoproteins.
  • antibody includes polyclonal antibodies, monoclonal antibodies (including full length antibodies which have an immunoglobulin Fc region), antibody compositions with polyepitopic specificity, multispecific antibodies (e.g., bispecific antibodies, diabodies, and single-chain molecules, and antibody fragments (e.g., Fab or F(ab′) 2 , and Fv).
  • monoclonal antibodies including full length antibodies which have an immunoglobulin Fc region
  • antibody compositions with polyepitopic specificity e.g., multispecific antibodies (e.g., bispecific antibodies, diabodies, and single-chain molecules, and antibody fragments (e.g., Fab or F(ab′) 2 , and Fv).
  • cytokine refers to a secreted protein or active fragment or mutant thereof that modulates the activity of cells of the immune system.
  • cytokines include, without limitation, interleukins, interferons, chemokines, tumor necrosis factors, colony-stimulating factors for immune cell precursors, and the like.
  • lipoprotein includes negatively charged compositions that comprise a core of hydrophobic cholesteryl esters and triglyceride surrounded by a surface layer of amphipathic phospholipids with which free cholesterol and apolipoproteins are associated.
  • Lipoproteins may be characterized by their density (e.g. very-low-density lipoprotein (VLDL), low-density lipoprotein (LDL) and high density lipoprotein (HDL)), which is determined by their size, the relative amounts of lipid and protein.
  • VLDL very-low-density lipoprotein
  • LDL low-density lipoprotein
  • HDL high density lipoprotein
  • Lipoproteins may also be characterized by the presence or absence of particular modifications (e.g. oxidization, acetylation, or glycation).
  • glycoprotein includes glycosides which have one or more oligo- or polysaccharides covalently attached to a peptide or protein.
  • exemplary glycoproteins can include, without limitation, immunoglobulins, members of the major histocompatibility complex, collagens, mucins, glycoprotein IIb/IIIa, glycoprotein-41 (gp41) and glycoprotein-120 (gp12), follicle-stimulating hormone, alpha-fetoprotein, erythropoietin, transferrins, alkaline phosphatase, and lectins.
  • lipid includes synthetic or naturally-occurring compounds which are generally amphipathic and biocompatible. Lipids typically comprise a hydrophilic component and a hydrophobic component. Exemplary lipids include, but are not limited to fatty acids, neutral fats, phosphatides, cholesterol, cholesterol esters, triglycerides, glycolipids, glycerolipids, glycerophospholipids, sphingolipids, sterol lipids, prenol lipids, saccharolipids, polyketides, choline glycerophospholipid, ethanolamine glycerophospholipid, phosphatidylinositol, phosphatidylglycerol, phosphatidylserine, lyso-choline glycerophospholipid, lyso-ethanolamine glycerophospholipid, phosphatidic acid, lyso-phosphatidic acid, sphingomyelin, galactosyl
  • carbohydrate includes, but is not limited to, compounds that contain oxygen, hydrogen and carbon atoms, typically (CH 2 O) n wherein n is an integer.
  • Exemplary carbohydrates include, but are not limited to, monosaccharides, disaccharides, polysaccharides, or oligosaccharides.
  • Metabolites includes any molecule used in metabolism. Metabolites can be products, substrates, or intermediates in metabolic processes. Included within this term are primary metabolites, secondary metabolites, organic metabolites, or inorganic metabolites. Metabolites include, without limitation, amino acids, peptides, acylcarnitines, monosaccharides, lipids and phospholipids, prostaglandins, hydroxyeicosatetraenoic acids, hydroxyoctadecadienoic acids, steroids, bile acids, and glycolipids and phospholipids.
  • Exemplary metabolites can be sphingolipids, glycosphingolipids, sphingosine, ceramide, sphingomyelin, sphingosylphosphorylcholin, dihydrosphingosine, phoshatidylcholine, phosphatidylinositol, phosphatidylserine, lysophoshatidylcholine, lysophosphatidylinositol, lysophosphatidylserine, plasmenylphoshatidylcholine, plasmanylphoshatidylcholine, proteinogenic amino acids, Alanine, Aspartic acid, Glutamic acid, Phenylalanine, Glycine, Histidine, Leucine, Isoleucine, Lysine, Methionine, Proline, Arginine, Serine, Threonine, Valine, Tryptophan, Tyrosine, asymmetrical dimethyl argin
  • profiles of at least one or more markers of a prenatal or pregnancy-related disease or condition are compared. This comparison can be quantitative or qualitative. Quantitative measurements can be taken using any of the assays described herein. For example, sequencing, direct sequencing, random shotgun sequencing, Sanger dideoxy termination sequencing, whole-genome sequencing, sequencing by hybridization, pyrosequencing, capillary electrophoresis, gel electrophoresis, duplex sequencing, cycle sequencing, single-base extension sequencing, solid-phase sequencing, high-throughput sequencing, massively parallel signature sequencing, emulsion PCR, sequencing by reversible dye terminator, paired-end sequencing, near-term sequencing, exonuclease sequencing, sequencing by ligation, short-read sequencing, single-molecule sequencing, sequencing-by-synthesis, real-time sequencing, reverse-terminator sequencing, nanopore sequencing, 454 sequencing, Solexa Genome Analyzer sequencing, SOLiD® sequencing, MS-PET sequencing, mass spectrometry, matrix assisted laser desorption
  • Quantitative comparisons can include statistical analyses such as t-test, ANOVA, Krustal-Wallis, Wilcoxon, Mann-Whitney, and odds ratio.
  • Quantitative differences can include differences in the levels of markers between profiles or differences in the numbers of markers present between profiles, and combinations thereof. Examples of levels of the markers can be, without limitation, gene expression levels, nucleic acid levels, protein levels, lipid levels, and the like.
  • Qualitative differences can include, but are not limited to, activation and inactivation, protein degradation, nucleic acid degradation, and covalent modifications.
  • the profile is a nucleic acid profile, a protein profile, a lipid profile, a carbohydrate profile, a metabolite profile, or a combination thereof.
  • the profile can be qualitatively or quantitatively determined.
  • a nucleic acid profile can be, without limitation, a genotypic profile, a single nucleotide polymorphism profile, a gene mutation profile, a gene copy number profile, a DNA methylation profile, a DNA acetylation profile, a chromosome dosage profile, a gene expression profile, or a combination thereof.
  • the nucleic acid profile can be determined by any methods known in the art to detect genotypes, single nucleotide polymorphisms, gene mutations, gene copy numbers, DNA methylation states, DNA acetylation states, chromosome dosages.
  • Exemplar methods include, but are not limited to, polymerase chain reaction (PCR) analysis, sequencing analysis, electrophoretic analysis, restriction fragment length polymorphism (RFLP) analysis, Northern blot analysis, quantitative PCR, reverse-transcriptase-PCR analysis (RT-PCR), allele-specific oligonucleotide hybridization analysis, comparative genomic hybridization, heteroduplex mobility assay (HMA), single strand conformational polymorphism (SSCP), denaturing gradient gel electrophisis (DGGE), RNAase mismatch analysis, mass spectrometry, tandem mass spectrometry, matrix assisted laser desorption/ionization-time of flight (MALDI-TOF) mass spectrometry, electrospray ionization (ESI) mass spect
  • sequencing is used in a broad sense and refers to any technique known in the art that allows the order of at least some consecutive nucleotides in at least part of a nucleic acid to be identified, including without limitation at least part of an extension product or a vector insert.
  • Exemplar sequencing techniques include direct sequencing, random shotgun sequencing, Sanger dideoxy termination sequencing, whole-genome sequencing, sequencing by hybridization, pyrosequencing, capillary electrophoresis, gel electrophoresis, duplex sequencing, cycle sequencing, single-base extension sequencing, solid-phase sequencing, high-throughput sequencing, massively parallel signature sequencing, emulsion PCR, sequencing by reversible dye terminator, paired-end sequencing, near-term sequencing, exonuclease sequencing, sequencing by ligation, short-read sequencing, single-molecule sequencing, sequencing-by-synthesis, real-time sequencing, reverse-terminator sequencing, nanopore sequencing, 454 sequencing, Solexa Genome Analyzer sequencing, SOLiD® sequencing, MS-PET sequencing, mass spectrometry, and a combination thereof.
  • sequencing comprises an detecting the sequencing product using an instrument, for example but not limited to an ABI PRISM® 377 DNA Sequencer, an ABI PRISM® 310, 3100, 3100-Avant, 3730, or 373OxI Genetic Analyzer, an ABI PRISM® 3700 DNA Analyzer, or an Applied Biosystems SOLiDTM System (all from Applied Biosystems), a Genome Sequencer 20 System (Roche Applied Science), or a mass spectrometer.
  • sequencing comprises emulsion PCR.
  • sequencing comprises a high throughput sequencing technique, for example but not limited to, massively parallel signature sequencing (MPSS).
  • MPSS massively parallel signature sequencing
  • a protein profile can be a protein expression profile, a protein activation profile, or a combination thereof.
  • a protein activation profile can comprise determining a phosphorylation state, an ubiquitination state, a myristoylation state, or a conformational state of the protein.
  • a protein profile can be detected by any methods known in the art for detecting protein expression levels, protein phosphorylation state, protein ubiquitination state, protein myristoylation state, or protein conformational state.
  • a protein profile can be determined by an immunohistochemistry assay, an enzyme-linked immunosorbent assay (ELISA), in situ hybridization, chromatography, liquid chromatography, size exclusion chromatography, high performance liquid chromatography (HPLC), gas chromatography, mass spectrometry, tandem mass spectrometry, matrix assisted laser desorption/ionization-time of flight (MALDI-TOF) mass spectrometry, electrospray ionization (ESI) mass spectrometry, surface-enhanced laser deorption/ionization-time of flight (SELDI-TOF) mass spectrometry, quadrupole-time of flight (Q-TOF) mass spectrometry, atmospheric pressure photoionization mass spectrometry (APPI-MS), Fourier transform mass spectrometry
  • a lipid profile can be determined by chromatography, liquid chromatography, size exclusion chromatography, high performance liquid chromatography (HPLC), gas chromatography, mass spectrometry, tandem mass spectrometry, matrix assisted laser desorption/ionization-time of flight (MALDI-TOF) mass spectrometry, electrospray ionization (ESI) mass spectrometry, surface-enhanced laser deorption/ionization-time of flight (SELDI-TOF) mass spectrometry, quadrupole-time of flight (Q-TOF) mass spectrometry, atmospheric pressure photoionization mass spectrometry (APPI-MS), Fourier transform mass spectrometry (FTMS), matrix-assisted laser desorption/ionization-Fourier transform-ion cyclotron resonance (MALDI-FT-ICR) mass spectrometry, secondary ion mass spectrometry (SIMS), radioimmunoassays, microflu
  • lipid analysis is to extract lipids from a biological sample (e.g.
  • fatty acid methyl esters e.g., using 14% BF3-methanol reagent
  • quantify the fatty acid methyl esters e.g., by HPLC, TLC, by gas chromatography-mass spectroscopy using commercially available gas chromatographs, mass spectrometers, and/or combination gas chromatograph/mass spectrometers.
  • Fatty acid mass is determined by comparing areas of various analyzed fatty acids to that of a fixed concentration of internal standard.
  • a carbohydrate profile can be determined by chromatography, liquid chromatography, size exclusion chromatography, high performance liquid chromatography (HPLC), gas chromatography, mass spectrometry, tandem mass spectrometry, matrix assisted laser desorption/ionization-time of flight (MALDI-TOF) mass spectrometry, electrospray ionization (ESI) mass spectrometry, surface-enhanced laser deorption/ionization-time of flight (SELDI-TOF) mass spectrometry, quadrupole-time of flight (Q-TOF) mass spectrometry, atmospheric pressure photoionization mass spectrometry (APPI-MS), Fourier transform mass spectrometry (FTMS), matrix-assisted laser desorption/ionization-Fourier transform-ion cyclotron resonance (MALDI-FT-ICR) mass spectrometry, secondary ion mass spectrometry (SIMS), radioimmunoassays, micro
  • a metabolite profile can be determind by chromatography, liquid chromatography, size exclusion chromatography, high performance liquid chromatography (HPLC), gas chromatography, mass spectrometry, tandem mass spectrometry, matrix assisted laser desorption/ionization-time of flight (MALDI-TOF) mass spectrometry, electrospray ionization (ESI) mass spectrometry, surface-enhanced laser deorption/ionization-time of flight (SELDI-TOF) mass spectrometry, quadrupole-time of flight (Q-TOF) mass spectrometry, atmospheric pressure photoionization mass spectrometry (APPI-MS), Fourier transform mass spectrometry (FTMS), matrix-assisted laser desorption/ionization-Fourier transform-ion cyclotron resonance (MALDI-FT-ICR) mass spectrometry, secondary ion mass spectrometry (SIMS), radioimmunoassay
  • the “difference” between different profiles detected by the methods of this invention can refer to different gene copy numbers, different DNA, RNA, protein, lipid, or carbohydrate expression levels, different DNA methylation states, different DNA acetylation states, and different protein modification states.
  • the difference can be a difference greater than 1 fold.
  • the difference is a 1.05-fold, 1.1-fold, 1.2-fold, 1.3-fold, 1.4-fold, 1.5-fold, 2-fold, 2.5-fold, 3-fold, 4-fold, 5-fold, 6-fold, 7-fold, 8-fold, 9-fold, or 10-fold difference.
  • the difference is any fold difference between 1-10, 2-10, 5-10, 10-20, or 10-100 folds.
  • a general principle of assays to detect markers involves preparing a sample or reaction mixture that may contain the marker (e.g., one or more of DNA, RNA, protein, polypeptide, carbohydrate, lipid, metabolite, and the like) and a probe under appropriate conditions and for a time sufficient to allow the marker and probe to interact and bind, thus forming a complex that can be removed and/or detected in the reaction mixture.
  • the marker e.g., one or more of DNA, RNA, protein, polypeptide, carbohydrate, lipid, metabolite, and the like
  • probe under appropriate conditions and for a time sufficient to allow the marker and probe to interact and bind, thus forming a complex that can be removed and/or detected in the reaction mixture.
  • one method to conduct such an assay would involve anchoring the marker or probe onto a solid phase support, also referred to as a substrate, and detecting target marker/probe complexes anchored on the solid phase at the end of the reaction.
  • a sample from a subject which is to be assayed for presence and/or concentration of marker, can be anchored onto a carrier or solid phase support.
  • the reverse situation is possible, in which the probe can be anchored to a solid phase and a sample from a subject can be allowed to react as an unanchored component of the assay.
  • biotinylated assay components can be prepared from biotin-NHS(N-hydroxy-succinimide) using techniques known in the art (e.g., biotinylation kit, Pierce Chemicals, Rockford, Ill.), and immobilized in the wells of streptavidin-coated 96 well plates (Pierce Chemical).
  • the surfaces with immobilized assay components can be prepared in advance and stored.
  • Suitable carriers or solid phase supports for such assays include any material capable of binding the class of molecule to which the marker or probe belongs.
  • Well known supports or carriers include, but are not limited to, glass, polystyrene, nylon, polypropylene, nylon, polyethylene, dextran, amylases, natural and modified celluloses, polyacrylamides, gabbros, and magnetite.
  • the non-immobilized component is added to the solid phase upon which the second component is anchored.
  • uncomplexed components may be removed (e.g., by washing) under conditions such that any complexes formed will remain immobilized upon the solid phase.
  • the detection of marker/probe complexes anchored to the solid phase can be accomplished in a number of methods outlined herein.
  • the probe when it is the unanchored assay component, can be labeled for the purpose of detection and readout of the assay, either directly or indirectly, with detectable labels discussed herein and which are well-known to one skilled in the art.
  • a fluorophore label on the first, ‘donor’ molecule is selected such that, upon excitation with incident light of appropriate wavelength, its emitted fluorescent energy will be absorbed by a fluorescent label on a second ‘acceptor’ molecule, which in turn is able to fluoresce due to the absorbed energy.
  • the ‘donor’ protein molecule may simply utilize the natural fluorescent energy of tryptophan residues.
  • Labels are chosen that emit different wavelengths of light, such that the ‘acceptor’ molecule label may be differentiated from that of the ‘donor’. Since the efficiency of energy transfer between the labels is related to the distance separating the molecules, spatial relationships between the molecules can be assessed. In a situation in which binding occurs between the molecules, the fluorescent emission of the ‘acceptor’ molecule label in the assay should be maximal.
  • An FET binding event can be conveniently measured through standard fluorometric detection means well known in the art (e.g., using a fluorimeter).
  • determination of the ability of a probe to recognize a marker can be accomplished without labeling either assay component (probe or marker) by utilizing a technology such as real-time Biomolecular Interaction Analysis (BIA) (see, e.g., Sjolander, S, and Urbaniczky, C, 1991, Anal. Chem. 63:2338 2345 and Szabo et al, 1995, Curr. Opin. Struct. Biol. 5:699 705).
  • BIA or “surface plasmon resonance” is a technology for studying biospecific interactions in real time, without labeling any of the interactants (e.g., BIAcore).
  • analogous diagnostic and prognostic assays can be conducted with marker and probe as solutes in a liquid phase.
  • the complexed marker and probe are separated from uncomplexed components by any of a number of standard techniques, including but not limited to: differential centrifugation, chromatography, electrophoresis and immunoprecipitation.
  • differential centrifugation marker/probe complexes may be separated from uncomplexed assay components through a series of centrifugal steps, due to the different sedimentation equilibria of complexes based on their different sizes and densities (see, for example, Rivas and Minton (1993) Trends Biochem. Sci. 18:284).
  • Standard chromatographic techniques may also be utilized to separate complexed molecules from uncomplexed ones.
  • gel filtration chromatography separates molecules based on size, and through the utilization of an appropriate gel filtration resin in a column format, for example, the relatively larger complex may be separated from the relatively smaller uncomplexed components.
  • the relatively different charge properties of the marker/probe complex as compared to the uncomplexed components may be exploited to differentiate the complex from uncomplexed components, for example through the utilization of ion-exchange chromatography resins.
  • Such resins and chromatographic techniques are well known to one skilled in the art (see, e.g., Heegaard (1998) J. MoI. Recognit. 11:141; Hage and Tweed (1997) J.
  • Gel electrophoresis may also be employed to separate complexed assay components from unbound components (see, e.g., Ausubel et al, ed., Current Protocols in Molecular Biology, John Wiley & Sons, New York, 1987 1999). In this technique, protein or nucleic acid complexes are separated based on size or charge, for example. In order to maintain the binding interaction during the electrophoretic process, non-denaturing gel matrix materials and conditions in the absence of reducing agent are typically preferred. Appropriate conditions to the particular assay and components thereof will be well known to one skilled in the art.
  • the level of mRNA corresponding to the marker can be determined either by in situ and/or by in vitro formats in a biological sample using methods known in the art.
  • Many expression detection methods use isolated RNA.
  • any RNA isolation technique that does not select against the isolation of mRNA can be utilized for the purification of RNA from blood cells (see, e.g., Ausubel et al, ed., Current Protocols in Molecular Biology, John Wiley & Sons, New York 1987 1999).
  • large numbers of cells and/or samples can readily be processed using techniques well known to those of skill in the art, such as, for example, the single-step RNA isolation process of Chomczynski (1989, U.S. Pat. No. 4,843,155).
  • Isolated mRNA can be used in hybridization or amplification assays that include, but are not limited to, Southern or Northern analyses, polymerase chain reaction analyses and probe arrays.
  • a diagnostic method for the detection of mRNA levels involves contacting the isolated mRNA with a nucleic acid molecule (probe) that can hybridize to the mRNA encoded by the gene being detected.
  • the nucleic acid probe can be, for example, a full-length cDNA, or a portion thereof, such as an oligonucleotide of at least 7, 15, 30, 50, 100, 250 or 500 nucleotides in length and sufficient to specifically hybridize under stringent conditions to an mRNA or genomic DNA encoding a marker of the present invention.
  • Other suitable probes for use in the diagnostic assays of the invention are described herein. Hybridization of an mRNA with the probe indicates that the marker in question is being expressed.
  • the mRNA is immobilized on a solid surface and contacted with a probe, for example by running the isolated mRNA on an agarose gel and transferring the mRNA from the gel to a membrane, such as nitrocellulose.
  • the probe(s) are immobilized on a solid surface and the mRNA is contacted with the probe(s), for example, in a gene chip array.
  • a skilled artisan can readily adapt known mRNA detection methods for use in detecting the level of mRNA encoded by the markers of the present invention.
  • An alternative method for determining the level of mRNA corresponding to a marker of the present invention in a sample involves the process of nucleic acid amplification, e.g., by RT-PCR (the experimental embodiment set forth in U.S. Pat. Nos. 4,683,195 and 4,683,202), COLD-PCR (Li et al. (2008) Nat. Med. 14:579), ligase chain reaction (Barany, 1991, Proc. Natl. Acad. Sci. USA, 88:189), self sustained sequence replication (Guatelli et al., 1990, Proc. Natl. Acad. Sci. USA 87:1874), transcriptional amplification system (Kwoh et al. (1989) Proc. Natl. Acad.
  • amplification primers are defined as being a pair of nucleic acid molecules that can anneal to 5′ or 3′ regions of a gene (plus and minus strands, respectively, or vice-versa) and contain a short region in between.
  • amplification primers are from about 10 to 30 nucleotides in length and flank a region from about 50 to 200 nucleotides in length. Under appropriate conditions and with appropriate reagents, such primers permit the amplification of a nucleic acid molecule comprising the nucleotide sequence flanked by the primers.
  • mRNA does not need to be isolated from the sample (e.g., a bodily fluid (e.g., blood cells)) prior to detection.
  • a cell or tissue sample is prepared/processed using known histological methods.
  • the sample is then immobilized on a support, typically a glass slide, and then contacted with a probe that can hybridize to mRNA that encodes the marker.
  • determinations may be based on the normalized expression level of the marker.
  • Expression levels are normalized by correcting the absolute expression level of a marker by comparing its expression to the expression of a gene that is not a marker, e.g., a housekeeping gene that is constitutively expressed. Suitable genes for normalization include housekeeping genes such as the actin gene, or epithelial cell-specific genes. This normalization allows the comparison of the expression level in a patient sample from one source to a patient sample from another source, e.g., to compare a phagocytic blood cell from an individual to a non-phagocytic blood cell from the individual.
  • a protein or polypeptide corresponding to a marker is detected.
  • an agent for detecting a protein or polypeptide can be an antibody capable of binding to the polypeptide, such as an antibody with a detectable label.
  • labeled with regard to a probe or antibody, is intended to encompass direct labeling of the probe or antibody by coupling (i.e., physically linking) a detectable substance to the probe or antibody, as well as indirect labeling of the probe or antibody by reactivity with another reagent that is directly labeled.
  • Examples of indirect labeling include detection of a primary antibody using a fluorescently labeled secondary antibody and end-labeling of a DNA probe with biotin such that it can be detected with fluorescently labeled streptavidin.
  • Antibodies can be polyclonal or monoclonal. An intact antibody, or a fragment thereof (e.g., Fab or F(ab′)2) can be used. In one format, antibodies, or antibody fragments, can be used in methods such as Western blots or immunofluorescence techniques to detect the expressed proteins. In such uses, it is generally preferable to immobilize either the antibody or proteins on a solid support.
  • Suitable solid phase supports or carriers include any support capable of binding an antigen or an antibody.
  • Well known supports or carriers include glass, polystyrene, polypropylene, polyethylene, dextran, nylon, amylases, natural and modified celluloses, polyacrylamides, gabbros, magnetite and the like.
  • a variety of formats can be employed to determine whether a sample contains a protein that binds to a given antibody.
  • formats include, but are not limited to, competitive and non-competitive immunoassay, enzyme immunoassay (EIA), radioimmunoassay (RIA), antigen capture assays, two-antibody sandwich assays, Western blot analysis, enzyme linked immunoabsorbant assay (ELISA), a planar array, a colorimetric assay, a chemiluminescent assay, a fluorescent assay, and the like.
  • Immunoassays including radioimmmunoassays and enzyme-linked immunoassays, are useful in the methods of the present invention.
  • a skilled artisan can readily adapt known protein/antibody detection methods for use in determining whether cells (e.g., bodily fluid cells such as blood cells) express a marker of the present invention.
  • protein isolated from cells e.g., bodily fluid cells such as blood cells
  • a solid phase support such as nitrocellulose
  • the support can then be washed with suitable buffers followed by treatment with the detectably labeled antibody.
  • the solid phase support can then be washed with the buffer a second time to remove unbound antibody.
  • the amount of bound label on the solid support can then be detected by conventional means.
  • assays are provided for diagnosis, prognosis, assessing the risk of developing a disease, assessing the efficacy of a treatment, monitoring the progression or regression of a disease, and identifying a compound capable of ameliorating or treating a disease.
  • An exemplary method for these methods involves obtaining a bodily fluid sample from a test subject and contacting the bodily fluid sample with a compound or an agent capable of detecting one or more of the markers of the disease or condition, e.g., marker nucleic acid (e.g., mRNA, genomic DNA), marker peptide (e.g., polypeptide or protein), marker lipid (e.g., cholesterol), or marker metabolite (e.g., creatinine) such that the presence of the marker is detected in the biological sample.
  • an agent for detecting marker mRNA or genomic DNA is a labeled nucleic acid probe capable of hybridizing to marker mRNA or genomic DNA.
  • the nucleic acid probe can be, for example, a full-length marker nucleic acid or a portion thereof. Other suitable probes for use in the diagnostic assays of the invention are described herein.
  • a compound capable of ameliorating or treating a prenatal or pregnancy-related disease or condition can include, without limitations, any substance that can improve symptoms or prognosis, prevent progression of the disease or condition, promote regression of the disease or condition, or eliminate the disease or condition.
  • this invention provides a method for identifying one or more markers for a prenatal or pregnancy-related disease or condition comprising: a) determining a first profile of analytes from phagocytic cells from a subject having said disease or condition; determining a second profile of analytes from non-phagocytic cells from the subject having said disease or condition; identifying a first set of differences between the first and second profiles, wherein the first set of differences is specific to the first profile relative to the second profile; b) determining a third profile of analytes from phagocytic cells from a control subject not having said disease or condition; determining a fourth profile of analytes from non-phagocytic cells from the control subject not having said disease or condition; identifying a second set of differences between the third and fourth profiles, wherein the second set of differences is specific to the third profile relative to the fourth profile; c) identifying one or more analytes specific to the first set of differences relative to the second set of differences, the
  • this method further comprises d) obtaining a fifth profile of analytes from cells or tissues affected by said disease or condition in the subject having said disease or condition; obtaining a sixth profile of analytes from cells or tissues not affected by said disease or condition in the subject having said disease or condition; identifying a third set of differences between the fifth and sixth profiles, wherein the third set of differences is specific to the fifth profile relative to the sixth profile; and e) identifying at least one of the one or more markers of c) present in the third set of differences.
  • this invention provides a method for identifying one or more markers of a prenatal or pregnancy-related disease or condition comprising: a) determining a first profile of analytes from phagocytic cells from a subject having said disease or condition; determining a second profile of analytes from phagocytic cells from a control subject not having said disease or condition;
  • identifying a first set of differences between the first and second profiles wherein the first set of differences is specific to the first profile relative to the second profile; b) determining a third profile of analytes from non-phagocytic cells from the subject having said disease or condition; determining a fourth profile of analytes from non-phagocytic cells from the control subject not having said disease or condition; identifying a second set of differences between the third and fourth profiles, wherein the second set of differences is specific to the third profile relative to the fourth profile; c) identifying one or more analytes specific to the first set of differences relative to the second set of differences, the identified analytes being markers of said disease or condition.
  • the method further comprises d) obtaining a fifth profile of analytes from cells or tissues affected by said disease or condition in the subject having said disease or condition; obtaining a sixth profile of analytes from cells or tissues not affected by said disease or condition in the subject having said disease or condition; identifying a third set of differences between the fifth and sixth profiles, wherein the third set of differences is specific to the fifth profile relative to the sixth profile; and e) identifying at least one of the one or more markers of c) present in the third set of differences.
  • this invention provides a method for identifying one or more markers of a prenatal or pregnancy-related disease or condition comprising: a) determining a first profile of analytes from phagocytic cells from a subject having said disease or condition; obtaining a second profile of analytes from phagocytic cells from a control subject not having said disease or condition by data mining; identifying a first set of differences between the first and second profiles, wherein the first set of differences is specific to the first profile relative to the second profile; b) determining a third profile of analytes from non-phagocytic cells from the subject having said disease or condition; obtaining a fourth profile of analytes from non-phagocytic cells from a control subject not having said disease or condition by data mining; identifying a second set of differences between the third and fourth profiles, wherein the second set of differences is specific to the third profile relative to the fourth profile; and c) identifying one or more analytes specific to the first set of differences relative
  • the method further comprises d) obtaining a fifth profile of analytes from cells or tissues affected by said disease or condition by data mining; obtaining a sixth profile of analytes from cells or tissues not affected by said disease or condition by data mining; identifying a third set of differences between the fifth and sixth profiles, wherein the third set of differences is specific to the fifth profile relative to the sixth profile; and e) identifying at least one of the one or more markers of c) present in the third set of differences.
  • this invention provides a method for identifying one or more markers of a prenatal or pregnancy-related disease or condition comprising: a) determining a first profile of analytes from phagocytic cells from a subject having said disease or condition; determining a second profile of analytes from non-phagocytic cells from the subject having said disease or condition; identifying a first set of differences between the first and second profiles, wherein the first set of differences is specific to the first profile relative to the second profile; b) determining a third profile of analytes from cells or tissues affected by said disease or condition from the subject having said disease or condition; determining a fourth profile of analytes from cells or tissues not affected by said disease or condition from the subject having said disease or condition; identifying a second set of differences between the third and fourth profiles, wherein the second set of differences is specific to the third profile relative to the fourth profile; c) identifying one or more analytes present in both the first set of differences and the second set of differences, the identified
  • the method further comprises d) determining a fifth profile of analytes from phagocytic cells from a control subject not having said disease or condition; identifying a third set of differences between the first and fifth profiles, wherein the third set of differences is specific to the first profile relative to the fifth profile; e) identifying at least one of the one or more markers of c) present in the third set of differences.
  • the method further comprises: d) obtaining a fifth profile of analytes from cells or tissues affected by said disease or condition from the subject having said disease or condition; obtaining a sixth profile of analytes from cells or tissues not affected by said disease or condition from the subject having said disease or condition; identifying a third set of differences between the fifth and sixth profiles, wherein the third set of differences is specific to the fifth profile relative to the sixth profile; and e) identifying at least one of the one or more markers of c) present in the third set of differences.
  • An exemplary method for detecting the presence or absence of an analyte (e.g., DNA, RNA, protein, polypeptide, carbohydrate, lipid or the like) corresponding to a marker of the invention in a biological sample involves obtaining a bodily fluid sample (e.g., blood) from a test subject and contacting the bodily fluid sample with a compound or an agent capable of detecting one or more markers.
  • Detection methods described herein can be used to detect one or more markers in a biological sample in vitro as well as in vivo.
  • in vitro techniques for detection of mRNA include Northern hybridizations and in situ hybridizations.
  • In vitro techniques for detection of a polypeptide corresponding to a marker of the invention include enzyme linked immunosorbent assays (ELISAs), Western blots, immunoprecipitations and immunofluorescence.
  • In vitro techniques for detection of genomic DNA include Southern hybridizations.
  • in vivo techniques for detection of a polypeptide corresponding to a marker of the invention include introducing into a subject a labeled antibody directed against the polypeptide.
  • the antibody can be labeled with a radioactive marker whose presence and location in a subject can be detected by standard imaging techniques. Because each marker is also an analyte, any method described herein to detect the presence or absence of a marker can also be used to detect the presence or absence of an analyte.
  • the marker that is useful in the methods of the invention include those disclosed in, for example, U.S. Pat. Nos. 7,655,399, 7,651,838, 6,660,477, 6,172,198, 5,594,637, 5,514,598, 6,258,540, 6,664,056, 7,235,359, and 7,645,576, United States Patent Application Publications 20090162842, 20090155776, 20070207466, 20060019278, 20040086864, 20020045176, 20010051341, 20020192642, 20040009518, 20040203037, 20050282185, 20060252071, 20070275402, 20080153090, 20090170102, 20090061425, 20020045176, 20040137452, 20050164241, 20060019278, 20060252068, 20060252071, 20060257901, 20070141625, 20070218469, 20070275402, 20090155776, 20090162842, 20090170102, 20090317797, 20100120056, 20100120076, and 20100
  • the marker that is useful in the methods of the invention can include any mutation in any one of the above-identified markers.
  • Mutation sites and sequences can be identified, for example, by databases or repositories of such information, e.g., The Human Gene Mutation Database (www.hgmd.cf.ac.uk), the Single Nucleotide Polymorphism Database (dbSNP, www.ncbi.nlm.nih.gov/projects/SNP), and the Online Mendelian Inheritance in Man (OMIM) website (www.ncbi.nlm.nih.gov/omim).
  • OMIM Online Mendelian Inheritance in Man
  • the marker that is useful in the methods of the invention can include any marker that is known to be associated with a prenatal or pregnancy-related disease or condition.
  • kits that comprise marker detection agents that detect at least one or more of the markers identified by the methods of this invention.
  • This present invention also provides methods of treating or preventing a prenatal or pregnancy-related disease or condition in a subject comprising administering to said subject an agent that modulates the activity or expression of at least one or more of the markers identified by the methods of this invention.
  • biotinylated antibody to non-phagocytic blood cell (e.g., T cells) to the wells, incubate for 30 min at RT, wash wells.
  • non-phagocytic blood cell e.g., T cells
  • RNA from phagocytic cells e.g., cells bound to a magnetic bead
  • non-phagocytic cells e.g., those cells attached to the bottom of the wells via the anti-non-phagocytic cell biotinylated antibody-avidin bound
  • prepare cDNA, cRNA and use to differentiate genetic profiles e.g., whole gene arrays and/or cancer gene arrays of phagocytic and non-phagocytic cells.
  • Isolate protein from each cell sample run Western blots using antibodies to known proteins overexpressed in an individual with a prenatal or pregnancy-related disease or condition, and compare the profiles obtained in phagocytic and non-phagocytic cells. Alternatively, use mass spectroscopy to identify the proteins.
  • RNA from phagocytic cells and of non-phagocytic cells prepare cDNA, cRNA and use to differentiate genetic profiles (e.g., whole gene arrays and/or disease gene arrays) of phagocytic and non-phagocytic cells.
  • Isolate protein from each cell sample run Western blots using antibodies to known proteins overexpressed in an individual with a prenatal or pregnancy-related disease or condition, and compare the profiles obtained in phagocytic and non-phagocytic cells. Alternatively, use mass spectroscopy to identify the proteins.
  • non-phagocytic e.g., T cells
  • phagocytic cells e.g., neutrophils and/or macrophages and/or monocytes
  • RNA from each cell sample prepare cDNA, cRNA and use to differentiate genetic profiles (e.g., cancer gene array) of phagocytic and non-phagocytic cells.
  • genetic profiles e.g., cancer gene array
  • Isolate protein from each cell sample run Western blots using antibodies to known proteins overexpressed in an individual with a prenatal or pregnancy-related disease or condition, and compare the profiles obtained in phagocytic and non-phagocytic cells. Alternatively, use mass spectroscopy to identify the proteins.
  • stain WBC with fluorescent antibodies specific against a particular cell subpopulation e.g., neutrophils, macrophages, monocytes, T cells and the like.
  • Sort the cells e.g., by FACS.
  • RNA from each cell sample prepare cDNA, cRNA and use to differentiate genetic profiles (e.g., gene array) of phagocytic and non-phagocytic cells.
  • Isolate protein from each cell sample run Western blots using antibodies to known proteins overexpressed in an individual with a prenatal or pregnancy-related disease or condition, and compare the profiles obtained in phagocytic and non-phagocytic cells. Alternatively, use mass spectroscopy to identify the proteins.
  • stain WBC with fluorescent antibodies to each cell subpopulation e.g., neutrophils, macrophages, monocytes, and T cells
  • DNA dye e.g., propidium iodide
  • Sort the cells into T cells, neutrophils (2n), neutrophils (>2n), macrophages (2n), macrophages (>2n), monocytes (2n), and monocytes (>2n).
  • RNA from T cells neutrophils (>2n), macrophages (>2n), and monocytes (>2n). Then prepare cDNA, cRNA and use to differentiate genetic profiles (e.g., disease gene array) of phagocytic and non-phagocytic cells.
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