Patent application number | Description | Published |
20140255411 | POLYPEPTIDES AND POLYNUCLEOTIDES, AND USES THEREOF AS A DRUG TARGET FOR PRODUCING DRUGS AND BIOLOGICS - This invention relates to a novel target for production of immune and non-immune based therapeutics and for disease diagnosis. More particularly, the invention provides therapeutic antibodies against VSIG1, ILDR1, LOC253012, AI216611, C1ORF32 or FXYD3 antigens, which are predicted co-stimulatory family members and which are differentially expressed in cancers including, lung cancer, ovarian cancer, and colon cancer, and diagnostic and therapeutic usages. The use of these antibodies for modulating B7 costimulation and related therapies such as the treatment of autoimmunity are also provided. This invention further relates to the discovery of extracellular domains of VSIG1 and its variants, FXYD3 and its variants, ILDR1 and its variants, LOC253012 and its variants, AI216611 and its variants, and C1ORF32 and its variants a which are suitable targets for immunotherapy, cancer therapy, and drug development. | 09-11-2014 |
20140363446 | POLYPEPTIDES AND POLYNUCLEOTIDES, AND USES THEREOF AS A DRUG TARGET FOR PRODUCING DRUGS AND BIOLOGICS - This invention relates to a novel target for production of immune and non-immune based therapeutics and for disease diagnosis. More particularly, the invention provides therapeutic antibodies against VSIG1, ILDR1, LOC253012, AI216611, C1ORF32 or FXYD3 antigens, which are predicted co-stimulatory family members and which are differentially expressed in cancers including, lung cancer, ovarian cancer, and colon cancer, and diagnostic and therapeutic usages. The use of these antibodies for modulating B7 costimulation and related therapies such as the treatment of autoimmunity are also provided. This invention further relates to the discovery of extracellular domains of VSIG1 and its variants, FXYD3 and its variants, ILDR1 and its variants, LOC253012 and its variants, AI216611 and its variants, and C1ORF32 and its variants awhich are suitable targets for immunotherapy, cancer therapy, and drug development. | 12-11-2014 |
Patent application number | Description | Published |
20110311450 | POLYPEPTIDES AND POLYNUCLEOTIDES, AND USES THEREOF AS A DRUG TARGET FOR PRODUCING DRUGS AND BIOLOGICS - This invention relates to a novel target for production of immune and non-immune based therapeutics and for disease diagnosis. More particularly, the invention provides therapeutic antibodies against KRTCAP3, FAM26F, MGC52498, FAM70A or TMEM154 antigens, which are differentially expressed in cancer, and diagnostic and therapeutic usages. This invention further relates to extracellular domains of KRTCAP3, FAM26F, MGC52498, FAM70A and TMEM154 proteins and variants, and therapeutic usages thereof. | 12-22-2011 |
20120129776 | Bioactive peptides and method of using same - Disclosed are peptide ligands for G-protein coupled receptors that are useful for treating disorders associated with G-protein coupled receptor activation. | 05-24-2012 |
20120134997 | POLYPEPTIDES AND POLYNUCLEOTIDES, AND USES THEREOF AS A DRUG TARGET FOR PRODUCING DRUGS AND BIOLOGICS - This invention relates to a novel target for production of immune and non-immune based therapeutics and for disease diagnosis. More particularly, the invention provides therapeutic antibodies against VSIG1, ILDR1, LOC253012, AI216611, C1ORF32 or FXYD3 antigens, which are predicted co-stimulatory family members and which are differentially expressed in cancers including, lung cancer, ovarian cancer, and colon cancer, and diagnostic and therapeutic usages. The use of these antibodies for modulating B7 costimulation and related therapies such as the treatment of autoimmunity are also provided. This invention further relates to the discovery of extracellular domains of VSIG1 and its variants, FXYD3 and its variants, ILDR1 and its variants, LOC253012 and its variants, AI216611 and its variants, and C1ORF32 and its variants which are suitable targets for immunotherapy, cancer therapy, and drug development. | 05-31-2012 |
20140220011 | POLYPEPTIDES AND POLYNUCLEOTIDES, AND USES THEREOF AS A DRUG TARGET FOR PRODUCING DRUGS AND BIOLOGICS - This invention relates to a novel target for production of immune and non-immune based therapeutics and for disease diagnosis. More particularly, the invention provides therapeutic antibodies against VSIG1, ILDR1, LOC253012, AI216611, ClORF32 or FXYD3 antigens, which are predicted co-stimulatory family members and which are differentially expressed in cancers including, lung cancer, ovarian cancer, and colon cancer, and diagnostic and therapeutic usages. The use of these antibodies for modulating B7 costimulation and related therapies such as the treatment of autoimmunity are also provided. This invention further relates to the discovery of extracellular domains of VSIG1 and its variants, FXYD3 and its variants, ILDR1 and its variants, LOC253012 and its variants, AI216611 and its variants, and ClORF32 and its variants which are suitable targets for immunotherapy, cancer therapy, and drug development. | 08-07-2014 |
Patent application number | Description | Published |
20090035287 | ATRIAL NATRIURETIC PEPTIDE (ANP) SPLICE VARIANTS AND METHODS OF USING SAME - Novel ANP polypeptides and polynucleotides encoding same are provided. Also provided are methods and pharmaceutical compositions which can be used to treat ANP-related diseases and disorders including cardiovascular disorders using the polypeptides and polynucleotides of the present invention. | 02-05-2009 |
20090036374 | HEPATOCYTE GROWTH FACTOR RECEPTOR SPLICE VARIANTS AND METHODS OF USING SAME - Novel polypeptides that are splice variants of c-Met, the receptor for hepatocyte growth factor and polynucleotides encoding same are provided. Methods and pharmaceutical compositions which can be used to treat various disorders such as cancer, immunological-related, blood-related and skin-related disorders using the polypeptides and polynucleotides of the present invention, are also provided. | 02-05-2009 |
20100166733 | MCP-1 SPLICE VARIANTS AND METHODS OF USING SAME - Novel MCP-1 splice variant polypeptides and polynucleotides encoding same are provided. Also provided are pharmaceutical compositions comprising the splice variant polypeptides and polynucleotides, vectors and host cells comprising same. The compositions of the present invention are useful to treat various MCP-1 related disorders as well as for diagnosing, determining predisposition and/or prognosis of various disorders. | 07-01-2010 |
20100183573 | HEPATOCYTE GROWTH FACTOR RECEPTOR SPLICE VARIANTS AND METHODS OF USING SAME - Novel polypeptides that are splice variants of c-Met, the receptor for hepatocyte growth factor and polynucleotides encoding same are provided. Methods and pharmaceutical compositions which can be used to treat various disorders such as cancer, immunological-related, blood-related and skin-related disorders using the polypeptides and polynucleotides of the present invention, are also provided. | 07-22-2010 |
20110003708 | BIOMARKERS FOR THE PREDICTION OF RENAL INJURY - The present invention relates to means and methods for predicting the onset of renal injury based on measuring the expression of polynucleotides and proteins, particularly on measuring the expression of sets of novel as well as known polynucleotides and proteins, and to kits utilizing same. | 01-06-2011 |
20140255389 | POLYPEPTIDES AND POLYNUCLEOTIDES, AND USES THEREOF AS A DRUG TARGET FOR PRODUCING DRUGS AND BIOLOGICS - This invention relates to a novel target for production of immune and non-immune based therapeutics and for disease diagnosis. More particularly, the invention provides therapeutic antibodies against VSIG1, ILDR1, LOC253012, AI216611, C1ORF32 or FXYD3 antigens, which are predicted co-stimulatory family members and which are differentially expressed in cancers including, lung cancer, ovarian cancer, and colon cancer, and diagnostic and therapeutic usages. The use of these antibodies for modulating B7 costimulation and related therapies such as the treatment of autoimmunity are also provided. This invention further relates to the discovery of extracellular domains of VSIG1 and its variants, FXYD3 and its variants, ILDR1 and its variants, LOC253012 and its variants, AI216611 and its variants, and C1ORF32 and its variants which are suitable targets for immunotherapy, cancer therapy, and drug development. | 09-11-2014 |