US20060057562A1 - Method, composition and kit for antigenic binding of norwalk-like viruses - Google Patents
Method, composition and kit for antigenic binding of norwalk-like viruses Download PDFInfo
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- US20060057562A1 US20060057562A1 US10/520,087 US52008704A US2006057562A1 US 20060057562 A1 US20060057562 A1 US 20060057562A1 US 52008704 A US52008704 A US 52008704A US 2006057562 A1 US2006057562 A1 US 2006057562A1
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- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N33/00—Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
- G01N33/48—Biological material, e.g. blood, urine; Haemocytometers
- G01N33/50—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
- G01N33/80—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving blood groups or blood types or red blood cells
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2333/00—Assays involving biological materials from specific organisms or of a specific nature
- G01N2333/005—Assays involving biological materials from specific organisms or of a specific nature from viruses
- G01N2333/08—RNA viruses
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2469/00—Immunoassays for the detection of microorganisms
- G01N2469/10—Detection of antigens from microorganism in sample from host
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2500/00—Screening for compounds of potential therapeutic value
- G01N2500/02—Screening involving studying the effect of compounds C on the interaction between interacting molecules A and B (e.g. A = enzyme and B = substrate for A, or A = receptor and B = ligand for the receptor)
Definitions
- the present invention relates to Norwalk-Like Viruses, to their recognition of and binding to human histo-blood group antigens, and to a compound and a method of screening for the compound that can inhibit binding between a Norwalk-Like Virus and a human histo-blood group antigen.
- Norwalk-Like Viruses are small round viruses within the calicivirus family and are important viral pathogens that cause acute gastroenteritis, the second most common illness in the United States.
- Norwalk disease is a mild to moderate illness that develops 1-2 days after infection by person-to-person transmission, surface contamination, or by contaminated food or water and the illness lasts for 24-60 hours. Symptoms include nausea, vomiting, diarrhea, abdominal pain and upon occasion headache and low fever. Severe illness requiring hospitalization is most unusual. Particularly large epidemic outbreaks of illness have occurred following consumption of contaminated water or uncooked food such as salad and ham, and shellfish including clams, cockles, and oysters.
- NLVs are morphologically similar but genetically and antigenically diverse viruses. Genetically, NLVs belong to one of two genera, the “Norwalk-like viruses” (NLVs) and the “Sapporo-like viruses” of human caliciviruses, a subset of Caliciviridae . The NLV genus can be divided into three genogroups (I, II, and III).
- Each genogroup can be further divided into genetic clusters; at least 15 genetic clusters of NLVs have been identified (see Capsid protein diversity among the Norwalk-like viruses, Virus Genes 2000; 20:227-36, incorporated herein by reference.)
- NLVs encode a single capsid protein that self-assembles into virus-like particles (VLPs) when the recombinant capsid protein is expressed in baculovirus-infected insect cells (see Expression, self-assembly, and antigenicity of the Norwalk virus capsid protein, Jiang at al., Journal of Virology, 66:6527-32 (1992), incorporated herein by reference).
- VLPs virus-like particles
- NLVs have been recognized as the most important cause of non-bacterial epidemics of acute gastroenteritis in both developed and developing countries, affecting individuals of all ages. Over 90% of non-bacterial gastroenteritis outbreaks in the US are found to be associated with NLVs. The percentage of individuals in developing countries who have antibodies against NLVs at an early age is very high (as it is with poliovirus and other viruses transmitted by fecal contamination of water and foods). In the US the percentage increases gradually with age, reaching 50% in people over 18 years of age. The antibody prevalence to NLVs is estimated to be higher based on the data using new diagnostic methods than previously reports using old methods. Immunity, however, is not permanent and reinfection can occur.
- ABO ABO
- Lewis ABO
- oligosaccharide antigens may exist free in solution.
- they can be covalently attached to lipid molecules (ceramide) to form glycosphingolipids, or to polypeptides to form mucins, integral membrane glycoproteins, or soluble glycoproteins.
- the ABH antigens are typically described as blood group antigens because of their presence on red cells, they are also found on other tissues, and may be more appropriately termed histo-blood group antigens.
- blood In blood, they exist in both a cellular form on platelets and a soluble form as blood group active glycosphingolipids coupled to plasma lipoproteins. They exist as membrane antigens on such diverse cells as vascular endothelial cells and intestinal, cervical, urothelial, pulmonary and mammary epithelial cells. Soluble forms are also found in various secretions and excretions, such as saliva, milk, urine, and feces. In some tissues, their appearance is developmentally regulated. Despite their wide distribution, genetic inheritance, developmental regulation, and importance in transfusion and transplantation, their normal physiological function, if any, remains a mystery.
- anti-A, anti-B, and anti-H antibodies specifically recognize epitopes composed of terminal trisaccharides or disaccharides. From these results it is possible to conclude that the A, B, and H antigens are not directly encoded by the corresponding genes, but rather the genes code for particular glycosyltransferases, commonly called the A, B, and H transferases, or equivalently, the A, B, and H enzymes.
- the H enzyme is a fucosyltranferase that specifically adds fucose in an ( ⁇ -1 ⁇ 2) linkage to a terminal galactose.
- the A or B enzymes then add N-acetylgalactosamine or galactose, respectively, in an ( ⁇ -1 ⁇ 3) linkage to the same terminal galactose.
- the substrate for the A or B enzymes is a terminal H antigen; these enzymes do not transfer the appropriate sugar to galactose in the absence of the ( ⁇ -1 ⁇ 2)-linked fucose.
- the H enzyme does not function if this galactose is substituted with a different sugar.
- the A and B genes code for glycosyltransferases explains some results obtained from classic genetic analysis of family pedigrees.
- the A and B genes are inherited in a strict mendelian fashion and are dominant compared to O, but the A and B genes are co-dominant with each other. That is, an individual with the genotype AO (or BO) is phenotypically A (or B), an individual of genotype OO is phenotypically group O. Since the A and B enzymes both use the H antigen as substrate, even the presence of only approximately 50% of these enzymes in and AO (or BO) heterozygote is sufficient to convert the red cells to the corresponding A (or B) phenotype. Similarly, if both the A and B enzymes are present, they each convert approximately 50% of the available H antigen substrate, yielding red cells expressing both antigens A and B.
- the ABH antigens are found not only on cells but also in secretions, particularly saliva and plasma
- the ability to secrete ABH is genetically inherited: approximately 80% of whites are secretors and 20% are nonsecretors. This trait is inherited as a single locus gene (FUT2) in simple mendelian fashion.
- the secretor gene (Se) is dominant; nonsecretor (se) is recessive.
- the terminal carbohydrate sequences of the ABH antigens in saliva and plasma are identical to those on red cells. At least one copy of the Se gene is found in approximately 80% of the population and leads to the expression of ABH antigens in secretions.
- the traditional H locus is a structural gene called FUT1. This gene is active in virtually all individuals, with rare defective mutation such as the “Bombay” blood type, and leads to the formation of ABH antigens on red blood cells and other tissues.
- Lewis a The two Lewis blood group antigens Le a (Lewis a) and Le b (Lewis b) were discovered in the 1940s. Virtually all individuals fall into one of three different Lewis types Le(a+b ⁇ ), Le(a ⁇ b+), and Le(a ⁇ b ⁇ ).
- Le(a+b+) A type of Le(a+b+) is seen among Asian populations. These molecules are not intrinsic red blood cell antigens; they are synthesized in another tissue (probably the intestinal epithelium), circulate in plasma attached to lipoproteins, and then passively transfer onto red cells. Biochemical studies have demonstrated that these are carbohydrate antigens on glycosphingolipids. They are structurally similar to the type ABH antigens found on plasma glycosphingolipids that likewise transfer onto red blood cells.
- the Lewis gene codes for an enzyme, an ( ⁇ -1 ⁇ 4) fucosyltransferase, and thus behaves in a dominant fashion.
- the transfer of fucose to a type 1 precursor by the Lewis enzyme results in the formation of the Le a antigen; the addition of ( ⁇ -1 ⁇ 4) linked fucose to the H type 1 structure leads to the formation of the Le b antigen.
- the Le b antigen is formed through the cooperation of two glycosyltransferases encoded by two genes, one gene for the Lewis system (Le) and one from the ABH system (Se) or, equivalently, H type 1 at a different, unlinked locus, demonstrating the connections of the ABH, Secretor, and Lewis systems.
- Lewis-positive secretors Since the secretor enzyme converts virtually all type 1 precursor into H type 1, whether or not the Lewis enzyme is present, Lewis-positive secretors have virtually no Le a antigen, and their red blood cells type as Le(a ⁇ b+). By contrast Lewis-positive nonsecretors have Le(a+b ⁇ ) red blood cells.
- Histo-blood group antigens have been linked to infection by several bacterial and viral pathogens. This suggests that the histo-blood group antigens are a recognition target for pathogens and may facilitate entry into a cell that expresses or forms a receptor-ligand bond with the antigens. While the exact nature of such an interaction is unknown, close association of a pathogen that would occur with antigen binding may play a role in anchoring the pathogen to the cell as an initial step in the infection process. Interactions of some parasites and bacteria with human cells have been shown to depend on the presence of certain blood group antigens. For example, P. vivax malarial parasites only enter human red blood cells when the Fy6 Duffy blood group protein is present on the cells. Certain E.
- NV Norwalk Virus
- the present invention follows from the discoveries that the various NLV virus like particles (VLPs) can recognize and bind to one or more human ABH and Lewis histo-blood group antigens, and that a human histo-blood group antigen can recognize and bind to one or more NLVs, in varied blood antigen-NLV binding patterns.
- the invention predicts that NLVs can infect humans who have a human histo-blood type that presents blood antigens that can bind the particular strain of infecting NLVs.
- the invention also predicts that a strain of NLV will bind with one or more histo-blood group antigens, but will not bind with all other blood group antigens.
- a first aspect of the invention relates to a method for determining if a person has been infected with a NLV, by using at least one blood antigen, to complex with and detect the NLV.
- the method for detecting a NLV in a biological sample comprises the steps of a) obtaining a biological sample suspected of containing a NLV; b) contacting the biological sample with at least one blood antigen target to allow formation of a complex of the NLV with the blood antigen; and c) detecting the NLV-blood antigen complex.
- the kit comprises an assay for detecting a NLV in a biological sample, comprising a) a container for holding a biological sample suspected of containing a NLV, the container comprising a media having affixed at least one blood antigen capable of complexing with a NLV; and b) an assay for the detection of a complex of the NLV and blood antigen.
- a second aspect of the invention relates to a method for detecting a histo-blood group antigen in a biological sample, comprising the steps of a) obtaining a biological sample containing a histo-blood group antigen preferably selected from ABH type antigens, Lewis type antigens, and mixtures thereof; b) contacting the biological sample with at least one NLV target to allow formation of a complex of the blood antigen with the NLV; and c) detecting the blood antigen-NLV complex.
- a third aspect of the invention relates to a kit that comprises an assay for use in determining the histo-blood group of a human, comprising a) a container for holding a biological sample from a human, the container comprising a media containing at least one NLV capable of complexing with an histo-blood group antigen; and b) an assay for the detection of a complex of the at least one NLV and the blood antigen.
- a fourth aspect of the invention relates to a method of identifying a compound that inhibits the binding activity of a NLV VLP toward a human histo-blood antigen.
- the invention further relates to a first test compound that can competitively bind the determinant binding site of a NLV, or that can bind to an epitope of a NLV, whereby a histo-blood group antigen is prevented from binding at the determinant binding site of the NLV.
- a preferred first test compound comprises a binding site that binds to a NLV with the binding specificity of the antigenic determinant epitope of the human histo-blood group antigen.
- a fifth aspect of the invention relates to a method of identifying a compound that inhibits the binding activity of a human histo-blood antigen toward a NLV.
- the invention also relates to a second test compound that can competitively bind the antigenic determinant epitope of a human histo-blood group antigen, or that can bind an epitope of a human histo-blood group antigen, whereby a NLV is prevented from binding at the antigenic determinant epitope of a human histo-blood group antigen.
- a preferred second test compound comprises a binding site that binds to a human histo-blood group antigen with the binding specificity of the determinant binding site of the NLV.
- a sixth aspect of the invention relates to a pharmaceutical composition or a medicament that comprises a first compound of the present invention, that can competitively bind to a NLV to inhibit its binding to a human histo-blood antigen, and/or a second compound that can bind to a human histo-blood antigen to inhibit its binding to a NLV.
- a seventh aspect of the invention relates to the use of a compound that has the binding specificity of the antigenic determinant of a human histo-blood group antigen in a medicament or pharmaceutical for the prevention and treatment in a mammal of an infection by a NLV.
- An eighth aspect of the invention relates to kits and assays for use with the methods and for administering the first and/or second compounds of the present invention.
- FIG. 1 shows simplified models of a NLV and a blood antigen, with their respective binding sites and epitopes, and antibodies and compounds for binding to the NLV and blood antigen with their respective binding sites.
- FIG. 2 shows graphic results of the binding strength of five NLVs based on the histo-blood phenotypes for secretors (A, B and O blood types) and non-secretors (Le ⁇ and Le + ).
- FIG. 3 shows graphic results of the binding strength of five NLVs based on histo-blood phenotype of Lewis negative (Le ⁇ ) secretors (A, B and O blood types) and non-secretors.
- the term “infect” refers to the process by which a virus, such as a NLV, releases its genome into a cell. In most cases, the process of “infection” causes the cell to replicate the viral genome and produce multiple daughter copies of the parental “infecting” virus.
- the term “functionally equivalent molecule” means one that can adequately substitute for a compound it is meant to mimic by supplying a function equivalent to the finction of the compound.
- the function that is supplied can include, but is not limited to, the binding specificity of a binding site, an epitope, an active site, a catalytic site, or a recognition site or any combination thereof.
- a functionally equivalent molecule can substitute for more that one compound, thus combining or providing multiple functions.
- a functionally equivalent molecule can be a synthetic analog or a naturally occurring compound or portion of a compound. For example, a specific functional domain of a naturally occurring compound can be enzymatically cleaved from the native compound and purified for use. Alternatively, such a domain can be expressed as a recombinant protein in a suitable host and purified for use.
- biological sample means one that is obtain from the body fluids or cells of an organism.
- an organism include any mammal, and in particular refer to humans, mice, rats, rabbits, goats, guinea pigs, and donkeys.
- body fluids include but are not limited to blood, plasma, serum, or mucosal fluids, and secreted body fluids such as saliva.
- incubation means an interval of time for which an experimental procedure or reaction is allowed to occur.
- An incubation interval may also be defined as a specified interval of time and a specified temperature at which a biological reaction may be expected to occur.
- the term “optimiz(e, ing, ation)” refers to the empirical experimental process of determining the best conditions at which a biological reaction or series of reactions will occur.
- Components of the optimization process can include but are not limited to determining the most advantageous incubation time, temperature, chemical constituents, exposure to light, pH, concentrations of the chemical and biological constituents, and especially combinations of these components, in order to achieve an experimental outcome.
- NLV Newcastle-Like Virus
- Each histo-blood group antigen can bind to the NLV VLP of one, and usually to at least 2, NLVs. Conversely, each NLV will bind to at least one, and usually with 2 or more blood antigens.
- the blood antigen binds to the NLV at the blood antigen's antigenic-determinant epitope (the sugar moiety).
- the NLV binds to the blood antigen at the determinant binding site on the VLP's protein structure.
- the group of blood antigens to which a NLV will bind is referred to as that NLV's antigen binding pattern.
- FIG. 1 shows various simplified models of a NLV 10, a histo-blood antigen 20, and binding compounds, including antibodies (Ab) or other compounds 30, 40, 50 and 60, for binding with the NLV or antigen.
- binding compounds including antibodies (Ab) or other compounds 30, 40, 50 and 60, for binding with the NLV or antigen.
- the description immediately hereafter refers to such binding compounds as antibodies, although such binding compounds can also comprise a natural or synthetic compound that can bind with either a NLV or a histo-blood antigen.
- the NLV 10 comprises a determinant binding site 11 that binds specifically with an antigenic determinant epitope 21 of the blood antigen 20.
- Blood antigen 20 can be described as being in the NLV's binding pattern, and visa versa.
- the blood antigen 20 also has at least one non-determinant epitope 22 that can no bind with the NLV 10, but that can be bound by a non-determinant binding site 31 of an antigen antibody 30.
- NLV 10 also has at least one NLV epitope 12 that can not bind with the blood antigen 20, but that can be bound by a NLV binding site 41 of a NLV antibody 40.
- the antibodies 30 and 40 are generally referred to as detection or detectable antibodies for the blood antigen and NLV, and are generally monoclonal antibodies that can be isolated and that have specificity to counter-part epitopes on the blood antigens and NLV.
- the binding site 11 of NLV 10 can also bind to an anti-NLV epitope 51 of an anti-NLV antibody 50, with the same binding specificity as with epitope 21 of the blood antigen 20; and the epitope 21 of the blood antigen 20 can be bound by the anti-antigen binding site 61 of an anti-antigen antibody 60, with the same binding specificity as with binding site 11 of the NLV 10.
- Antibody 50 can bind with NLV 10, or antibody 60 can bind with blood antigen 20, thereby inhibiting the binding between NLV 10 and blood antigen 20.
- NLV strains Five NLV strains have been shown to provide a specific pattern of binding with one or several of the five blood antigens: the H antigen, the A antigen, the B antigen, the Le a antigen and the Le b antigen. These five virus strains are the VA387, MOH, NV, 02-1419, and VA207 viruses.
- the VA387 strain binds to the A, B, H and Le b blood antigens, but does not bind to.
- Le a antigen The prototype NV strain binds to A, H and Le b antigens, but does not bind to B or Le a antigens.
- Strain 02-1419 binds to A antigen, but does not bind to H, B, Le b , or Le a antigens.
- MOH strain binds to A and B antigens, but does not bind to H, Le b , or Le a antigens.
- the VA207 strain binds to Le a antigen, but does not bind to H, A, B or Le b antigens.
- blood antigen A is bound by the 387, NV, 02-1419, and MOH strains, but not bound by the 207 strain.
- the blood antigen B is bound by the 387 and MOH strains, but not bound by the NV, 02-1419,and VA207 strains.
- the blood antigen H and the Le b antigens are bound by the VA387 and NV strains, but not bound by the MOH, 02-1419, and VA207 strains.
- NLVs among the dozens of known strains can also bind to at least one histo-blood group antigen. Many of these other NLVs will have a similar binding pattern to those above. Other NLVs can have another binding pattern based on the specificity of their determinant binding site for the antigenic determinant epitopes of the blood antigens. From the binding patterns of other NLVs, similar binding tables can be prepared that could show a unique binding pattern with the blood antigens in the respective ABH and Lewis blood groups.
- each known NLV has at least one determinant binding site that can be bound by the determinant epitope of at least one of the histo-blood group antigens of the ABH, and Lewis blood groups.
- Infection of a host by a NLV occurs when a NLV is recognized and bound by a histo-blood group antigen of the host's phenotype.
- the association of the host's blood antigen with receptors on the epithelial cells of the host brings the NLV into proximity with the epithelial cell. It is believed that this proximity of the NLV to an epithelial cell renders the cell susceptible to infection when the NLV releases its genetic material into the cell.
- Disruption of the binding between the NLV and the host's blood antigen(s) eliminates the opportunity for the NLV to come into close proximity with the epithelial cells, and diminishes their susceptibility to infection.
- the present invention includes novel methods and kits for detecting a NLV in a biological sample, for detecting histo-blood group antigens in a biological sample, and for a method of screening for the compound that can inhibit binding between a NLV and a human histo-blood group antigen.
- the present invention can include a method to detect if a person has a Norwalk-Like Virus (NLV) infection.
- the method can also be used to identify the specific NLV that has infected the person, or to identify that a virus belonging to one of a group of NLVs has infected the person.
- a person infected with a NLV will generally pass the NLV through the gastrointestinal (GI) tract with the stool, whereby stool sample collected from the infected person will contain the virus. Ordinarily, only a single type of NLV will have infected a person at one time.
- GI gastrointestinal
- the biological sample suspected of containing a NLV is contacted with at least one, and preferably more than one, blood antigen as a target.
- the blood antigen can be selected from a natural human histo-blood group antigen, a synthetic human histo-blood group antigen, and a functionally equivalent molecule that binds to the NLV with the binding specificity of the human histo-blood group antigen.
- the functionally equivalent molecule can be an anti-NLV antibody that binds to a determinant binding site of the NLV.
- the blood antigen is preferably selected from the group consisting of H antigen, A antigen, B antigen, Le a antigen, Le b antigen, and mixtures thereof.
- the natural blood antigen can be obtained from the biological fluids (saliva, blood, etc.) of individuals of that histo-blood group type.
- Le a antigen can be obtained from the body fluid (such as saliva) of a person who is a Lewis positive non-secretor.
- An antigen can be obtained from a person who is a secretor and of type “A” blood; and so forth.
- a synthetic antigen is a compound selected from a protein, peptide, oligosaccharide, natural compound, and mixtures thereof, that comprises the analog of the antigenic determinant epitope of the natural blood antigen, which can bind to the determinant binding site of a NLV with the binding specificity of the antigenic determinant epitope of the natural human histo-blood group antigen.
- An example of a synthetic antigen can comprise an oligosaccharide conjugated to BSA, and can include, but is not limited to, A trisaccharide-BSA (GalNAc- ⁇ 1 ⁇ 3 (Fuc- ⁇ 1 ⁇ 2) Gal ⁇ -O-space) nBSA), B trisaccharide-BSA (Gal- ⁇ 1 ⁇ 3 (Fuc- ⁇ 1 ⁇ 2) Gal ⁇ -O-space) NBSA), Lacto-N-fucopentaose II-BSA [or, Lewis a trisaccharide], Lacto-N-fucopentaose I-BSA [or H type 1 trisaccharide], and Lacto-N-difucohexaose I-BSA [or, Lewis b trisaccharide], available from Glycorex AB, Lund, Sweden, and from V-Labs, Inc., Covington, La.
- the method uses preferably at least 2 and more preferably all of the blood antigens.
- the plurality of blood antigens is preferably contacted separately to allow the NLV in the biological sample to contact each blood antigen individually.
- a mixture of two or more blood antigens can be placed together into a single area depending on the method of detection and the specificity of detection required.
- a complex can form between the NLV and the blood antigen provided that the NLV and the blood antigen have a binding affinity for each other, and that the contacting step provides sufficient incubation time and conditions to form the NLV-blood antigen complex.
- the resulting NLV-blood antigen complex is then detected.
- the non-binding material of the biological sample is washed from the complex and/or target.
- the non-binding material includes any NLV that does not bind to the blood antigen target.
- Detection and identification monoclonal antibodies (MAbs) or polyclonal antibodies can be used for detecting the NLV-blood antigen complex.
- the detection can be either a direct detection method or an indirect detection method, or both.
- the direct detection of a NLV bound to a blood antigen can be made by contacting the NLV-blood antigen complex with a detectable NLV antibody that has a NLV binding site that binds to a non-determinant NLV epitope (i.e., an epitope other than the determinant binding site) of the NLV. After optimized contacting between the complex and the detectable NLV antibody, any unbound NLV antibody is washed away. The NLV antibody is then detected, which determines that a NLV has bound to the blood antigen target.
- the NLV antibodies can be used one by one to detect whether a specific NLV is present in the complex, or can be used as a group (cocktail) of antibodies to detect whether any one of the group of NLVs is present in the complex.
- Detectable NLV antibodies that bind to a determinant or non-determinant NLV epitope of a NLV include rabbit and guinea pig antibodies against NV strain, 387 strain, 207 strain, MOH strain, Mexico strain, 02-1419 strain, and any other NLV strain, respectively.
- the indirect detection of a NLV bound to a blood antigen can be made by contacting the blood antigen target with a detectable anti-antigen antibody having an anti-antigen binding site that binds specifically to the antigen-determinant epitope of the blood antigen. After optimized contacting between the target antigen and the detectable anti-antigen antibody, any un-bound anti-antigen antibody is washed away from the blood antigen target. The anti-antigen antibody is then detected, which determines that the anti-antigen antibody has bound to the blood antigen target. If the anti-antigen antibody can not be detected, then one can presume that a NLV has bound to that blood antigen target, and has blocked binding by the anti-antigen antibody. If the detectable anti-antigen antibody can bind to the blood antigen target and is detected, then it can be concluded that a NLV had not bound to antigenic determinant epitope of that blood antigen target.
- Detectable anti-antigen antibodies that bind specifically to the antigen-determinant epitope of blood antigen(s) include MAbs BG-4 anti-H type 1, BG-5 anti-Le a , BG-6 anti-Le b , BG-7 anti-Le x , and BG-8 anti-Le y , available from Signet Laboratories, Inc. (Dedham, Mass.), MAbs BCR9031 anti-H type 2, BCR 9010 anti-A, and BCRM 11007 anti-B, available from Accurate Chemical & Scientific Corporation (Westbury, N.Y.), 7-LE anti-Le a , 2-25LE anti-Le b , 19-OLE anti-H type 2, and 3-3A anti-A, available from Dr. J. Baca (Villejuif, FR), and ED3 anti-B available from Dr. A. Martin (Rennes, FR).
- Detectable anti-NLV antibodies that binding specifically to NLVs include rabbit and guinea pig hyperimmune antibodies against individual strains of NLVs, and hyperimmune antibodies against a pooled antigens that include, but are not limit to, the NV, VA387, VA207, 02-1419, and MOH. Pooled hyperimmune antibodies are available as Lot # Rabbit 15, Rabbit 16, and Rabbit 17 from Xi Jiang, Children's Hospital Research Center, Cincinnati, Ohio.
- the blood antigen can be arranged as targets in discrete areas to determine the binding pattern for the NLV, which can also serve as a confirmation of the identity of the NLV, or class of NLV, since each NLV has a unique binding pattern with the blood antigens.
- the invention can also embody a kit for detecting a NLV in a biological sample, comprising: a) a container for holding a biological sample (usually a stool sample from a human that is suspected of containing a NLV, the container comprising a media having thereon affixed at least one blood antigen capable of complexing with a NLV; and b) an assay for the detection of a complex of the NLV blood antigen.
- the assay can comprise an ELISA that comprises a detectable NLV antibody that has a NLV binding site that binds to a determinant or non-determinant epitope of the NLV of the NLV-blood antigen complex.
- the assay also optionally includes a means for washing away any unbound biological sample and unbound NLV VLPs, and for washing away any unbound detectable NLV antibody from the media.
- the assay can also comprise an ELISA that comprises an anti-antigen antibody that binds to the antigen-determinant epitope of the blood antigen.
- the present invention can comprise a method to detect for and determine the blood antigens present in a biological sample.
- the biological sample is preferably a saliva sample, which can be obtained in numerous ways.
- the sample is treated by boiling preferably, to inactivate native antibodies which may interfere with the assays.
- the treated sample is centrifuged to remove any debris.
- the supernate of the sample is then collected and stored frozen before use in the test.
- the biological sample is then contacted with at least one NLV as a target, and incubated to form a complex between a histo-blood group antigen present in the saliva and the NLV.
- at least two NLVs are used.
- the NLV targets are contacted separately by the saliva sample.
- the NLV is preferably one that has a known binding pattern for the blood antigens.
- the resulting blood antigen-NLV complex is then detected.
- the non-binding material of the biological sample is washed from NLV target.
- the non-binding material includes any blood antigen from the sample that does not bind to the NLV target. Detection and identification hyperimmune or monoclonal antibodies can be used for detecting the blood antigen-NLV complex.
- the preferred detection steps comprise contacting the NLV targets with an anti-NLV antibody that binds at a determinant binding site of the respective NLV. After washing away any unbound anti-NLV antibody, any remaining anti-NLV antibody bound to a NLV target is detected. Binding of the anti-NLV antibody to the NLV target indicates that the NLV had not bound to any blood antigens in the sample. Conversely, the absence of binding by the anti-NLV antibody to the NLV target can be presumed to indicate that a blood antigen had already complexed with the NLV target.
- the method comprises contacting a saliva sample with separate targets of the NLV strains 387, MOH, NV, 02-1419, and 207.
- the binding patterns of the anti-NLV antibodies to the NLV targets indicate the NLV-blood antigen binding pattern for the biological sample, and thus the type of blood antigans present in the biological sample.
- Table B shows the six binding patterns for the histo-blood group antigens with these five NLV strains when detecting with an anti-NLV antibody, and the blood type of the biological sample that corresponds to the binding pattern. TABLE B Binding by Anti-NLV Antibody to a NLV target Target NLV Biological sample Pattern no.
- NLV strains can be shown to have specific binding patterns with blood antigens according to the present invention.
- One or more of the five NLVs in the above example can be replaced with one or more other known NLVs, so long as the cumulative binding patterns can positively identify the blood antigens of the biological sample.
- the method comprises contacting a known NLV with a biological sample target. Detection of the NLV-blood antigen complex can be detected by contacting the biological sample target with a detectable NLV antibody that binds to a determinant or non-determinant epitope of the respective NLV. The pattern of binding of each known NLV to the blood antigen can reveal the type of blood antigen present in the biological sample.
- the method comprises contacting separate saliva sample targets with NLV strains 387, MOH, NV, 02-1419, and 207, and detecting any complex of the NLV strain with blood antigen in the saliva samples.
- Table C shows the six binding patterns for the histo-blood group antigens with these five NLV strains when detecting with a NLV antibody, and the blood type of the biological sample that corresponds to the binding pattern.
- preferred embodiments of the present invention include methods and kits that use, or that detect and identify, NLVs other than the Norwalk Virus.
- the presence of a NLV, and its blood antigen specificity or binding pattern can be determined by sampling a food or water suspected of being contaminated with a NLV, or by sampling a biological (usually, a stool sample) of a person suffering from symptoms of a NLV infection (such as vomiting and diarrhea), and assaying the food, water, or biological sample for the presence of a NLV.
- the method provides a means for detecting a NLV in a biological, water, and/or food sample suspected of containing a NLV, by contacting the biological sample with human histo-blood group antigens targets, or a functionally equivalent molecule thereof, and then detecting the NLV-blood antigen complex.
- Detectable anti-antigen antibodies that bind specifically to the antigen-determinant epitope of blood antigen(s) include: for an H antigen, BG4; for an A antigen, BCR 9010; for a B antigen, BCRM 11007; for a Le a antigen, BG-5; and for a Le b antigen, BG-6. These are available from Signet Laboratories, Inc. (Dedham, Mass.) and Accurate Chemical & Scientific Corporation (Westbury, N.Y.).
- Detectable anti-NLV antibodies, detectable NLV antibodies, detectable anti-antigen antibodies and detectable antigen antibodies can be detected, or made detectable, in several ways that are well known to one of ordinary skill in this art.
- an antibody or antigen is, in general, linked to a molecule that emits a signal or catalyzes an enzymatic change in a substrate.
- a colorimetric read-out is obtained.
- the color change may be visible to the naked eye, and thus may be conveniently used when performing a few tests, typically less than 10-12.
- the preferred spectrophotometric method is a microtiter plate reader, of which there are many commercially available models.
- Another detectable antibody can comprise an antibody or antigen linked to a photochrome molecule that can be detected when viewed with an appropriate light wavelength and filter.
- fluorescein isothyocyanate, phycoerythrin, Texas Red, or other fluorescent moieties may be covalently linked to antibody or antigen and detected spectrophotometrically.
- Another useful means of making a detectable antibody involves linking a catalyst horse-radish peroxidase (HRP) to an antibody or antigen to be detected, and visualizing by addition of a substrate solution. The resultant color change can be measured spectrophotometrically.
- HRP horse-radish peroxidase
- a biotin-conjugated antibody is another useful detectable antibody form, which following incubation with streptavidin-fluorescein can be measured spectrophotometrically.
- a biotin-avidin complex can also be detected using commercially available kits. The biotin is linked to the antibody, then complexed with avidin linked to an enzyme that may be detected by staining. VectastainTM ABC kit is an example of this staining technique.
- the invention includes a method of identifying a first test compound that inhibits the binding activity of a NLV with a blood antigen.
- the method comprises the steps of:
- the first standard compound that is known to bind with the determinant binding site of the NLV can be a native histo-blood antigen, selected from the group consisting of the ABH blood group antigens, the Lewis blood group antigens, and mixtures thereof.
- the ABH blood group antigens can be selected from H antigen, A antigen, B antigen and a mixture thereof, while the Lewis group antigens can be either the Le a (non-secretor) antigen or the Le b (secretor) antigen.
- the first standard compound can also comprise a synthetic oligosaccharide with one or more conjugated moieties having receptor binding properties that are functionally equivalent to those of the antigenic determinant epitopes of human histo-blood group antigens.
- Such compounds are known to have specific binding to human histo-blood antigens, and are commonly used for determining human blood type.
- first standard compounds include A trisaccharide-BSA (GalNAc- ⁇ 1 ⁇ 3 (Fuc- ⁇ 1 ⁇ 2) Gal ⁇ -O-space) nBSA), B trisaccharide-BSA (Gal- ⁇ 1 ⁇ 3 (Fuc- ⁇ 1 ⁇ 2) Gal ⁇ -O-space) NBSA), Lacto-N-fucopentaose II-BSA [or, Lewis a trisaccharide], Lacto-N-fucopentaose I-BSA [or H type 1 trisaccharide], and Lacto-N-difucohexaose I-BSA [or, Lewis b trisaccharide], available from Glycorex AB, Lund, Sweden, and from V-Labs, Inc., Covington, La.
- the step of determining whether the binding of the first standard compound is decreased comprises the step of detecting the presence of the standard compound on the NLV target.
- the first standard compound can comprise a detectable linked molecule that can emit a signal or catalyze an enzymatic change in a substrate.
- the first standard compound can also be detected by contacting the NLV target with a detection compound, such as a detectable antibody, which selectively binds to the standard compound, and then detecting the antibody.
- a control test is also conducted to detect the binding of the first standard compound with the NLV target without pre-contacting of the first test compound.
- the detection value for the test leg is then compared with the detection value for the control leg to determine whether the binding of the first standard compound had decreased in the presence of the first test compound.
- the first test compound is preferably selected from the group consisting of a protein, a polypeptide, an oligosaccharide, another histo-blood group antigen, a natural or synthetic compound, and a poly- and monoclonal antibody.
- An oligosaccharide is a preferred compound, since it is generally regarded as safe.
- a monoclonal antibody to the determinant binding site of the NLV can be prepared, and isolated by procedures that are well known to those skilled in the art.
- the first test compound can also be a molecularly-engineered compound that is designed to have a binding site geometry that is complimentary to the determinant binding site of the NLV.
- a first compound that can competitively bind with a NLV and thereby prevent a blood antigen from binding can also be selected based on a mimicking of the chemical structure, geometry, or binding specificity of the antigenic-determinant epitope of a human histo-blood antigen that is known to bind with the determinant binding site of the particular NLV.
- a first test compound of the present invention can be selected from compounds that have the same, or substantially the same, chemical structure as the human histo-blood group antigen's antigenic determinant epitope.
- the antigenic determinant epitope of the H antigen comprises the Fuc- ⁇ 1 ⁇ 2 structure.
- the antigenic determinant epitope of the A antigen comprises the GalNAc- ⁇ 1 ⁇ 3 structure.
- the antigenic determinant epitope of the B antigen comprises the Gal- ⁇ 1 ⁇ 3 structure.
- the antigenic determinant epitope of the Le a antigen comprises the Fuc- ⁇ 1 ⁇ 3/4 structure(s).
- the antigenic determinant epitope of the Le b antigen comprises the Fuc- ⁇ 1 ⁇ 2 structure.
- a preferred compound is a synthetic or natural oligosaccharide that comprises one or more moieties selected from the structures Fuc- ⁇ 1 ⁇ 2, GalNAc- ⁇ 1 ⁇ 3, Gal- ⁇ 1 ⁇ 3, Fuc- ⁇ 1 ⁇ 3/4, and mixtures thereof.
- the compounds is a carbohydrate selected from the group consisting of fucosyl ⁇ 1 ⁇ 3/4 N-acetyl glycosyl globoside (F3AG), a stabilized, synthetic F3AG analogue, and mixtures thereof, in an amount that inhibits binding of NLV strain 207 to gastroepithelium of a non-secretor individual; a carbohydrate selected from the group consisting of fucosyl ⁇ 1 ⁇ 2 galactose globoside (F2G), a stabilized, synthetic F2G analogue, and mixtures thereof, in an amount that inhibits binding of NLV strain 387 to gastroepithelium of a secretor individual; a carbohydrate selected from the group consisting of N-acetyl galactosy
- a first test compound can also be selected from compounds that have the same geometric structure as the human histo-blood group antigen's antigenic determinant epitope.
- the nucleotide and amino acid sequences of the NLV capsid genes of several NLV strains, and the three-dimensional structure of the prototype NV, are known, and could be used to model ligand-receptor (binding site-epitope) interaction for the engineering of such compounds.
- a first test compound can also be selected from a compound that has the binding specificity of the antigenic determinant epitope of a blood antigen, and functionally equivalent molecules thereof.
- Such compounds can include monoclonal antibodies.
- a preferred antibody is an anti-antibody to the antigenic determinant epitope.
- An example of such an antibody is the 9C3 Mab that can bind at the determinant binding site of the NV with the binding specificity of the antigenic determinant epitope of the H-type blood antigen, and is available from Dr. Xi Jiang, Children's Hospital Research Center, Cincinnati, Ohio.
- the invention includes a method of identifying a second test compound that inhibits the binding activity of a blood antigen with a NLV.
- the method comprises the steps of:
- the second standard compound that is known to bind with the antigenic determinant epitope of the blood antigen can be a recombinant NLV that retains the VLP shape and structure of the wild-type NLV, but has been rendered reproductively inert by molecular engineering methods known to those skilled in the art.
- the step of determining whether the second binding of the standard compound is decreased comprises the step of detecting the presence of the second standard compound on the blood antigen target.
- the second standard compound can comprise a detectable linked molecule that can emit a signal or catalyze an enzymatic change in a substrate.
- the second standard, compound can also be detected by contacting the blood antigen target with a detection compound, such as a detectable antibody, which selectively binds to the second standard compound, and then detecting the antibody.
- a control test is also conducted to detect the binding of the second standard compound with the blood antigen target without pre-contacting of the second test compound.
- the detection value for the test leg is then compared with the detection value for the control leg to determine whether the binding of the second standard compound had decreased in the presence of the second test compound.
- the second test compound is preferably selected from the group consisting of a protein, an oligosaccharide, another histo-blood group antigen, a natural compound, and a monoclonal antibody.
- An oligosaccharide is a preferred compound, since it is generally regarded as safe.
- a monoclonal antibody to the antigenic determinant epitope of the blood antigen can be prepared, and isolated by procedures that are well known to those skilled in the art.
- the second test compound can also be a molecularly-engineered compound that is designed to have a binding site geometry that is complimentary to the antigenic determinant epitope of the blood antigen.
- the invention also includes a hybridoma that can produce a monoclonal antibody as a second test compound, made constructed by a means well known in the art.
- a second test compound that can competitively bind with a blood antigen and thereby prevent a NLV from binding can also be selected based on a mimicking of the chemical structure, geometry, or binding specificity of the determinant binding site of a NLV that is known to bind with the antigenic determinant epitope of the particular blood antigen.
- a second test compound of the present invention can be selected from compounds that have the same, or substantially the same, chemical structure and/or geometric structure as the NLV's determinant binding site.
- the nucleotide and amino acid sequences of the NLV capsid genes of several NLV strains, and the three-dimensional structure of the prototype NV, are known, and could be used to model ligand-receptor (binding site-epitope) interaction for the engineering of such compounds.
- a second test compound can also be selected from compounds that have the binding specificity of the NLV's determinant binding site.
- the invention also includes a medicament and a pharmaceutical composition comprising an active compound selected from the group consisting of a first test compound, a second test compound, and a mixture thereof; and a pharmaceutically acceptable diluent, carrier or excipient.
- a preferred composition comprises at least one, and preferably two or more, first test compounds that can prevent the host blood antigen from binding with any NLV in vivo, thereby inhibiting an infection, or treating an infection, of the host by the NLV.
- the first test compounds prevent any host blood antigen selected from the ABO blood type antigens, and the Lewis blood antigens, from binding with any NLV in vivo
- Non-limiting examples of suitable pharmaceutically acceptable carriers include phosphate buffered saline solutions, water, emulsions including oil/water emulsions, various types of wetting agents such as detergents, and sterile solutions.
- Compositions comprising such carriers can be formulated by well known conventional methods.
- Compositions can also comprise liquid or viscous compositions that can coat and/or line the surface of the GI tract, thereby placing the active compounds in direct proximity with the epithelial cells.
- the invention also relates to a method for preventing an infection of a host by a NLV, by administering to the host an effective preventative amount of a prevention compound that inhibits binding of the NLV in vivo to a histo blood group antigen of the host.
- the invention can also relate to a method for treating an active infection of a host by a NLV, by administering to the host an effective treatment amount of a treatment compound that inhibits binding of the infecting NLV in vivo to a histo blood group antigen of the host.
- the invention further relates to a use of a preventative compound in a medicament or pharmaceutical for the prevention and treatment in a mammal of an infection by a NLV, wherein the preventative compound has the binding specificity of the antigenic determinant of a human histo-blood group antigen.
- the prevention compound can be selected from the first test compound, the second test compound, or a mixture thereof.
- the treatment compound can be selected from the first test compound, the second test compound, or a mixture thereof.
- Preferred are medicaments and pharmaceutical compositions comprising at least one of, though typically a plurality of, a prevention or treatment compound, which can bind with any infecting strain of NLV.
- a prevention or treatment compound which can bind with any infecting strain of NLV.
- the time to isolate and detect the specific strain of NLV for pinpoint treatment can delay administration of treatment or prevention compositions to a population of infected or susceptible persons.
- a combination of treatment or prevention compounds in a single medicament or pharmaceutical that can singularly or jointly bind with any strain of NLV will ensure effective treatment or prevention of infection, regardless of the particular strain(s) of virus involved.
- the effective prevention amount of the prevention compound is an amount sufficient to bind any NLV that is present in the gastrointestinal system of a host who had consumed a food or water source contaminated by the NLV. Ordinarily, these amounts of NLV would be very low. For this reason, a preferred prevention compound is a first test compound that binds with the NLV to prevent its further binding with the host blood antigens.
- the amount of the prevention compound to be consumed will typically range from about 100 to about 10,000 units per dose, more preferably from about 1,000 to about 10,000 units per dose, where a unit defines the amount of the compound to bind with a single virus particle.
- a dose of the medicament comprising the compound would be consumed by the host just prior to, while, or just after, consuming a food or water suspected of being contaminated with a NLV.
- the effective treatment amount of the treatment compound is an amount sufficient to bind any NLV that are progeny from those infected within the epithelial cells of the gastrointestinal system of a host. Ordinarily, these amounts of NLV would be high compared to amounts of NLVs found in a contaminated water or food.
- the amount of the treatment compound to be consumed will typically range from about 1,000 to about 100,000 units per dose, more preferably from about 10,000 to about 100,000 units per dose, where a unit defines the amount of the compound to bind with a single virus particle.
- a dose of the medicament comprising the compound would be consumed by the host periodically until the symptoms of the infection have dissipated and stopped. Since any consumed treatment compound would pass through the gastrointestinal system in the ordinary course, the periodic dosage is preferably about every 1 to 4 hours.
- a test was conducted to measure the binding by one or more recombinant NLV with blood antigens in human saliva samples.
- Human subject phenotypes The human subjects' phenotypes of histo-blood group antigens were determined by EIAs using monoclonal antibodies specific to Le a , Le b , A, B and H blood group antigens. Salivary anti-NLV IgA was determined by ELAs using recombinant NLV capsids as coating antigens.
- Saliva samples were diluted at 1:1,000 in PBS and then coated onto microtiter plates (Dynex Immulon) overnight at 4° C. After blocking with 5% Blotto, monoclonal antibodies specific to Lewis a, Lewis b, H type 1, type A, and type B antigens were added.
- MAbs BG4 anti-H type 1, BG-5 anti-Le a , and BG-6 anti-Le b were purchased from Signet Pathology Systems (Dedham, Mass.).
- MAbs BCR9031 anti-H type 2, BCR 9010 anti-A, and BCRM 11007 anti-B were purchased from Accurate Chemical & Scientific Corporation (Westbury, N.Y.).
- Baculovirus-expressed recombinant capsid proteins of five NLVs were prepared by methods disclosed in the art: one virus of genogroup I NLVs (NV) and three viruses of genogroup II NLVs (207, 387, 02-1419, and MOH).
- the recombinant viral capsid protein of each of the five NLVs was tested by enzyme immune assays (EIAs) for the ability to bind to blood antigens in saliva samples of each human subject.
- EIAs enzyme immune assays
- the saliva samples were boiled and centrifuged, and the supernatant stored frozen until use.
- microtiter plates (Dynex Immulon, Dynatech) were coated with the saliva samples at a dilution of 1:5,000 in phosphate buffer saline (PBS). After blocking in 5% dried milk (Blotto), the rNLV capsid proteins at ⁇ 1.0 ⁇ g/ml in PBS were added.
- the bound rNLV capsid proteins were detected using a pooled guinea pig anti-NLVs antiserum for the respective NLV, followed by addition of horseradish peroxidase (HRP)-conjugated goat anti-guinea pig IgG (ICN, Aurora, Ohio). In each step, the plates were incubated for 1 hour at 37° C. and washed five times with PBS. The enzyme signals were detected by the TMB kit (Kirkegard & Perry Laboratories, Gaithersburg, Md.) then read at a wavelength of 450 nm using an EIA spectra reader (Tecan, Durham, N.C.) as described by the manufacturers.
- HRP horseradish peroxidase
- FIGS. 2 and 3 show graphic results of the binding strength of the five NLVs based on the histo-blood phenotypes for secretors (A, B and O blood types) and non-secretors (Le ⁇ and Le + ) for the 54 human subjects.
- FIG. 3 shows graphic results of the binding strength of the five NLVs based for the 9 Lewis negative (Le ⁇ ) subjects with histo-blood phenotypes secretors (A, B and O blood types) and non-secretor.
- strain 207 apparently recognizes Le a antigen, as Le a is the only antigen found in the saliva of Lewis-positive non-secretor individuals. Secretor individuals also can make Le a antigens, although at smaller amounts in saliva as compared to other blood antigens, due to the presence of 1,2 fucosyltransferase expressed by the secretor gene (FUT2). Thus 207 virus binds at minimal levels and with less avidity to the saliva of secretors than to non-secretors.
- Variable expression of the FUT2 fucosyltransferase in secretors may account for the lack of a clear demarcation between 207 binders and non-binders. Strain 207 did not bind to blood antigens in the saliva from Lewis-negative individuals who lack FUT3 and thus do not make Le a antigen. VA207 also recognizes Le x that is the product of the FUT3 enzyme on the type 2 molecules.
- Strain 387 has a broad specificity, possibly binding all fucosylated antigens in secretors; similarly, NV binds all fucosylated antigens except for type B. MOH is predicted to recognize type A and type B antigens but not H and Le b antigens, because MOH reacted with types A and B but not with type O. Strain 02-1419 appears to bind type A antigen, but not the H, B, Le b , and Le a antigens, because 02-1419 strain reacted with type A but not with types B or O.
- a test is conducted to demonstrate that the binding of a NLV to a blood antigen in its natural binding pattern is inhibited and prevented, by contacting the NLV with a compound known to bind to the determinant binding site in the NLV capsid.
- NV Norwalk Virus
- H antigen H antigen
- a antigen that is, these antigens are in its binding pattern
- Recombinant NV capsid protein at ⁇ 1.0 ⁇ g/ml in PBS is coated into the well(s) of a microtiter plate (Dynex Immulon, Dynatech). After blocking, a MAb 9C3, known to bind to the determinant binding site of the NV, is applied to a first group of the NV targets. A second group of the NV targets are left untreated. After incubation, the first set of NV targets is washed five times with PBS.
- Saliva from a person of secretor-A phenotype is prepared as in Example 1, and is applied to both the first and second groups of NV targets. After incubation, both groups of NV targets are detected with an A-antigen antibody to detect the presence of A antigen on the NV targets.
- the first group of NV targets shows no A antigen, while the second group of NV targets shows significant A antigen from the saliva sample binding to the NLV.
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US12/040,530 US8026221B2 (en) | 2002-05-31 | 2008-02-29 | Method, composition and kit for antigenic binding of norwalk-like viruses |
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US9321803B2 (en) | 2013-07-12 | 2016-04-26 | Children's Hospital Medical Center | Compositions and methods for inhibiting norovirus infection |
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US6572862B1 (en) * | 1989-11-08 | 2003-06-03 | Baylor College Of Medicine | Methods and reagents to detect and characterize Norwalk and related viruses |
AU2003273206B2 (en) * | 2002-05-31 | 2009-08-20 | Children's Hospital Medical Center | Method, composition and kit for antigenic binding of Norwalk-Like viruses |
CN102612525A (zh) | 2009-06-09 | 2012-07-25 | 儿童医院医疗中心 | 抗原-诺罗病毒p-结构域单体和二聚体,抗原-诺罗病毒p-粒子分子,及其制备和应用方法 |
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- 2003-06-02 CA CA2487846A patent/CA2487846C/fr not_active Expired - Fee Related
- 2003-06-02 IL IL16548603A patent/IL165486A0/xx unknown
- 2003-06-02 WO PCT/US2003/017247 patent/WO2003101176A2/fr not_active Application Discontinuation
- 2003-06-02 AT AT03741844T patent/ATE498403T1/de not_active IP Right Cessation
- 2003-06-02 DE DE60336063T patent/DE60336063D1/de not_active Expired - Lifetime
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- 2003-06-02 DK DK03741844.9T patent/DK1532279T3/da active
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR101049714B1 (ko) * | 2005-08-05 | 2011-07-19 | 제너럴 나노 옵틱스 리미티드 | 인젝션 에미터 |
US9321803B2 (en) | 2013-07-12 | 2016-04-26 | Children's Hospital Medical Center | Compositions and methods for inhibiting norovirus infection |
US9561239B2 (en) | 2013-07-12 | 2017-02-07 | Children's Hospital Medical Center | Compositions and methods for inhibiting norovirus infection |
US11833198B2 (en) | 2017-03-28 | 2023-12-05 | Children's Hospital Medical Center | Norovirus S particle based vaccines and methods of making and using same |
CN115343485A (zh) * | 2022-10-18 | 2022-11-15 | 天津德祥生物技术股份有限公司 | 血型抗原三糖偶联物在血型抗体检测中的应用 |
EP4382914A4 (fr) * | 2022-10-18 | 2024-10-23 | Tianjin Dexiang Biotechnology Co Ltd | Utilisation d'un conjugué trisaccharide d'antigène de groupe sanguin dans la détection d'anticorps de groupe sanguin |
Also Published As
Publication number | Publication date |
---|---|
IL165486A0 (en) | 2006-01-15 |
AU2009238339B2 (en) | 2011-06-30 |
WO2003101176A3 (fr) | 2005-03-24 |
DE60336063D1 (de) | 2011-03-31 |
WO2003101176A2 (fr) | 2003-12-11 |
AU2003273206A1 (en) | 2003-12-19 |
CA2487846C (fr) | 2012-05-29 |
US8026221B2 (en) | 2011-09-27 |
ATE498403T1 (de) | 2011-03-15 |
US20080274984A1 (en) | 2008-11-06 |
EP1532279A4 (fr) | 2005-11-09 |
DK1532279T3 (da) | 2011-05-23 |
EP1532279B1 (fr) | 2011-02-16 |
US20120071436A1 (en) | 2012-03-22 |
WO2003101176A8 (fr) | 2005-11-10 |
EP1532279A2 (fr) | 2005-05-25 |
AU2003273206B2 (en) | 2009-08-20 |
CA2487846A1 (fr) | 2003-12-11 |
AU2009238339A1 (en) | 2009-12-10 |
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