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: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The short-term (7 days) effect of tamoxifen on apoptosis and mitosis index, p53, Bcl2 and Her-2/neu/c-erb2 expression in invasive ductal mammary carcinoma was studied histologically in the diagnostic biopsy and surgically removed tumor tissue of 10 patients. Following tamoxifen treatment expression of HER-2 and p53 decreased but Bcl2 remained unchanged. Mitotic activity decreased slightly, but not significantly. Apoptotic activity increased in six cases in the second sample compared to the values measured of the first biopsy. These changes may be attributed to the effect of antiestrogen therapy.
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PMID:Changes in apoptosis, mitosis, Her-2, p53 and Bcl2 expression in breast carcinomas after short-term tamoxifen treatment. 1208

We report the immunological characterization of three colon carcinoma cell lines, COLO 205, SW620 and SW403, which we selected to combine with cytokine-secreting fibroblasts for the development of an allogeneic tumour cell vaccine. The cell lines expressed HLA-A2 as well as shared tumour-associated antigens (TAAs) representative of colon carcinomas: CEA, Ep-CAM, MUC1, HER2/neu and MAGE antigens. They did not secrete high levels of the immunosuppressive factors TGF-beta, IL-10 or prostaglandins. The lines presented TAAs in a manner recognized by immune effector cells, which was demonstrated by the lysis of SW620 by HLA-A2-restricted anti-p53 cytotoxic T lymphocytes (CTL). COLO 205 and SW620 were genetically modified to express the co-stimulatory molecule CD80 (B7.1), which increased the ability of the cells to stimulate CTL in vitro. CTL clones derived from HLA-A2+ peripheral blood mononuclear cells stimulated with the CD80-expressing lines lysed the stimulator cell and an HLA-A2+ colon cancer cell line, but did not lyse an isogeneic fibroblast line or an HLA-A2- colon cancer cell line. CTL clones derived from colon carcinoma patients immunized with an allogeneic vaccine containing these lines demonstrated killing of autologous tumour cells, the vaccine cell lines and other HLA-A2+ colon cancer cell lines, but not fibroblasts isogeneic to certain of the target cell lines. Our studies demonstrate that these colon carcinoma cell lines express shared TAAs that can induce CTLs which recognize and lyse other colon carcinoma cells, and support the continued clinical evaluation of the CD80 gene modified allogeneic colon cell/cytokine-secreting fibroblast carcinoma vaccine.
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PMID:Antigenic and immunologic characterization of an allogeneic colon carcinoma vaccine. 1210 28

Recent reports detailing the expression profiles of primary breast cancer have pointed to the utility of this approach in defining subclasses with distinct molecular configurations and clinical behaviour. Some of the subclasses can be predicted by current molecular tests: estrogen receptor status, p53 staining, and HER-2 overexpression. Others, however, are novel subgroups and may represent distinct cellular types. The results from two recent studies suggest common principles of classification by expression profiling. These principles are examined and the impact of these results on understanding the biology and the clinical behaviour of breast tumors is explored.
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PMID:Defining the galaxy of gene expression in breast cancer. 1210 Jul 38

Immunohistochemistry (IHC) is a rapid morphological method that allows the detection of proteins involved in different mechanisms of cancer development. It is therefore a useful tool in the study of cancerogenesis. The best known example is the product of the p53 gene, a tumour suppressor gene which is altered in 50% of all human tumors. In fact, these p53 gene mutations lead to cell protein accumulation whereas the p53 product is not detectable in normal cells. This method also enables the detection of fusion proteins which result from chimeric transcript like WT1 in desmoplastic small round cell tumors, ALK in anaplastic large-cell lymphomas and FLI-1 in Ewing's sarcomas. On the contrary, gene inactivation can induce loss of immunostaining. hMLH1 and hMSH2, which are committed in DNA mismatch repair, can be altered in familial digestive carcinomas, such as hereditary non polyposis colorectal cancer. Thus IHC, which allows us to focus on the altered gene by loss of its product in tumoral cells, represents a good alternative to molecular analysis. IHC is also useful to detect the product of oncogene overexpression such as HER-2 in some breast carcinomas, which allows appropriate therapeutic protocols. Finally, IHC can be used in diagnostic, prognostic and therapeutic ends. Nevertheless, difficulties can be en- countered in the interpretation of the results. Therefore, IHC must be performed in quality control trials.
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PMID:[Immunohistochemistry and genotype analysis of tumors. First part: Which future for the immunochemical diagnosis of cancer?]. 1212 91

Members of the Eph family of receptor tyrosine kinase have been implicated in cell-cell communication and tissue integrity during embryogenesis. We have previously demonstrated cell type specific and hormone dependent EphB4 expression in the mouse mammary parenchyma suggesting involvement in the homeostasis of this organ. Since disruption of tissue organization is crucial for metastatic dissemination, we have investigated the expression of EphB4 during carcinogenesis of the human breast. Immunohistochemical analysis of 24 normal human breast samples and 124 consecutive breast carcinomas was correlated with tumor characteristics (stage, histology, grade, lymph node involvement) and the expression of ER, PR, Ki-67, p53 and HER2. In normal breast tissue, the EphB4 protein was expressed exclusively in parenchymal cells. Strikingly, a drastic reduction in the number of EphB4 protein expressing cells was observed in almost all invasive carcinomas analyzed, irrespective of the tumor type (p<0.0001). Furthermore, we found a highly significant correlation between EphB4 positivity and low histological grading of the tumor cells (p=0.002) suggesting that in breast cancer, EphB4 expression is not compatible with tumor progression. This raises the possibility that EphB4 could represent a potent tool for therapeutic intervention.
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PMID:Loss of EphB4 receptor tyrosine kinase protein expression during carcinogenesis of the human breast. 1216 60

Because a previous study by conventional cytogenetics had revealed a nullisomy 17 in the breast cancer cell line EFM-19, we analysed that cell line by SKY-FISH and by FISH using different probes derived from chromosome 17. A bicolor FISH using a HER2-specific probe and a chromosome 17 centromeric probe showed five HER2 and six centromeric signals all appearing on different chromosomes A further bicolor FISH using a chromosome 17-specific painting probe and a HER2-specific probe revealed that the HER2 signals were always localized within chromosome 17 segments constituting part of structurally altered chromosomes as deduced from their G-banding. Further FISH analyses using single-locus probes of chromosome 17, i.e., for MDS, p53, SMS and RARA, showed that all five chromosome 17 painting segments contained material from the long arm but only two painting segments had additional material from the short arm. A SKY-FISH confirmed the results of the chromosome 17 painting by FISH, except for one structurally altered chromosome showing additional chromosome 17 material detected by the SKY experiment. These results allow us to conclude that, in this cell line, polysomy 17 has preceeded the fragmentation of chromosome 17 leading to amplification of small parts of that chromosome as well as to extended losses. As to a general mechanism, polysomy 17 and a fragility of this, chromosome in breast cancer cells may not only account for part of the cases with HER2 amplification but, at the same time, may further support malignant progression due to the loss of tumor suppressor genes as e.g. p53.
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PMID:Molecular-cytogenetic analysis of fragmentation of chromosome 17 in the breast cancer cell line EFM-19. 1217 75

We report on a predictive model of long-term outcome in 114 high-risk breast cancer patients treated with high-dose chemotherapy between 1989 and 1994. Paraffin-blocks from 90 of the 114 primaries were assessed for the presence of five risk factors: grade, mitotic index, protein expression of p53, HER2/neu, and oestrogen/progesterone receptor status; we could analyse the effect of risk factors in 84 of these 90 tumours. Seven-year relapse-free and overall survival was 58% (95% confidence interval 44-74%) and 82% (95% confidence interval 71-94%) vs 33% (95% confidence interval 21-52%) and 41% (95% confidence interval 28-60%) for patients whose primary tumours displayed > or =3 risk factors vs patients with < or =2 risk factors. For the entire group of 168 high-risk breast cancer patients, inflammatory stage IIIB disease and involved post-mastectomy margins were associated with decreased relapse-free survival and overall survival; patients treated with non-doxorubicin containing standard adjuvant therapy experienced worse overall survival (RR, 2.08; 95% confidence interval 1.04 to 4.16; P=0.04), while adjuvant tamoxifen improved overall survival (RR, 0.65; 95% confidence interval 0.41-1.01; P=0.054). Future trial designs and patient selection for studies specific for high-risk breast cancer patients should include appropriate prognostic models. Validation of such models could come from recently completed randomised, prospective trials.
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PMID:Predictors of long-term outcome following high-dose chemotherapy in high-risk primary breast cancer. 1217 95

Neoadjuvant/pre-surgical medical therapy of breast cancer provides a unique opportunity to derive biological information related to tumour response. Large clinical trials of neoadjuvant chemotherapy have established that pathological complete remission is an independent predictor of improved disease-free survival. Clinical response has been found to parallel substantial reductions in the proliferation of breast cancer cells. Increased apoptosis also occurs, but it is not closely associated with response. Numerous biological markers such as p53, bcl-2, oestrogen receptor (ER) and HER2 have been assessed for their possible role in chemoresistance/response, but the data are not clear at this stage. Continuing work using cDNA microarrays may yield new, more reliable indices of likely response and an improved insight into biological processes related to chemotherapeutic response.
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PMID:The biology of neoadjuvant chemotherapy for breast cancer. 1223 46

In the multistep progressive pathogenesis of human breast cancer, comedo ductal carcinoma in situ (DCIS) represents a preinvasive precursor lesion for therapy resistant invasive cancer. Human tissue derived cell culture models exhibiting molecular similarities to clinical DCIS facilitate an important preclinical mechanistic approach for evaluation of preventive efficacy of natural and synthetic chemopreventive compounds. Natural phytochemicals present in fresh fruits, vegetables and grain products are likely to offer protection against cancer. The clinical efficacy of these natural phytochemicals, however, depends on extrapolation, and is therefore equivocal. The present study determined whether the natural soy isoflavone genistein (GEN) inhibited aberrant proliferation in 184-B5/HER cells (a model for human comedo DCIS) and identified possible mechanisms responsible for its efficacy. Human reduction mammoplasty derived HER-2/neu oncogene expressing preneoplastic 184-B5/HER cells represented the experimental system. Flow cytometry and cellular epifluorescence based assays were utilized to quantitate the alterations in cell cycle progression, cellular apoptosis, and in the status of cell cycle regulatory and apoptosis-associated gene product expression. The 184-B5/HER cells exhibited specific immunofluorescence to p185HER, p53, EGFR, but not to ERalpha, thus resembling comedo DCIS. Treatment of 184-B5/HER cells with GEN resulted in a dose-dependent decrease in the viable cell population, increase in the G0/G1:S + G2/M ratio and enhancement of sub G0/G1 (apoptotic population). Exposure to the maximum cytostatic 10 microM dose of GEN down-regulated HER-2/neu mediated signal transduction as evidenced by a 73.9% decrease (p=0.001) in p185HER specific, and a 89.8% decrease (p=0.001) in phosphotyrosine specific immunofluorescence. The increase in G0/G1:S + G2/M ratio in response to the treatment with 10 microM GEN was associated with a 85.5% decrease (p=0.001) in immunoreactivity to PCNA and a 128.6% increase (p=0.004) in immunoreactivity to the cyclin dependent kinase inhibitor p16INK4. The induction of apoptosis by GEN was associated with a 52.8% decrease (p=0.001) in the immunoreactivity to antiapoptotic Bcl-2 and with a 195.9% (p=0.001) increase in the immunoreactivity to proapoptotic Bax. Thus, preventive efficacy of GEN in HER-2/neu+/ER- 184-B5/HER cells may be due to its ability to down-regulate HER-2/neu mediated signal transduction, increase the expression of the cyclin dependent kinase inhibitor p16INK4, and induce Bcl-2 dependent apoptosis. These data provide evidence that GEN may be a potential chemopreventive lead compound for human comedo DCIS. The 184-B5/HER cells, may therefore, provide a high throughput mechanistic bioassay to identify new chemopreventive agents for human breast cancer.
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PMID:Soy isoflavone genistein modulates cell cycle progression and induces apoptosis in HER-2/neu oncogene expressing human breast epithelial cells. 1223 20

Understanding the molecular and genetic events affecting breast cancer development not only helps oncologists address important questions commonly asked by their patients but also helps clinicians gain insights into the biology of the disease. Although the molecular and genetic determinants of most sporadic breast cancer remain unknown, significant advances in the understanding of events that contribute to breast cancer formation have been made. It is now recognized that mutations in some tumor suppressor genes, such as p53, BRCA1, BRCA2, PTEN, or ATM, or epigenetic functional inactivation of other tumor suppressor genes, such as SYK and NES1, appear to play important early roles in the formation of some breast cancers. In addition, alterations in proto-oncogenes, such as HER2/neu, may contribute to the development of some breast cancer. The goal of this article is to further introduce clinicians to molecular and genetic pathways that contribute to breast cancer formation. By participating in the study of breast cancer development at the molecular as well as the histopathological level, oncologists can help develop novel prevention, diagnostic, and therapeutic approaches for the future.
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PMID:Molecular biology and genetics of breast cancer development: a clinical perspective. 1238 87


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