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)

The E6 protein of the high-risk human papillomavirus (HPV) types 16 and 18 is capable of complexing with the wild-type p53 tumor suppressor gene product, leading to loss of the normal p53 function as an anti-oncogene, whereas the low-risk HPV types 6 and 11 lack this binding property. The malignant potential of HPV 16 and 18 has been ascribed to this complexing of E6 with p53, which regularly leads to undetectable expression of the latter in HPV-positive lesions. To assess the role of p53 in HPV-associated genital carcinogenesis, the expression of p53 protein was studied immunohistochemically in 22 genital carcinomas and precancer lesions; 8 vulvar carcinomas, 1 VIN (vulvar intraepithelial neoplasia), 5 cervical carcinomas and 8 CIN (cervical intraepithelial neoplasia) using monoclonal antibody PAb 1801. Presence of HPV was demonstrated by PCR using HPV consensus primers, and amplified HPV-DNA was digested with the restriction enzymes giving distinct patterns for various HPV-types in gel electrophoresis. HPV-typing was confirmed by in situ hybridization with biotinylated DNA probes. Altogether, 17 of the 22 specimens (77%) showed p53 expression: 67% of the precancer lesions and 83% of carcinomas. Expression was more frequent (89%) in the vulvar than (70%) in cervical lesions. Using PCR,HPV DNA was detected in 19/22(86%) of the samples. The following HPV types were identified: HPV 6 (2 samples), HPV 11 (3 cases), HPV 16 (5 cases), HPV 33 (3 cases), and 6 contained unidentified HPV types. All HPV DNA-negative specimens showed p53 expression. Of the 19 HPV DNA-positive lesions, 5 were p53-negative, three of these being HPV 16 positive CIN lesions. The remaining two HPV 16 lesions were invasive carcinomas with a weak p53 expression. HPV 6 and 11-positive lesions showed a weak p53 expression more frequently than HPV-negative cases and HPV 33 lesions. The results indicate that p53 expression is detectable, but it is less frequent and less intense in HPV DNA-positive genital precancer lesions and carcinomas (particularly those with HPV 16 DNA) as compared with HPV DNA-negative lesions.
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PMID:Expression of p53 protein related to the presence of human papillomavirus (HPV) DNA in genital carcinomas and precancer lesions. 839 70

The loss of the tumor-suppressor activity of p53, either by mutation or by interaction with the human papillomavirus (HPV) E6 protein, is considered to be an important mechanism in the carcinogenesis of cervical cancer. We have studied the cytological distribution of these proteins in human cervical carcinoma cell lines using polyclonal anti-p53 and monoclonal anti-E6 antibodies. The antibody specificity was confirmed by immunoblot and immunocompetition analyses. The intracellular localization of p53 and E6 was detected using the techniques of conventional and three-dimensional confocal microscopy. In the HPV-18 or -16 integrated cell lines, HeLa, CaSki and SiHa, viral oncoprotein E6 and endogenous tumor-suppressor protein, p53, were observed by immunofluorescence in the cytoplasm; p53 also had a weak punctate staining in the nuclei of HeLa and CaSki cells. In the HPV-negative cervical carcinoma cell lines, C-33A and HT-3, which have mutated p53, p53 was localized predominantly to the nucleus, with C-33A cells having elevated levels of p53 compared with the other cell lines. High spatial resolution imaging, using confocal microscopy, was performed on the cells after double fluorescence staining for p53 (fluorescein) and E6 (rhodamine). The images showed that both p53 and E6 had similar cytoplasmic distributions, which implied that these two proteins may exist as a cytoplasmic complex. To substantiate this implication, fluorescence resonance energy transfer microscopy was performed, which provided direct evidence of a close association between p53 and E6 within individual HeLa cells. The results from this study support the theory that p53 protein binds HPV-16/18 E6 protein in the cell cytoplasm, thus preventing p53 from exerting its tumor-suppressor function in the nucleus. Hence, inactivation of wild-type p53 by p53-E6 complex formation in cervical cancer may be a critical step in malignant transformation.
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PMID:Co-localization of the tumor-suppressor protein p53 and human papillomavirus E6 protein in human cervical carcinoma cell lines. 839 67

The p53 gene is contained within 16-20 kb of cellular DNA located on the short arm of human chromosome 17 at position 17p13.1. This gene encodes a 393-amino-acid nuclear phosphoprotein involved in the regulation of cell proliferation. Current evidence suggests that loss of normal p53 function is associated with cell transformation in vitro and development of neoplasms in vivo. More than 50% of human malignancies of epithelial, mesenchymal, haematopoietic, lymphoid, and central nervous system origin analysed thus far, were shown to contain an altered p53 gene. The oncoproteins derived from several tumour viruses, including the SV40 large T antigen, the adenovirus E1B protein and papillomavirus E6 protein, as well as specific cellular gene products, e.g. murine double minute-2 (MDM2), were found to bind to the wild-type p53 protein and presumably lead to inactivation of this gene product. Therefore, the inactivation of p53 tumour suppressor gene is currently regarded as an almost universal step in the development of human cancers. The current data on p53-associated tumourigenesis are briefly discussed in this minireview.
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PMID:Tumourigenesis associated with the p53 tumour suppressor gene. 839 88

The p53 gene is a 16-20 kb of cellular DNA located on the short arm of human chromosome 17 at position 17p13.1. This gene encodes a 375-amino acid nuclear phosphoprotein which involves in the regulation of cell proliferation. The p53 gene was originally regarded as a dominant oncogene because its overexpression resulted in the immortalization of rodent cells, and the p53 gene could transform rat embryonic fibroblasts in concert with an activated ras gene. It soon became clear, however, that many of the p53 clones that had been studied were in fact mutated versions of the gene, and the wild-type p53 actually acts as a tumor suppressor. Loss of normal p53 function has been associated with the cell transformation in vitro and the development of neoplasms in vivo. More than one-half of human malignancies derived from the epithelial, mesenchymal, hematopoietic, and lymphoid tissues, as well as the central nervous system, analyzed thus far, were shown to contain an altered p53 gene. Most p53 gene alterations are the missense mutations, giving rise to an altered protein. These mutations are most frequently located in the evolutionally conserved areas. Furthermore, it has been demonstrated that the SV40 large T antigen, the adenovirus E1B protein, and papillomavirus E6 protein can bind to wild-type p53 protein and presumably lead to inactivation of this gene product as well. Therefore, the inactivation of normal (or wild-type) p53 is currently regarded as an important genetic pathway for human carcinogenesis generated by endogenous factors and exogenous carcinogens, as well as several tumor viruses. The current data on the p53 gene and its alterations in human malignancies, particularly those in the gastrointestinal tract, are reviewed.
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PMID:The p53 tumor suppressor gene as a common cellular target in human carcinogenesis. 842 17

Wild-type human p53 and a series of p53 point mutants isolated from Burkitt's lymphoma (BL) cell lines were tested for their ability to inhibit DNA synthesis in a p53-negative BL cell line and to bind and be degraded by the human papillomavirus type 16 E6 protein. All the mutants lost the wild-type ability to inhibit DNA synthesis, demonstrating that they are all functionally altered. Binding to E6 and consequent degradation of the p53 mutants frequently correlated with changed suppressor properties in BL cells.
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PMID:Biological activities of p53 mutants in Burkitt's lymphoma cells. 849 87

Accumulation of the tumour suppressor gene p53 product due to a gene mutation is frequently seen in human carcinomas, including lung carcinoma. Another indirect mechanism involving p53 in malignant growth relates to the E6 protein of the human papillomavirus (HPV), which is able to bind and degrade wild-type p53 protein, thus eliminating its tumour suppressor activities. Bronchiolo-alveolar carcinoma (BAC) is a rare type of lung carcinoma. The aim of our study was to examine the occurrence of p53 accumulation and the presence of HPV DNA in BAC. Sections of 22 BACs were immunohistochemically stained using a p53 antibody, CM-1. The presence of HPV DNA in BACs was verified by in situ hybridisation for HPV types 6, 11, 16, 18, 31 and 33 and confirmed by PCR. Thirty-six percent of the tumours showed abnormal p53 nuclear accumulation, and HPV DNA, revealed by in situ hybridisation, was found in 36%. Unexpectedly, only 13% of the type 1 BACs were positive for p53, whereas 45% of the type 2 BACs were positive. During a follow-up of 12-176 months, only 10% of the patients with BACs negative for both p53 and HPV died of the disease, compared with 42% of the patients with either p53 or HPV positivity. No inverse relationship between abnormal p53 protein accumulation and the presence of HPV DNA was found.
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PMID:p53 protein accumulation and the presence of human papillomavirus DNA in bronchiolo-alveolar carcinoma correlate with poor prognosis. 855 Feb 45

We have identified a novel ubiquitin conjugating enzyme gene, L-UBC, which maps to human Chromosome (Chr) 14q24.3. This is also the location of the major early onset familial Alzheimer's disease gene (FAD3). L-UBC encodes a protein that demonstrates homology to the yeast ubiquitin conjugating enzyme, UBC-4, and human UbcH5. Their functions are to ubiquitinate specific proteins targeted for degradation. The protein also exhibits very strong homology to a rabbit protein, E2-F1, which mediates p53 degradation driven by papilloma virus E6 protein in vitro. The accumulation of specific proteins that have undergone aberrant processing in neurofibrillary tangles and amyloid plaques is the classic pathological feature in brains of Alzheimer's disease patients. Abnormal ubiquitination has previously been suggested to play a role in the etiology of Alzheimer's disease. This gene therefore represents a plausible candidate gene for FAD3.
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PMID:A human ubiquitin conjugating enzyme, L-UBC, maps in the Alzheimer's disease locus on chromosome 14q24.3. 856 71

E6-AP, a 100-kDa cellular protein, was originally identified through its interaction with the E6 protein of the oncogenic human papillomavirus types 16 and 18. The complex of E6-AP and E6 specifically interacts with p53 and mediates ubiquitination of p53 in concert with the E1 ubiquitin-activating enzyme and the E2 ubiquitin-conjugating enzyme UbcH5. Recent results suggest that E6-AP is representative of a family of putative ubiquitin-protein ligases. Members of this family are characterized by a conserved C-terminal region, termed hect domain. In this paper, we describe the isolation of two human E2s, designated as UbcH6 and UbcH7, that in addition to UbcH5 can interact with E6-AP. UbcH6 is a novel member of an evolutionally conserved subfamily of E2s that includes UbcH5 and Saccharomyces cerevisiae UBC4. Although UbcH7 does not appear to be a member of this subfamily, UbcH7 efficiently substitutes for UbcH5 in E6-AP-dependent ubiquitination. Surprisingly, UbcH6 was only weakly active in this particular assay. In addition, UbcH5 but not UbcH6 or UbcH7 efficiently interacts with the heet protein RSP5. These results indicate that E6-AP can interact with at least two species of E2 and that different hect proteins may interact with different E2s.
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PMID:Cloning of human ubiquitin-conjugating enzymes UbcH6 and UbcH7 (E2-F1) and characterization of their interaction with E6-AP and RSP5. 857 57

Activation of telomerase, a ribonucleoprotein complex that synthesizes telomere repeat sequences, is linked to cell immortalization and is characteristic of most cell lines and tumours. Here we show that expression of the human papillomavirus type 16 (HPV-16) E6 protein activates telomerase in early-passage human keratinocytes and mammary epithelial cells. This activation was observed in cells pre-crisis, that is, before they became immortal, and occurred within one passage of retroviral infection with vectors expressing HPV-16 E6. Studies using HPV-16 E6 mutants showed that there was no correlation between the ability of the mutants to activate telomerase and their ability to target p53 for degradation, suggesting that telomerase activation by HPV-16 E6 is p53 independent. Keratinocytes expressing wild-type HPV-16 E6 have an extended lifespan, but do not become immortal, indicating that telomerase activation and E6-mediate degradation of p53 are insufficient for their immortalization. These results show that telomerase activation is an intrinsic, but insufficient, component of transformation by HPV.
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PMID:Telomerase activation by the E6 gene product of human papillomavirus type 16. 859 12

The activity of the p53 tumor suppressor protein is regulated, at least in part, through the stability of the protein. p53 degradation in normal cells is controlled by ubiquitin-dependent proteolysis, and activation of p53 following DNA damage is associated with an increase in the stability of the protein. The human papillomavirus-encoded E6 protein abrogates p53 function by targeting it for rapid degradation, also through the ubiquitin pathway. Although the p53 protein is ubiquitinated following interaction with E6, we show here that none of the lysine residues within p53 are specifically required for E6-targeted degradation. Mutation of lysine residues within the C-terminus of p53 resulted in resistance to E6-mediated degradation in vitro, although the ability of the two proteins to form a complex was not affected. The same mutant was efficiently targeted for degradation in cells, however, illustrating a lack of correlation between the in vitro and the in vivo assays.
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PMID:Sensitivity of p53 lysine mutants to ubiquitin-directed degradation targeted by human papillomavirus E6. 859 13

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