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)

p53 was originally considered to be a nuclear oncogene, but several convergent lines of research have indicated that the wild-type gene functions as a tumor suppressor gene negatively regulating the cell cycle. Mutations in the p53 gene have been detected in many tumor types and seem to be the most common genetic alterations in human cancer. In this preliminary study, sera of 92 patients (pts) with breast disease were analyzed for the presence of the mutant p53 protein (mp53) with a selective immunoenzyme assay employing a monoclonal antibody (PAb 240) specific for the majority of mammalian m p53 but not for the wild-type protein. Of the 10 patients with benign breast disease, only two (20%) showed detectable m p53 levels in the serum. In the breast cancer group, sera from 7 of the 30 pts (23%) without lymph node involvement were positive for m p53, as were 7 out of the 45 pts (15%) with metastatic lymph nodes and 1 out of the 7 pts (14%) with disseminated disease. The specificity of m p53 assay evaluated in 20 healthy controls was 100%. These preliminary results showed that serum positivity for m p53 is not related to breast disease extension. Further studies to assess the utility of m p53 as a possible prognosis factor in breast cancer are currently in progress.
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PMID:The p53 tumor suppressor gene. A preliminary clinical study in breast cancer patients. 128 28

Mutations in the p53 gene stimulate cell division. In our study we assessed the prognostic value of mutant p53 overexpression in cervical cancer stage FIGO III detected by immunohistochemistry. In 43 tissue specimens were detected p53 overexpression in 20 cases. Mean survival time was 36.4 (SE +/- 7.66) months in the p53 protein positive group. The group without p53 overexpression showed a mean survival time of 28.6 (SE +/- 3.85) months. p53 protein overexpression had no prognostic value in patients with stage III cervical cancer.
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PMID:Mutant p53 product in patients with stage III cervical cancer. 129 70

Overexpression of p53-protein appears to be a common event in primary breast cancer. It has been proposed that the presence of elevated levels of this protein may be an independent prognostic factor and may be important for the ability of a tumor to metastasize. This study was performed to evaluate the influence of immunohistochemically detectable mutant p53-protein on metastasis-free survival of patients with breast cancer. Immunohistochemistry was performed on 117 paraffin-embedded biopsy specimens of consecutive patients with stage T1-T4 breast cancer, using a monoclonal antibody against p53 suppressor gene product. 29 (24.8%) specimens showed positive staining, whereas in 88 (75.2%) a negative staining reaction for p53 was found. Comparing time intervals to diagnosis of metastasis, using Kaplan-Meier curves, Log-Rank test revealed no significant differences in metastasis-free survival between p53 positive and negative patients (P = 0.32), whereas statistically significant differences were noted for tumor stage (P < 0.01), nodal status (P < 0.01), histological grading (P < 0.01) and estrogen receptor status (P = 0.03). Mutant p53-protein, as detected by immunohistochemistry in paraffin embedded tumor tissue, does not appear to influence metastasis-free survival in patients with breast cancer.
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PMID:Immunohistochemical detection of mutant p53-suppressor gene product in patients with breast cancer: influence on metastasis-free survival. 129 80

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

Gal4-p53 fusion constructs demonstrate that wild type p53 is a potent transactivator in human lung cancer cells with the transactivation domain for p53 residing in amino acids 1-42. Strikingly, a variety of lung cancer derived p53 mutations occurring outside this domain disrupt this activity. Temperature sensitive conformational shifts of p53 mutant proteins to the wild type form exist and, with a temperature downshift, several mutants become transcriptionally active. Wild type p53 protein is known to form oligomers with mutant p53 and cotransfection of wild type and mutant genes shows that p53 acts in a transdominant manner that is independent of the DNA binding specificity. Transcription is either increased or decreased depending on whether the wild type is more or less abundant than the mutant form. Finally, lung cancers differ in their ability to support the transactivation related functions, providing evidence of other abnormalities of the p53 system in human cancer.
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PMID:p53: a transdominant regulator of transcription whose function is ablated by mutations occurring in human cancer. 131 65

Human papillomavirus type 16 (HPV16) E6 and E7 are selectively retained and expressed in HPV16-associated human genital tumors. E6 is active in several cell culture assays, including transformation of NIH 3T3 cells, trans activation of the adenovirus E2 promoter, and cooperation with E7 to immortalize normal human keratinocytes. Biochemically, the HPV16 E6 protein has been shown to bind to tumor suppressor protein p53 in vitro and induce its degradation in a rabbit reticulocyte lysate. To examine the relationship between the various biological activities of E6 and inactivation of p53, we tested the abilities of dominant negative mutants of p53 to substitute functionally for E6 in the three cell culture assays. While wild-type p53 inhibited keratinocyte proliferation, both mouse and human mutant p53s, in conjunction with E7, increased proliferation of the keratinocytes, resulting in generation of immortalized lines. However, in contrast to E6, mutant p53 was unable to induce transformation or trans activate the adenovirus E2 promoter in NIH 3T3 cells. These results suggest that inactivation of wild-type p53 is necessary for HPV-induced immortalization of human keratinocytes and that different or additional activities are required for E6-dependent transformation and trans activation of NIH 3T3 cells.
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PMID:Mutant p53 can substitute for human papillomavirus type 16 E6 in immortalization of human keratinocytes but does not have E6-associated trans-activation or transforming activity. 131 1

The E6 oncoproteins encoded by the cancer-associated human papillomaviruses (HPVs) can associate with and promote the degradation of wild-type p53 in vitro. To gain further insight into this process, the ability of HPV-16 E6 to complex with and promote the degradation of mutant forms of p53 was studied. A correlation between binding and the targeted degradation of p53 was established. Mutant p53 proteins that bound HPV-16 E6 were targeted for degradation, whereas those that did not complex HPV-16 E6 were not degraded. Since the HPV-16 E6-promoted degradation involves the ubiquitin-dependent proteolysis pathway, specific mutations were made in the amino terminus of p53 to examine whether the E6 targeted degradation involved the N-end rule pathway. No requirement for destabilizing amino acids at the N terminus of p53 was found, nor was evidence found that HPV-16 E6 could provide this determinant in trans, indicating that the N-terminal rule pathway is not involved in the E6-promoted degradation of p53.
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PMID:Interaction of the human papillomavirus type 16 E6 oncoprotein with wild-type and mutant human p53 proteins. 132 Dec 90

The p53 gene product has been implicated in both human and animal tumorigenesis. p53 forms heterologous complexes with the transforming proteins encoded by several different DNA tumor viruses. p53 also assembles into stable homo-oligomers. We demonstrate that the major structural determinant for the tetramerization of p53 is an alpha-helical plus basic region motif near the C-terminus of the protein. A monomeric p53 mutant adopts a conformation distinct from both 'wild-type' and 'mutant' form as defined by PAb1620 and PAb240 monoclonal antibody recognition. Nevertheless, monomeric and dimeric mutant p53 proteins retain the ability to suppress SV40 origin-directed DNA replication in vivo. Thus, p53-p53 interaction and expression of the PAb1620 epitope is not a prerequisite for such activity. We present data suggesting that suppression of replication by p53 may occur by a mechanism that is independent of detectable p53-T antigen association.
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PMID:A C-terminal alpha-helix plus basic region motif is the major structural determinant of p53 tetramerization. 132 1

Using immunoblotting techniques we studied the sera from small cell lung cancer and non-small cell lung cancer patients for antibodies directed against p53. We have also characterized the majority of these patients' tumors for p53 mutations. In the sera of 13% of the patients (4 of 40 small cell lung cancer and 2 of 6 non-small cell lung cancer) we found antibodies specific for the p53 tumor suppressor gene product. All of the antibody-positive patients tested had p53 missense mutations and expressed detectable p53 antigen in their tumor cell lines. No anti-p53 antibodies were detected in sera from patients whose tumor had p53 stop, splice/stop, splice, or frameshift mutations (n = 10). Thus, while we find that the ability of lung cancer patients to develop anti-p53 antibodies is correlated with the type of p53 mutation, many patients have tumors with missense p53 mutations and did not develop anti-p53 antibodies. The presence of p53 antibodies was not correlated to stage, prior treatment, sex, or survival. None of these lung cancer patient sera had measurable amounts of p53 antigen. By immunoblotting all six anti-p53 antisera we were able to detect a variety of mutant p53 proteins (including those from antibody-negative patients) and detected wild-type p53 protein. The development of anti-p53 antibodies represents an interesting model system for studying immune responses in cancer patients against mutant oncogene products.
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PMID:Development of antibodies against p53 in lung cancer patients appears to be dependent on the type of p53 mutation. 132 37

To further investigate the role of p53 gene inactivation in gastric tumorigenesis, the mutational status of the p53 gene in primary human gastric cancer samples was examined. Reverse transcriptase polymerase chain reaction and subsequent direct sequencing of the p53 gene from gastric cancer samples revealed frequent point mutations of the p53 gene: some of these coincided with those previously identified in gastric cancer cell lines. In addition, both allelic deletion analysis using pYNZ 22 and polymerase chain reaction-restriction fragment length polymorphism analysis demonstrated an allelic deletion of the p53 gene in cancer tissue which contained a point mutation of the p53 gene in the remaining allele. Transfection of the wild-type or mutant p53 genes into gastric cancer cells showed that the wild-type but none of the mutated p53 genes suppressed the colony formation of gastric cancer cells. Furthermore, the incorporation of thymidine into DNA was reduced in cancer cells expressing the wild-type p53 gene. The glutathione S-transferase-wild type p53 fusion protein bound to simian virus 40 large T antigen in COS-1 cell lysate. None of the p53 fusion proteins containing mutations at codons 143, 175, 248, or 273 bound to simian virus 40 large T antigen. By contrast, two different mutant p53 fusion proteins containing mutations specifically observed in gastric cancer bound to simian virus 40 large T antigen. These results indicate that inactivation of the p53 gene through mutations and the allelic deletion may play an important role in gastric tumorigenesis. These mutations may cause a conformational change in the p53 protein resulting in the loss of the suppression by p53 of the growth of gastric cells, partly through disruption of the association of p53 protein with a cellular component.
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PMID:p53 gene mutations in human gastric cancer: wild-type p53 but not mutant p53 suppresses growth of human gastric cancer cells. 132 85

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