Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C1140680 (ovarian cancer)
28,141 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

HER2/neu is known to be overexpressed in approximately 40% of human breast and ovarian cancers and it is associated with increased metastasis and poor prognosis. We have shown previously that the N-terminal domain of simian virus 40 large T antigen (LT425) can act as a transforming suppressor of the HER2/neu oncogene in human ovarian cancer. In the present study, we demonstrate that LT425 can also repress the transforming properties of HER2/neu-overexpressing human breast cancer cells. In addition, the results of a chemotaxis assay and an in vitro chemoinvasion assay further suggest that LT425 can also suppress the metastatic potential of the HER2/neu-transformed breast cancer cells. Taken together, these data clearly suggest that the inhibition of the expression of p185 HER2/neu tyrosine kinase by LT425 is capable of suppressing the HER2/neu-mediated transformation and metastatic potential in breast cancers.
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PMID:The N-terminal domain of SV40 large T antigen represses the HER2/neu-mediated transformation and metastatic potential in breast cancers. 1182 Oct 47

For the treatment of ovarian cancer, gene therapy is increasingly viewed as the fourth therapeutic concept (in addition to surgery, chemotherapy, and irradiation). Many approaches that use viral and nonviral delivery systems have been employed to introduce genes into tumor cells, thus changing their malignant phenotype. The development of tissue-specific promoters has enhanced the specificity of adenoviral transduction, the most commonly used transfer method. Phase I clinical trials (targeting p53, BRCA1, Her2/neu, Bcl-2, MDR, EIA, and HSV-TK genes) have been performed to test the relative safety of different strategies. Further studies are needed to evaluate the effectiveness of these treatments. New studies must evaluate gene therapy alone and in combination with cytostatic regimens because preclinical studies have shown the chemosensitizing effects of several target genes. The increasing knowledge about the genetic background of ovarian cancer will provide many targets for novel gene therapy approaches.
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PMID:Gene therapy of ovarian cancer. 1211 82

Her-2/neu (HER-2) is a 185-kDa receptor-like glycoprotein that is overexpressed by a variety of tumors such as breast, ovarian, gastric, and colorectal carcinomas. Overexpression of this oncogene is directly associated with malignant transformation of epithelial cells. The frequency of HER-2 overexpression varies among the different types of cancers, but universally represents a marker of poor prognosis. The critical role of HER-2 in epithelial oncogenesis as well as its selective overexpression on malignant tissues makes it an ideal target for immunotherapy. Antibodies and T cells reactive to HER-2 are known to naturally occur in patients with HER-2 positive tumors, confirming the immunogenicity of the molecule. Both antibodies as well as T cells reactive to HER-2 have been utilized for immunotherapy of HER-2 positive tumors. The "humanized" monoclonal antibody Herceptin has been tested in several clinical trials and found to be an effective adjuvant therapy for HER-2 positive breast and ovarian cancer patients. However, the frequency of patients responding to Herceptin is limited and a majority of patients initially responding to Herceptin develop resistance within a year of treatment. The use of vaccination strategies that generate T cell responses with or without accompanying antibody responses may serve to mitigate the problem. Various strategies for generating T cell-mediated responses against HER-2 are currently being examined in animal models or in clinical trials. The potential advantages of the various approaches to immunotherapy, their pitfalls, and the mechanisms by which HER-2 positive tumors can evade immune responses are discussed in this review.
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PMID:Cellular immunity to the Her-2/neu protooncogene. 1237 83

Ovarian cancer is caused by genetic alterations that disrupt proliferation, apoptosis, senescence and DNA repair. Approximately 10% of ovarian cancers arise in women who have inherited mutations in cancer susceptibility genes (BRCA1 or BRCA2). The ability to perform genetic testing allows identification of women at increased risk who can be offered prophylactic oophorectomy or other interventions aimed at preventing ovarian cancer. The vast majority of ovarian cancers are sporadic, resulting from the accumulation of genetic damage over a lifetime. Several specific genes involved in ovarian carcinogenesis have been identified, including the p53 tumour suppressor gene and HER2/ neu andPIC3KA oncogenes. The recent availability of expression microarrays has facilitated the simultaneous examination of thousands of genes, and this promises to extend further our understanding of the molecular events involved in the development of ovarian cancers. Hopefully, this knowledge can be translated into effective screening, treatment, surveillance, and prevention strategies in the future.
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PMID:Molecular aspects of ovarian cancer. 1241 30

It is known that the HER2/neu proto-oncogene is associated with a wide variety of human cancers and considered to be an attractive target for developing anti-cancer agents. We report here for the first time that the Epstein-Barr virus nuclear antigen-1 (EBNA1) suppresses the HER2/neu oncogene expression at the transcriptional level. Recombinant clones of EBNA1 were subcloned and stably transfected into HER2/neu-overexpressing human ovarian cancer SKOV3.ip1 cells. These EBNA1-containing clones down-regulated the endogenous production of p185(HER2/neu). In addition, the EBNA1-expressing stable transfectants showed reduced growth rate, low soft agarose colony-forming ability and tumorigenic potential as compared with the parental line. These data suggest that EBNA1 may act as a transforming suppressor of the HER2/neu oncogene.
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PMID:The Epstein-Barr virus nuclear antigen-1 may act as a transforming suppressor of the HER2/neu oncogene. 1245 78

We utilized SEREX immunoscreening to identify a set of novel tumor antigens that are associated with human serous ovarian cancer and may prove useful for the early detection and treatment of this disease. Extensive screening with a panel of sera from 25 late-stage ovarian cancer patients against 3 independent cDNA libraries identified a set of 9 antigens that were immunogenic in more than 1 patient and not in a panel of 20-45 normal female serum donors. These antigens include p53, NY-ESO-1, UBQLN1, HOXB6, TOP2A, putative helicase-RUVBL (RUVBL), HMBA-inducible (HEXIM1), DDX5 and HDCMA. Ten of 25 ovarian cancer patients (40%) expressed serum IgG to at least 1 of these antigens, while 14% (4/25) had antibodies to 2 or more antigens. Unexpectedly, 4 antigens identified in this screen, DDX5, HEXIM1, TOP2A and HOXB6, are encoded within a region of 17q that also includes the genes for HER2/neu, Homeobox-B7 and BRCA1. Real-time RT-PCR analysis showed that mRNA for HER2/neu and 3 SEREX-defined antigens, TOP2A, HOXB6 and DDX5, was more abundant in ovarian tumors than most normal tissues, including normal and benign ovarian tissues, suggesting that elevated expression of genes encoded within this region of chromosome 17 is a common event in ovarian tumors. Thus, these abnormal expression patterns combined with the endogenous immune response suggests that these antigens represent potential targets for immunotherapy.
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PMID:Serologic analysis of ovarian tumor antigens reveals a bias toward antigens encoded on 17q. 1253 22

Biologic therapy of ovarian cancer has been conducted using nonspecific biologic response modifiers, cytokines, monoclonal antibodies (MAbs), vaccines, and gene therapy. Antibodies directed toward her2/neu have also been studied. Phase I and II gene therapy trials using adenoviral vectors containing a wild-type or modified p53 have shown that the treatment is well tolerated. Phase II and III trials are ongoing with MAbs directed against CA-125 (MAb B43.13) and an antibody directed against HMFG1 (anti-HMFG1-yttrium-90-labeled antibody). The trials have shown that these agents are well tolerated and that immunologic responses occur, although the ultimate clinical value of these agents remains to be determined. Prolonged survival after MAb B43.13 treatment has been correlated with changes in several immune parameters, including human antimurine antibody, Ab2, anti-CA-125 antibody development, and induced T-cell immunity. Clinical trials using a MAb directed toward the encoded products of her2/neu have shown minimal activity against ovarian cancer in a phase I and II trial conducted by the Gynecologic Oncology Group. Cytokine therapies have been administered systemically and intraperitoneally. Intracavitary interferon alfa, interferon gamma, and interleukin-2 alone or in combination with cytotoxic therapy in phase I and II trials demonstrated intraperitoneal lymphoid cell stimulation and produced antitumor responses. A randomized trial of chemotherapy with or without interferon gamma in primary treatment produced a response and a progression-free survival advantage in the arm that incorporated the interferon gamma, without a statistically significant benefit in overall survival. A phase III study of interferon gamma in combination with first-line chemotherapy is currently ongoing.
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PMID:Biologic and immunologic therapies for ovarian cancer. 1274 31

We have shown previously that the Epstein-Barr virus nuclear antigen-1 (EBNA1) can act as a transforming suppressor in the HER2/neu-overexpressing ovarian cancer cells. In the present study, by using flow cytometric analysis, we demonstrate that EBNA1 could prolong G(2)/M phase and sensitize to Taxol-induced apoptosis in the EBNA1-expressing ovarian cancer cell stable transfectants. In addition, EBNA1 could also significantly increase topoisomerase IIalpha protein expression, indicating that the up-regulation of topoisomerase IIalpha may be one of the mechanisms by which EBNA1 enhances the sensitivity of ovarian cancer cells to topoisomerase II-targeting anticancer drugs, such as VP-16 and Adriamycin. These data suggest that EBNA1 not only prolongs cell cycle at G(2)/M phase and up-regulates topoisomerase IIalpha expression in HER2/neu-overexpressing ovarian cancer cells, but also increases cellular apoptosis through sensitization of cancer cells to topoisomerase II-directing anticancer drugs.
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PMID:EBNA1 may prolong G(2)/M phase and sensitize HER2/neu-overexpressing ovarian cancer cells to both topoisomerase II-targeting and paclitaxel drugs. 1289 73

The Her-2/neu oncogene is overexpressed in approximately 30% of breast and ovarian cancer cases and often indicates a poor prognosis. Therapeutic agents against Her-2/neu have been intensively sought over the past decade. Here we show that small interfering RNA (siRNA) can silence the expression of Her-2/neu in models of human breast or ovarian cancer through retrovirus-mediated transfer of an siRNA against Her-2/neu. Cells infected with retrovirus expressing anti-Her-2/neu siRNA exhibit slower proliferation, increased apoptosis, increased G0/G1 arrest, and decreased tumor growth. Changes in cell cycle-associated factors included decreased levels of phosphatidylinositol 3-kinase, pAkt, and cyclin D1 and increased levels of p27 and phosphorylated retinoblastoma protein. Knockdown of Her-2/neu expression by siRNA is also associated with increased expression of the anti-angiogenic factor thrombospondin-1 and decreased expression of the pro-angiogenic vascular endothelial growth factor, suggesting that Her-2/neu stimulates tumor growth at least in part by regulating angiogenesis. siRNA-mediated gene silencing of Her-2/neu and increasing the expression of thrombospondin-1 may be a useful therapeutic strategy for Her-2/neu-over-expressing breast or ovarian cancer.
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PMID:Inhibition of breast and ovarian tumor growth through multiple signaling pathways by using retrovirus-mediated small interfering RNA against Her-2/neu gene expression. 1462 84

The occult progression of tumors within the peritoneal cavity results in the late diagnosis and high mortality rate of ovarian cancer. An improved understanding of the molecular biology of ovarian cancer has led to the discovery of novel molecules as targets for the treatment of ovarian cancer. This review highlights the latest advance of mucins, which are upregulated in cancer cells and interact with the epidermal growth factor receptor family to regulate cell behavior via signaling pathways associated with malignant transformation, invasion and metastasis. Disruption of these molecules might represent a novel therapeutic approach in treating ovarian cancer. We also describe the recent development and validation of the most studied mucins (MUC1 and MUC16), ErbB-2 (Her2/neu) and folate binding protein as target-based immunotherapy of ovarian cancer.
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PMID:Discovery and validation of new molecular targets for ovarian cancer. 1475 89


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