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 p53 tumour suppressor gene is intensively studied because mutations in this gene are the most common genetic alteration so far identified in human cancer. Considerable emphasis has thus been placed on characterizing the biological differences between mutant and wild-type p53 protein. This has led to the realization that in cultured cells, mutant p53 behaves like an oncogene, whereas wild-type p53 is a tumor suppressor gene. The p53 protein is also a target for the tumour virus oncogene products SV40 large T, adenovirus E1B, and human papillomavirus type 16 E6, which are all capable of forming complexes to the p53 protein. Although p53 represents an extremely important cellular regulatory molecule which is well conserved, there exists two allelic variants of wild-type human p53 that differ both in primary and confirmational structure. One variant contains an arginine at amino acid 72 (p53Arg), whereas the other form contains a proline at this residue (p53Pro). The possible implications for more than one allelic variant of wild-type human p53 in the general population is unknown. The present study was undertaken to compare some of the biological features of the different wild-type p53 variants. We present data demonstrating that there was a post-transcriptional selection against accumulation of both variants of wild-type human p53 in 3T3-A31 cells, arguing that both forms are proliferation inhibitory in these cells. Both variants of human p53 were stabilized by SV40 large T, but did not displace mouse p53 from SV40 large T. Neither allelic variant of human p53 was able to reduce significantly SV40-mediated anchorage-independent growth of 3T3-A31 cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Molecular analysis of different allelic variants of wild-type human p53. 129 28

The transforming proteins of DNA tumor viruses SV40, adenovirus and human papillomaviruses (HPV) bind the retinoblastoma and p53 cell cycle regulatory proteins. While the binding of SV40 large T antigen and the adenovirus E1B 55 kDa protein results in the stabilization of the p53 protein, the binding of HPV16 and 18 E6 results in enhanced degradation in vitro. To explore the effect of viral proteins on p53 stability in vivo, we have examined cell lines immortalized in tissue culture by HPV18 E6 and E7 or SV40 large T antigen, as well as cell lines derived from cervical neoplasias. The half-life of the p53 protein in non-transformed human foreskin keratinocytes in culture was found to be approximately 3 h while in cell lines immortalized by E6 and E7, p53 protein half-lives ranged from 2.8 h to less than 1 h. Since equivalent levels of E6 were found in these cells, the range in p53 levels observed was not a result of variability in amounts of E6. In keratinocyte lines immortalized by E7 alone, the p53 half-life was found to be similar to that in non-transformed cells; however, it decreased to approximately 1 h following supertransfection of an E6 gene. These observations are consistent with an interaction of E6 and p53 in vivo resulting in reductions in the stability of p53 ranging between 2- and 4-fold. We also observed that the expression of various TATA containing promoters was repressed in transient assays by co-transfection with plasmids expressing the wild-type p53 gene.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Human papillomavirus E6 proteins bind p53 in vivo and abrogate p53-mediated repression of transcription. 137 75

We present evidence for the possible involvement of both the RB and p53 proteins in the regulation of cellular senescence. Human fibroblasts immortalized with an inducible SV40 T-antigen become senescent following the de-induction of T-antigen. Plasmids expressing an alternative source of intact T-antigen restore proliferation but T-antigen deletion mutants lacking either the RB or p53 binding domains are unable to do so. Similarly, combinations of adenovirus E1A + E1B or human papillomavirus E6 + E7 genes are able to replace T-antigen functions and permit cell proliferation, whereas the individual genes do not. These results are discussed in terms of a two-stage model for the escape from in vitro cellular senescence.
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PMID:A role for both RB and p53 in the regulation of human cellular senescence. 165 50

Insight into the mechanisms by which DNA tumor viruses transform cells has come from the recognition that the virus-encoded oncoproteins interact specifically with important cell regulatory proteins. The "high risk" human papillomaviruses such as HPV-16 and HPV-18 which are associated with human anogenital carcinomas encode two transforming genes (E6 and E7) which are expressed in HPV positive cancers and derived cell lines. E7 shares functional and structural features with the adenovirus E1A proteins. Like Ad E1A and the large T proteins of the polyomaviruses, E7 can complex pRB. The E7 proteins of the "high risk" HPVs associate with pRB with approximately a 10-fold higher affinity than do the E7 proteins of the "low risk" HPVs, and important biological differences between the E7 proteins of these two groups of HPVs are determined by amino-terminal sequences which include the pRB binding domain. Like SV40 large T and Ad 5 E1B, the E6 oncoprotein encoded by the "high risk" HPVs can form a complex with p53. In vitro, E6 promotes the degradation of p53 and this degradation involves the ubiquitin-dependent protease system. The selective degradation of cellular proteins such as p53 with negative regulatory functions provides a novel mechanism of action for dominant acting oncoproteins. The relevance of the inactivation of the normal functions of pRB and p53 in human cervical carcinogenesis has recently been demonstrated by the analysis of these two genes and their products in a series of HPV-positive and HPV-negative cell lines. Each of five HPV-positive cervical cancer cell lines expressed normal pRB and low levels of wild type p53 proteins, which are presumed to be altered in function as a consequence of association with the HPV oncoproteins. In contrast, mutations were identified in the p53 and RB genes expressed in the HPV-negative cervical carcinoma cell lines, C33-A and HT-3. These results support the hypothesis that the inactivation of the normal functions of the tumor suppressor proteins pRB and p53 are important steps in human cervical carcinogenesis, either by mutation or through complex formation with HPV E6 and E7 oncoproteins.
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PMID:Cellular targets of the oncoproteins encoded by the cancer associated human papillomaviruses. 166 86

Oncogenic transformation by the human adenoviruses involves the concerted action of two genes, E1A and E1B. Over the last few years the products of these genes have been characterised in considerable detail using genetic, immunological and biochemical means. The E1A gene by itself can immortalise primary cells and can cooperate to effect full morphological transformation not only with E1B but also with other known oncogenes. The immortalisation and cooperation activities of E1A require multiple functions that are directed by structurally and functionally independent regions of the E1A protein. These regions coincide with sites of protein: protein interaction between E1A and a variety of cellular polypeptides. One of these, the Rb protein, is a known regulator of the mammalian cell cycle. The E1B region encodes two proteins required for transformation, the larger of which binds to the p53 cellular protein. This protein has also been implicated as a negative regulator of cell growth. It appears therefore that E1A and E1B carry out their many functions associated with transformation at least in part by binding to and presumably modulating the activity of key cellular regulators.
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PMID:Transformation by the human adenoviruses. 210 12

The association of the cellular p53 protein with the E1B-55kd protein of adenovirus 5 (Ad5) is thought to result in inactivation of the p53 recessive oncogene product. Here we show that Ad5 E1-transformed 3Y1 rat cells which express low levels of the 55 kd E1B protein do not contain the p53-E1B 55kd complex. These cells have nuclearly located p53 and are highly oncogenic in nude mice. In 3Y1 cells expressing the E1B protein at a sufficiently high level, association between p53 and E1B-55kd occurs, resulting in an almost complete trapping of p53 into a discrete cytoplasmic body. These cells only form tumors after a very long latency period and in the tumors that eventually appear selection has occurred in favor of cells lacking the complex and containing free nuclear p53. Comparable results were found when highly oncogenic Ad12-transformed cells were supertransfected with the Ad5 E1B region. In none of the Ad-transformed mouse, rat and human cell lines examined, could we detect p53 of abnormal molecular weight or association with hsc70, neither could we immunoprecipitate p53 by the mutant specific antibody PAb240. These data suggest that a high level of nuclear p53 with a wild-type conformation contributes to the oncogenicity of Ad transformed cells.
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PMID:Association between the cellular p53 and the adenovirus 5 E1B-55kd proteins reduces the oncogenicity of Ad-transformed cells. 214 53

The 55K protein encoded by the adenovirus 2 E1B gene is required for complete cellular transformation and binds the cellular protein p53. Using an in vitro immunoprecipitation assay, we mapped the domains in both 55K and p53 required for the interaction of the two proteins. The domain in p53 mapped to the amino terminal 123 residues. There are several domains in the 495 residue 55K polypeptide which contribute to stable association with p53, with the most essential region mapping between residues 224 and 354. Mutations which prevented 55K-p53 binding were not more defective for transformation than other mutations which did not affect binding.
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PMID:Domains required for in vitro association between the cellular p53 and the adenovirus 2 E1B 55K proteins. 214 4

Human papillomavirus type 16 (HPV-16) is a DNA tumor virus that is associated with human anogenital cancers and encodes two transforming proteins, E6 and E7. The E7 protein has been shown to bind to the retinoblastoma tumor suppressor gene product, pRB. This study shows that the E6 protein of HPV-16 is capable of binding to the cellular p53 protein. The ability of the E6 proteins from different human papillomaviruses to form complexes with p53 was assayed and found to correlate with the in vivo clinical behavior and the in vitro transforming activity of these different papillomaviruses. The wild-type p53 protein has tumor suppressor properties and has also been found in association with large T antigen and the E1B 55-kilodalton protein in cells transformed by SV40 and by adenovirus type 5, respectively, providing further evidence that the human papillomaviruses, the adenoviruses, and SV40 may effect similar cellular pathways in transformation.
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PMID:Association of human papillomavirus types 16 and 18 E6 proteins with p53. 215 86

Three lines of evidence suggest that the p53 gene and gene product may act as a negative regulator of growth or a tumor suppressor gene: (1) in several tumors of mice and humans, both of the p53 alleles have suffered mutations and in some cases large or complete deletions demonstrating a loss of function mutation. (2) The murine wild-type p53 gene can suppress transformation of rat embryo fibroblasts in cell culture by other oncogenes such as the adenovirus E1A plus ras genes. In rat embryo fibroblast cells transfected with the wild-type p53 gene, E1A and ras, the wild-type p53 gene either fails to express any RNA or only a mutant form of this p53 gene is selected for in culture. This is analogous (in cell culture) to the observations made in tumors (in vivo) discussed above. (3) Both the tumor suppressor gene, the retinoblastoma sensitivity gene or Rb and p53 are found in oligomeric protein complexes with the oncogene products of the DNA tumor viruses. Both the SV40 large T antigen and the adenovirus E1A plus E1B-55Kd proteins bind to, and presumably inactivate, these tumor suppressor activities which in turn contributes to cellular transformation. A set of point mutations, deletions or insertion mutations in the murine p53 gene localized between amino acid residues 120-270 (out of 390 amino acids) activate the p53 gene and gene product for cooperation with ras in transforming rat embryo fibroblast cells. The mutant p53 proteins produced by these transformed cells all have several properties in common; (1) a prolonged half-life, which is 20 min for the wild-type gene product to greater than 2 hr for the mutant proteins, (2) very high levels of p53 protein in these transformed cells, (3) a conformational change in the mutant p53 proteins, and (4) the binding of mutant p53 protein to the rat cellular heat shock protein, hsc70. These transformation activating mutations apparently act in a trans-dominant manner with the murine mutant p53, forming an oligomeric protein complex with the wild-type rat p53 proteins, resulting in the inactivation of the wild-type p53 function (rat p53).
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PMID:The p53 tumor suppressor gene and gene product. 248 33

We have investigated the biochemical properties of Xenopus laevis p53. With an in vitro binding assay, we can detect a specific association between X. laevis p53 and simian virus 40 large T antigen. Furthermore, X. laevis p53 expressed in monkey COS cells is stably associated with this viral antigen. Like mammalian p53, X. laevis p53 in complex with simian virus 40 large T antigen exhibits a 20-fold increase of its half-life. On the other hand, X. laevis p53 is unable to associate either in vivo or in vitro with adenovirus type 5 E1B 55-kilodalton protein. We show by an immunological technique that X. laevis p53 forms specific complexes with mammalian hsp72 and hsp73 heat shock proteins only at a temperature well above the optimal growth temperature for X. laevis. Our results suggest that the protein-binding properties of p53 are closely related to the functional activity of the protein.
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PMID:Evolutionary conservation of the biochemical properties of p53: specific interaction of Xenopus laevis p53 with simian virus 40 large T antigen and mammalian heat shock proteins 70. 266 61

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