UNIPROT:P04637 - FACTA Search

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

Aberrant p53 expression is frequently observed in mammary epithelial cells obtained from women at high risk for developing breast cancer and is a predictor for the subsequent development of malignancy. Tamoxifen has recently been shown to reduce the incidence of noninvasive breast cancer in high-risk women, but the molecular mechanism of tamoxifen chemoprevention in mammary epithelial tissue that does not overexpress the estrogen receptor is poorly understood. We suppressed p53 expression by retroviral-mediated expression of human papillomavirus type-16 E6 protein (HPV-16 E6) in human mammary epithelial cells (HMECs) to develop an in vitro model of tamoxifen chemoprevention in the context of p53 loss. Early passage p53(-) HMEC-E6-transduced cells treated with 1.0 microM tamoxifen rapidly underwent apoptosis. In contrast, early passage p53(+) HMEC-LXSN vector controls treated with 1.0 microM tamoxifen underwent G1-G0-phase arrest but did not undergo apoptosis. p53(-) HMEC-E6 cells rapidly acquired resistance to tamoxifen-mediated apoptosis after 10 passages in culture (in the absence of tamoxifen). Both p53(+) and p53(-) HMECs exhibited a low level of estrogen receptor staining and minimal estrogen binding, characteristic of proliferating normal luminal mammary epithelial cells. Tamoxifen-mediated apoptosis in p53(-) HMEC-E6 cells was not blocked by inhibitors of transcription and protein synthesis. These data suggest that the acute loss of p53 function in HMECs by expression of HPV-16 E6 results in marked sensitivity to tamoxifen-mediated apoptosis but that resistance to apoptosis rapidly develops within 10 passages in vitro. Observations in our model system predict a critical role for the early institution of tamoxifen chemoprevention.
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PMID:Human papillomavirus type 16 E6 inactivation of p53 in normal human mammary epithelial cells promotes tamoxifen-mediated apoptosis. 1121 59

Germline mutations in the tumor suppressor gene BRCA1 predispose women to breast cancer, however somatic mutations in the gene are rarely detected in sporadic cancers. To understand this phenomenon, we examined mouse models carrying conditional disruption of Brca1 in mammary epithelium in either p53 wild type (wt) or heterozygous backgrounds. Although a p53(+/-) mutation significantly accelerated tumorigenesis, both strains developed mammary tumors in a stochastic fashion, suggesting that multiple factors, in addition to p53 mutations, may be involved in Brca1 related tumorigenesis. A unique feature of Brca1 mammary tumors is their highly diverse histopathology accompanied by severe chromosome abnormalities. The tumors also display extensive genetic/molecular alterations, including overexpression of ErbB2, c-Myc, p27 and Cyclin D1 in the majority of tumors, while they were virtually ERalpha and p16 negative. Translocations involving p53 were also identified which lead to abnormal RNA and protein products. In addition, we generated cell lines from mammary tumors and found that the cells retained many of the genetic changes found in the primary tumors, suggesting that these genes may be players in Brca1-associated tumorigenesis. Despite their distinct morphology, all cultured tumor cells were Tamoxifen resistant but highly sensitive to Doxorubicin or gamma-irradiation, suggesting that these methods would be effective in treatment of this disease.
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PMID:Multiple genetic changes are associated with mammary tumorigenesis in Brca1 conditional knockout mice. 1170 23

The MDM2 oncoprotein (p90) binds to p53 and inhibits its function. Here, the expression of mdm2 mRNA subsequent to phorbol 12,13-dibutyrate (PDB) or diethylstilbestrol (DES) treatment was analyzed in human breast tumor-derived GI-101A cell line. Expression of mdm2 mRNA was detected in rapidly growing GI-101A cells and that was similar to the expression seen in HL-60 cells. On the other hand PC12 (rat adrenal pheochromocytoma cells) did not show any mdm2 expression. GI-101A cells were treated with varying concentrations of DES or PDB, and mdm2 mRNA levels were determined by RT-PCR analysis. The RT-PCR results clearly showed that mdm2 mRNA expression was increased with increasing concentrations of PDB and DES treatments. To determine the specificity of the effects produced by DES and PDB the cells were treated with estrogen receptor antagonist tamoxifen and protein kinase C (PKC) specific inhibitor chelerythrine. Tamoxifen and chelerythrine co-treatments inhibited DES and PDB stimulated increases of mdm2 transcription respectively, in GI-101A cells. In an attempt to determine the upstream signaling pathway, the effects of PDB or DES on the mitogen activated protein kinase (MAPK) levels were determined by western blot analysis in the presence and absence of PD098059, a specific inhibitor of mitogen activated protein kinase kinase (MAPKK). The phospho-MAPK (p44/42) levels, an activated form of MAPK, increased in DES and PDB stimulated cells whereas PD098059 treatment inhibited this increase. Our data implicate MAPK as an upstream regulator of mdm2 expression and help to speculate on the intracellular regulation of mdm2 expression.
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PMID:Regulation of mdm2 mRNA expression in human breast tumor-derived GI-101A cells. 1223 95

A number of studies have shown that tamoxifen increases the sensitivity of several types of solid tumours to cisplatin without increasing the associated side effects. The cellular mechanisms responsible for this increased sensitivity are currently unknown. In this study we have investigated whether tamoxifen alone or in combination with cisplatin could induce apoptosis in head and neck squamous cell carcinoma (HNSCC) cell lines. We have shown that tamoxifen treatment resulted in G(1) arrest in two cell lines, HN5 and HN6. Tamoxifen induced growth suppression was independent of p53 status but resulted in up-regulation of cyclin dependent kinase inhibitors (CDKIs) p21/Waf-1, p27/Kip1 and p15/INK4a. Furthermore, tamoxifen treatment resulted in an increased level of hypophosphorylated active RB. Cisplatin induced p53 independent apoptosis in both head and neck cancer cell lines. There was a significant sensitizing effect of tamoxifen on cisplatin-induced apoptosis in HN5 and HN6 cells, with the combined treatment being more effective in inducing apoptosis. Addition of tamoxifen did not result in significant inhibition of PKC activity in HN5 and HN6 cells. However, tamoxifen treatment resulted in increased secretion of TGF-beta1 by HN5 and HN6 cells. An anti-TGF-beta blocking antibody prevented both the blockade of cellular proliferation and the increased expression of CDKIs associated with tamoxifen treatment of HN5 and HN6 cells. These results show that tamoxifen alone induces a transient G(1) arrest that greatly sensitizes the cells to apoptosis induced by cisplatin. We have shown that the mechanism for this p53-independent G(1) arrest and apoptosis is at least partly due to the activation of TGF-beta1 resulting in the induction of p15/INK4b, p27/Kip-1, p21/Waf-1 and RB hypophosphorylation. These in vitro results suggest that combination of tamoxifen and cisplatin might be a more effective treatment for head and neck cancers than single modality therapy.
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PMID:Tamoxifen inhibits the growth of head and neck cancer cells and sensitizes these cells to cisplatin induced-apoptosis: role of TGF-beta1. 1237 63

p53 protein accumulation and gene mutation have been implicated in resistance to cytotoxic treatment. This study was performed to further assess the predictive value of p53 in breast cancer. Postmenopausal patients were randomized to adjuvant chemotherapy with cyclophosphamide, metothrexate, or 5-fluorouracil (CMF) vs. postoperative radiotherapy. The patients were also randomized to adjuvant tamoxifen vs. no endocrine treatment. Immunohistochemistry (IHC) and single-strand conformation polymorphism (SSCP), followed by direct sequencing, was performed. The p53 altered group, regarded as positive for p53 gene mutation and/or p53 protein accumulation, tended to benefit more from CMF than from radiotherapy as compared with others regarding distant recurrences. In the group lacking p53 alteration there was a significantly decreased local recurrence rate in the radiotherapy group as compared with the CMF group (RR = 0.24, 95% CI = 0.083 0.62), whereas no benefit from radiotherapy was found for patients showing p53 alterations. Tamoxifen significantly decreased the rate of distant recurrence for estrogen receptor-positive patients with no apparent difference in relation to p53 alteration. It is suggested that p53 alteration indicates benefit from CMF compared with radiotherapy regarding distant recurrence-free survival and the best local control with radiotherapy is achieved in the absence of p53 alteration. Finally, altered p53 status is probably not a marker of resistance to tamoxifen.
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PMID:Mutation and accumulation of p53 related to results of adjuvant therapy of postmenopausal breast cancer patients. 1524 46

Tamoxifen reduces the relative risk of breast cancer developing from specific premalignant lesions. Many breast cancers that arise after tamoxifen treatment are estrogen receptor-alpha (ER-alpha)-negative, although premalignant lesions such as atypical ductal hyperplasia are highly ER-alpha-positive. The p53 null mouse mammary epithelial transplant model is characterized by ER-alpha-positive premalignant lesions that give rise to both ER-alpha-positive and ER-alpha-negative tumors. Given this progression from ER-alpha-positive to ER-alpha-negative lesions, we tested the ability of tamoxifen to block or delay mammary tumorigenesis in several versions of this model. In groups 1 and 2, p53 null normal mammary epithelial transplants were maintained in virgin mice. In groups 3 to 5, the p53 null and mammary transplants were maintained in mice continuously exposed to high levels of progesterone. In groups 6 and 7, transplants of the premalignant outgrowth line PN8a were maintained in virgin mice. Tamoxifen blocked estrogen signaling in these mice as evidenced by decreases in progesterone-induced lateral branching and epithelial proliferation in the mammary epithelium. Tamoxifen did not alter the elevated levels of progesterone in the blood while significantly reducing the circulating level of prolactin. Tamoxifen reduced tumor incidence in p53 null normal mammary epithelial transplants maintained in virgin mice from 55% to 5% and in progesterone-stimulated mice from 81% to 21%. The majority of the resultant tumors were ER-alpha-negative. Tamoxifen also significantly delayed tumorigenesis in the ER-alpha-positive high premalignant line PN8a from 100% to 75%. These results show that tamoxifen delays the emergence of ER-alpha-negative tumors if given early in premalignant progression.
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PMID:Tamoxifen inhibition of estrogen receptor-alpha-negative mouse mammary tumorigenesis. 1583 86

Tamoxifen is a widely used drug for chemotherapy and chemoprevention of breast cancer worldwide. Tamoxifen therapy is, however, associated with an increased incidence of endometrial cancer. The carcinogenicity of tamoxifen is ascribed to its genotoxic and estrogen agonist effects. We investigated DNA adduct-targeted mutagenicity of tamoxifen as a function of its genotoxicity in the cII transgene in Big Blue mouse embryonic fibroblasts and mapped the formation of tamoxifen-induced DNA adducts in the p53 tumor suppressor gene in SV40 immortalized human hepatocytes and human endometrial carcinoma cells. We used the terminal transferase-dependent polymerase chain reaction for mapping of DNA adducts in the cII and p53 genes. We utilized a lambda phage-based assay and DNA sequencing for determining cII mutant frequency and mutation spectrum, respectively. Tamoxifen treatment yielded polymerase-blocking DNA adducts at multiple nucleotide positions along the cII transgene. The treatment significantly and dose-dependently increased the cII mutant frequency (p < 0.01), leaving a unique mutation spectrum (p < 0.0001) and a signature mutation of G:C --> T:A transversions (p < 0.03), relative to the control. Tamoxifen treatment of the immortalized human hepatocytes but not endometrial carcinoma cells, even in the presence of an external activation system, i.e., rat liver S9 mix, induced DNA adducts at specific codons along exons 6 and 8 of the p53 gene. These data suggest a proficient metabolic activation of tamoxifen in human liver and an inefficient activation and/or efficient detoxification of tamoxifen in human endometrium. Because the liver is essentially a mitotically quiescent organ, tamoxifen-DNA adduction in the liver may, at least partially, prevent its reactants from reaching highly proliferative organs via, e.g., circulating blood. Thus, tamoxifen-DNA adduction in the liver may not have as significant biological consequences as it might have in highly proliferative organs. Our findings favor an involvement of a nongenotoxic mechanism in tamoxifen-associated human endometrial cancer.
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PMID:Investigating DNA adduct-targeted mutagenicity of tamoxifen: preferential formation of tamoxifen-DNA adducts in the human p53 gene in SV40 immortalized hepatocytes but not endometrial carcinoma cells. 1593 31

Breast and ovarian cancers are the second and fifth leading causes of cancer death, respectively, among women in the United States. Individuals with breast cancer have a 20--30% chance of having at least one relative with the disease. However, only 5--10% of the cases are a direct result of germline mutations in highly penetrable genes, such as BRCA1 and BRCA2 (BRCA1/2) as well as genes TP53 and PTEN. Since 1996, genetic testing for these mutations has been clinically available. A strategy for the management of women at increased familial risk of breast and ovarian cancers is described, which includes genetic assessment, chemoprevention, radiologic screening, and clinical and self-examination. Genetic testing should occur within a cancer genetic clinic after genetic counseling. A blood sample allows determination of the presence of the BRCA1 and BRCA2 genes, the TP53 gene, the PTEN gene, and the ATM gene. Tumor examination has identified a growth factor receptor gene, human epidermal growth factor receptor (HER-2). With regard to diet and lifestyle, women at increased risk of breast cancer could be advised to reduce dietary fat, avoid obesity, decrease alcohol consumption, and take regular exercise. Although chemoprotection is a valuable consideration, it is important to emphasize that the use of Tamoxifen in BRCA1 and BRCA2 mutation carriers is not established, nor is the optimum duration of benefit. An overview of the main outcomes of the current published studies confirms a 38% decrease in breast cancer incidence with Tamoxifen but recommends its use be restricted to women at high risk of breast cancer and low risk for potential side effects. The role of bilateral risk-reducing mastectomy or prophylactic mastectomy has been controversial for several reasons, including the psychosocial significance of the breast in Western cultures, the wide acceptance of breast conservation in surgery for early breast cancer, and the previous lack of data on its efficacy. The surgical procedure should aim to remove substantially all at-risk breast tissue. However, there is a balance between reduction of cancer risk and cosmetic outcome. Bilateral prophylactic oophorectomy can significantly decrease ovarian cancer risk in women who carry BCRA1 mutations. Oophorectomy lowers the risk of breast cancer, even in women who have previously used hormone replacement therapy. There are no published randomized controlled trials examining the effectiveness of mammographic screening in women under 50 years of age with a family history of breast cancer. However, the published studies do suggest that mammographic screening of a high-risk group of women under 50 years of age may detect cancer at a rate equivalent to that seen in women 10 years older with normal risk. Other initial studies also support MRI as having a greater sensitivity than mammography in high-risk women. Breast clinical and self-examination is often advocated, but its effectiveness is unproved, and only one randomized study has been undertaken in women at risk. On the basis of this study as well as one nonrandomized study, it can be concluded that clinical examination as well as mammography are essential in detecting breast cancer. under 50 years of age with a family history of breast cancer. However, the published studies do suggest that mammographic screening of a high-risk group of women under 50 years of age may detect cancer at a rate equivalent to that seen in women 10 years older with normal risk. Other initial studies also support MRI as having a greater sensitivity than mammography in high-risk women. Breast clinical and self-examination is often advocated, but its effectiveness is unproved, and only one randomized study has been undertaken in women at risk. On the basis of this study as well as one nonrandomized study, it can be concluded that clinical examination as well as mammography are essential in detecting breast cancer.
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PMID:Breast cancer and ovarian cancer genetics. 1621 1

Current therapies used in the treatment of breast cancer are limited by systemic toxicity, rapid drug metabolism and intrinsic and acquired drug resistance. We have previously shown that adenoviral-mediated transfer of the melanoma differentiation-associated gene-7 (mda-7) elicits growth inhibition and apoptosis in various tumor types. Here, we evaluate the effects of Ad-mda7, alone and in combination with other therapies, against a panel of nine breast tumor cell lines and their normal counterparts; we report selective Ad-mda7-mediated p53-independent growth inhibition, G2/M cell cycle arrest, and apoptosis. In vivo, Ad-mda7 induced p53-independent tumor growth inhibition (P<0.004) in multiple xenograft models. We then evaluated the combination of Ad-mda7 with agents commonly used to treat breast cancer: radiotherapy (XRT), Tamoxifen, Taxotere, Adriamycin, and Herceptin. These agents exhibit diverse modes of action, including formation of bulky adducts, inhibition of DNA replication (Adriamycin, XRT), damage to microtubules (Taxotere), nonsteroidal estrogen antagonists (Tamoxifen), or Her2/neu receptor blockade (Herceptin). Treated with conventional anticancer drugs or radiation, MDA-7-expressing cells display additive or synergistic cytotoxicity and apoptosis that correlates with decreased BCL-2 expression and BAX upregulation. In vivo, animals that received Ad-mda7 and XRT underwent significant reduction of tumor growth (P<0.002). This is the first report of the synergistic effects of Ad-mda7 combined with chemotherapy or radiotherapy on human breast carcinoma cells.
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PMID:mda-7 gene transfer sensitizes breast carcinoma cells to chemotherapy, biologic therapies and radiotherapy: correlation with expression of bcl-2 family members. 1628 87

Tamoxifen treatment for breast cancer increases proliferation of the endometrium, resulting in an enhanced prevalence of endometrial pathologies, including endometrial cancer. An exploratory study was performed to begin to understand the molecular mechanism of tamoxifen action in the endometrium. Gene-expression profiles were generated of endometrial samples of tamoxifen users and compared with matched controls. The pathological classification of samples from both groups included atrophic/inactive endometrium and endometrial polyps. Unsupervised clustering revealed that samples of tamoxifen users were, irrespective of pathological classification, fairly similar and consequently form a subgroup distinct from the matched controls. Using SAM analysis (a statistical method to select genes differentially expressed between groups), 256 differentially expressed genes were selected between the tamoxifen and control groups. Upon comparing these genes with oestrogen-regulated genes, identified under similar circumstances, 95% of the differentially expressed genes turned out to be tamoxifen-specific. Finally, construction of a gene-expression network of the differentially expressed genes revealed that 69 genes centred around five well-known genes: TP53, RELA, MYC, epidermal growth factor receptor and beta-catenin. This could indicate that these well-known genes, and the pathways in which they function, are important for tamoxifen-controlled proliferation of the endometrium.
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PMID:Tamoxifen treatment for breast cancer enforces a distinct gene-expression profile on the human endometrium: an exploratory study. 1632 41

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