UNIPROT:P04626 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04626 (erbB-2)
5,251 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Seventeen patients with endometrial cancer were studied. Tissues of primary (P) and metastatic (M) lesions were obtained from 8 patients and complete sets of P, M and Recurrent (R) lesions were obtained from 9 patients during a follow-up period of 1-10 years. Expressions of estrogen receptors, progesterone receptors, multidrug resistance protein-1, multidrug resistance-related protein, c-erbB-2, membrane-type metalloproteinase, human telomerase RNA, human telomerase reverse transcriptase RNA, E-cadherin and autocrine motility factor receptor were studied by RT-PCR. Also, telomeric restriction fragment length (TRFL) and microsatellite instability were determined between P, M and R. The results indicate that there are significant differences in the gene expression frequency during tumor progression. The mismatch rate ranged from 0 to 47.1% between P and M and from 14.3% to 66.7% between P and R, respectively. The TRFL analysis showed a marked reduction in P and M (P vs. M: 8.2 +/- 0.9 vs. 5.6 +/- 0.4 kb, mean +/-SEM, n = 9, p = 0.002 by paired Student's t test). The length further decreased in R (P vs. R: 8.2 +/- 0.9 vs. 3.2 +/- 0.7, p = 0.01, M vs. R: 5.6 +/- 0.4 vs. 3.2 +/- 0.7, p = 0.005). The genomic instability/replication error was tested by AluI arbitrary primed polymerase chain reaction (AP-PCR). Five out of 17 patients showed an altered replication error pattern (29.4%). The mean number of abnormal AluI AP-PCR patterns in M and R compared to the P was 1.5 (M) and 4 (R). The difference between the P and R was statistically significant (p < 0.04). The present data indicate that biological behavior of cancer cells in P, M and R may differ significantly.
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PMID:Gene expression in primary, metastatic and recurrent lesions of endometrial cancer. 1054 51

Genistein (4,5,7-trihydroxyisoflavone) has been reported to induce cell cycle arrest and apoptosis in different cancer cell lines in vitro and to show antitumor activity against a variety of tumors in animal models. We have previously reported (S. A. Alhasan et al., Nutr. Cancer, 34:12-19, 1999; S. A. Alhasan et al., Int. J. Oncol., 16: 333-338, 2000) that genistein induces cell cycle arrest and apoptosis by up-regulating p21(WAF1) and Bax, and down-regulating cyclin B1 and Bcl-2 in a head and neck cancer cell line. However, the precise molecular mechanism(s) by which genistein elicits its effects on head and neck cancer cells still remains to be elucidated. In the present study, we report that genistein induces several specific molecular changes in head and neck cancer cells, such as down-regulation of c-erbB-2 expression, down-regulation of MMP-2 and MMP-9 secretion, inhibition of tumor cell invasion and down-regulation of nuclear factor-kappaB DNA binding activity. In addition, genistein inhibited the levels of phosphorylated Akt and the expression of 14-3-3 protein. Moreover, genistein induces telomere shortening in treated cells without affecting telomerase activity in vitro. We also observed that genistein inhibits the translocation of telomerase catalytic subunit [human telomerase reverse transcriptase (hTERT)] to the nucleus, which may result in telomere shortening, although the activity of telomerase is unaffected, along with the inhibition of metaphase spread of chromosomes. From these results, together with our previously published reports, (S. A. Alhasan et al., Nutr. Cancer, 34: 12-19, 1999; S. A. Alhasan et al., Int. J. Oncol., 16: 333-338, 2000) we conclude that genistein elicits pleiotropic molecular changes that resulting in the inhibition of cell growth and the induction of apoptotic cell death of head and neck cancer cells, which suggests that genistein may be useful as a chemotherapeutic and/or chemopreventive agent for head and neck cancer.
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PMID:Genistein elicits pleiotropic molecular effects on head and neck cancer cells. 1175 18

Many clinical studies have been undertaken to assess the therapeutic potential of vaccination and have included a large variety of cancer immunogens. Most of these studies involved patients with metastatic cancer, which is characterized by the most aggressive malignant cells, the longest-lasting disease, and the failure of all standard cytotoxic treatments. The presence of tumor over long periods and the toxicity of previous treatments tend to negatively affect immune responsiveness to tumor antigens presented by the vaccine. In this review, we analyze the ability of past and current vaccine therapies to induce clinical responses in breast cancer. To date, clinical responses have been observed by using vaccines targeting HER-2/neu protein, human telomerase reverse transcriptase, carcinoembryonic antigen, and carbohydrate antigen given after stem cell rescue. The review concludes with a discussion of possible future directions for vaccine development and applications.
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PMID:Clinical studies of vaccines targeting breast cancer. 1296 Jan 7

Ovarian cancer is believed to develop from the ovarian surface epithelium through the accumulation of aberrations of oncogenes and/or tumor suppressor genes. However, it is unclear how the gene abnormalities are involved in ovarian carcinogenesis. To elucidate the process, we transfected genes reported to show their abnormalities in human ovarian cancers into human ovarian surface epithelial cells. Immortalization of the cells was achieved by the transfection of SV40 large T antigen (LT) and human telomerase reverse transcriptase (hTERT); however, the resultant cells showed no tumorigenesis. Additional transfection of either c-erbB-2 or mutant Ha-ras into the immortalized cells showed the anchorage-independent growth and tumorigenesis in mice with the incidence of 50% and 40%, respectively. Histologically, all the tumours were undifferentiated. In association with the tumorigenesis, the cells expressing c-erbB-2 or mutant Ha-ras demonstrated increased vascular endothelial growth factor secretion under hypoxia and enhanced resistance to apoptosis compared with the immortalized cells. Collectively, the introduction of either c-erbB-2 or mutant Ha-ras in the cells, which were efficiently immortalized by the transfection of LT and hTERT, showed tumorigenicity, suggesting that c-erbB-2 or mutant Ha-ras genes might be involved in ovarian carcinogenesis.
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PMID:C-erbB-2 or mutant Ha-ras induced malignant transformation of immortalized human ovarian surface epithelial cells in vitro. 1467 9

Therapeutic potential of vaccination has been explored in many clinical trials involving patients with breast cancer. A large variety of cancer immunogens have been tested. The majority of clinical vaccination studies have been carried out in patients with metastatic breast cancer, characterized by extremely aggressive malignant tumors, resistant to all standard cytotoxic treatments and with longest-lasting disease. With active specific immunotherapy, tumor-associated antigens coupled to appropriate adjuvant can elicit a powerful antitumor responses. The potential advantages of therapeutic cancer vaccines are that they can augment an established immunogenic response to the tumor (which is generally weak in breast cancer), they target specific tumor antigens (although there are few), they are potentially non-toxic, they can be combined with conventional therapies and/or other immunotherapies, and they elicit immunologic memory to prevent recurrence of the tumor. It is unclear whether therapeutic vaccines for cancer prolong survival. Data of clinical activity have been observed by using vaccines targeting HER-2/neu protein, human telomerase reverse transcriptase, carcinoembryonic antigen (CEA), and carbohydrate antigen given after stem cell rescue. A better understanding of the relation between innate and adaptive immune responses, and of the immune escape mechanisms employed by tumor cells, the discovery of mechanisms underlying immunological tolerance, and acknowledgment of the importance of both cell-mediated and humoral adaptive immunity for the control of tumour growth are necessary for leading to a more comprehensive immunotherapeutic approach in breast cancer.
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PMID:Immunizing against breast cancer: a new swing for an old sword. 1991 43

Pet dogs represent a valuable pre-clinical model to assess the efficacy of oncology drugs. Additionally, canine cancers occur with an incidence similar to that of humans and share many features with human malignancies including histological appearance, tumor genetics, biological behavior and response to conventional therapies. The telomerase reverse transcriptase (TERT) is reactivated in most of human and dog tumors. Similarly, HER-2/neu oncoprotein is overexpressed in a proportion of canine breast cancers. Therefore, TERT and HER-2/neu can constitute valid tumor associated antigens (TAA), suitable targets for translational cancer immunotherapy in dogs. In this study, we have evaluated the ability of DNA electroporation (DNA-EP) and Adenovirus serotype 6 (Ad6) to induce immune responses against dog TERT (dTERT) and HER-2/neu in healthy dogs. Vaccination was effective in all treated animals and the adaptive immune response remained detectable and long-lasting in the absence of autoimmunity or other side-effects. Our results show that DNA-EP/Ad6-based cancer vaccine induces adaptive immune responses against TAA in canine subjects and support further evaluation of this approach in cancer dog patients.
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PMID:Telomerase and HER-2/neu as targets of genetic cancer vaccines in dogs. 1994 91

Various human malignancies are immunogenic and recent cancer vaccine trials have demonstrated potential survival benefit. Breast cancer is immunogenic and there are several tumor associated antigens for which breast cancer vaccines have been developed. Breast cancer vaccines are designed to stimulate the immune response at various steps in the native antigen processing pathway for immunosurveillance. Human epidermal growth factor receptor 2 (HER-2/neu), mucin 1 (MUC-1), and human telomerase reverse transcriptase (hTERT) are some of the most studied antigens actively being targeted for vaccination in breast cancer patients. These vaccines are designed to elicit cytotoxic and/or helper T cell responses. Over the last several years, there has been reported progress in human clinical trials for these antigens. Cancer vaccines have repeatedly been shown to be safe with production of minimal toxicity. Recent clinical advances in the development of cancer vaccines demonstrate the potential clinical benefit that cancer vaccines hold.
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PMID:Progress in the development of a therapeutic vaccine for breast cancer. 2436 64