Patent application number | Description | Published |
20090155799 | METHODS FOR DIAGNOSING PANCREATIC CANCER USING REG4 PROTEIN - REG4, a new member of REG family was identified as a biomarker of pancreatic adenocarcinoma. The present invention provides sandwich ELISA to detect serum REG4 in patients with resectable pancreatic cancers i.e. PDACs. The present invention also provides a method for diagnosing a pancreatic cancer using REG4 as a serological marker. | 06-18-2009 |
20090220512 | GENES AND POLYPEPTIDES RELATING TO PROSTATE CANCERS - The present application provides novel human gene ELOVL7 whose expression is markedly elevated in prostate cancers. The gene and polypeptide encoded by the gene can be used, for example, in the diagnosis of prostate cancers, as target molecules for developing drugs against the disease, and for attenuating cell growth of prostate cancer. | 09-03-2009 |
20110098339 | C2ORF18 AS TARGET GENE FOR CANCER THERAPY AND DIAGNOSIS - Described herein are objective methods for detecting or diagnosing a predisposition to developing cancer, particularly pancreatic cancer. In one embodiment, the diagnostic method involves the step of determining an expression level of C2orf18 using anti-C2orf18 antibody. The present invention further provides methods of screening for therapeutic agents useful in the treatment of a C2orf18-associated disease, such as a cancer, e.g. pancreatic cancer, methods of inhibiting the cell growth and treating or alleviating their symptom. The invention also features products, such as polynucleotides, polypeptides, and vectors double-stranded molecules, antibodies, vectors and compositions composed thereof. | 04-28-2011 |
20110135654 | PROSTATE CANCER RELATED GENE STYK1 - The present invention provides methods for detecting and diagnosing cancer, which method involves the determination of the expression level of the STYK1 gene. The gene was discovered to discriminate cancer cells from normal cells. Furthermore, the present invention provides methods of screening for therapeutic agents useful in the treatment of cancer, methods for treating cancer, and methods for vaccinating a subject against cancer. Moreover, the present invention provides siRNAs targeting the STYK1 gene, which are suggested to be useful in the treatment of cancer. | 06-09-2011 |
20110251090 | PANCREATIC CANCER RELATED GENE TTLL4 - The present invention relates to the roles played by TTLL4 genes in pancreatic cancer carcinogenesis and features a method for treating or preventing pancreatic cancer by administering a double-stranded molecule against one or more of the TTLL4 genes or a composition, vector or cell containing such a double stranded molecule. Also, disclosed are methods of identifying compounds for treating and preventing pancreatic cancer, using as an index their effect on the over-expression of TTLL4 in the pancreatic cancer cell. | 10-13-2011 |
20110263679 | C12ORF48 AS A TARGET GENE FOR CANCER THERAPY AND DIAGNOSIS - Objective methods for diagnosing a predisposition to developing pancreatic cancer and prostate cancer, particularly pancreatic ductal adenocarcinoma (PDAC) and castration-resistant prostate cancer, are described herein. In one embodiment, the diagnostic method involves the step of determining an expression level of C12ORF48 using siRNAs targeting the C12ORF48 gene. The invention also features products such as siRNAs as well as to compositions containing them. The present invention further provides methods of screening for therapeutic agents useful in the treatment of C12ORF48 associated disease, such as a cancer, e.g. pancreatic cancer and prostate cancer, as well as methods of inhibiting the cell growth and treating or alleviating one or more disease symptoms. The invention also features products such as double stranded molecules, as well as vectors and compositions containing them. | 10-27-2011 |
20110294123 | METHODS FOR DIAGNOSING OR TREATING PROSTATE CANCER - The present invention provides methods for detecting and/or diagnosing cancer through the determination of the expression level of the STC2 gene. The gene was discovered to discriminate cancer cells from normal cells. Furthermore, the present invention provides methods of screening for therapeutic agents useful in the treatment of cancer, methods for treating cancer. Moreover, the present invention provides double-stranded molecules targeting the STC2 gene, which are suggested to be useful in the treatment of cancer. The compositions and methods of the present invention find particular applicability to prostate cancer, more specifically, castration-resistant prostate cancer and aggressive prostate cancer. | 12-01-2011 |
20120022128 | PKIB and NAALADL2 for Target Genes of Prostate Cancer Therapy and Diagnosis - The invention features methods for detecting prostate cancer, especially hormone-refractory prostate cancer (HRPC) or castration-resistant prostate cancer (CRPC), by detecting over-expression of PKIB or NAALADL2 compared the normal organs. Also disclosed are methods of identifying compounds for treating and preventing prostate cancer including HRPC, based on the over-expression of PKIB or NAALADL2 in the prostate cancer, the cell proliferation function of PKIB or NAALADL2, the intracellular localization of PKIB or NAALADL2 or the interaction between PKIB and PKA-C. Also, provided are a method for treating prostate cancer by administering a double-stranded molecule against the PKIB or NAALADL2 gene. The invention also provides products, including the double-stranded molecules and vectors encoding them, as well as compositions comprising the molecules or vectors, useful in the provided methods. | 01-26-2012 |
20130302799 | METHODS FOR DIAGNOSING OR TREATING PROSTATE CANCER - The present invention provides methods for detecting and/or diagnosing cancer through the determination of the expression level of the STC2 gene. The gene was discovered to discriminate cancer cells from normal cells. Furthermore, the present invention provides methods of screening for therapeutic agents useful in the treatment of cancer, methods for treating cancer. Moreover, the present invention provides double-stranded molecules targeting the STC2 gene, which are suggested to be useful in the treatment of cancer. The compositions and methods of the present invention find particular applicability to prostate cancer, more specifically, castration-resistant prostate cancer and aggressive prostate cancer. | 11-14-2013 |