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)

Alterations in the tumor suppressor gene p53 are the most commonly identified changes in cancer, including neoplasia of the breast. The activity of p53 is regulated post-translationally. Phosphorylation state, subcellular localization, and interaction with any of a number of cellular proteins are likely to influence the function of p53. The exact effect of p53-mediated growth suppression seems to be cell-type specific but appears to be directly related to the ability of p53 to act as a specific transcriptional activator. The role that transcriptional repression plays in the function of WT p53 is less clear. It is also possible that p53 has a more direct activity in DNA replication and repair. Most documented p53 mutations result in single amino acid substitutions which may confer one or more of a spectrum of transforming abilities on the protein. Mutation may lead to nuclear accumulation of p53 protein; however, inactivation of p53 by nuclear exclusion and interaction with the mdm2 protein also appear to be important in tumorigenesis. Used in conjunction with other established factors, accumulation of cellular p53 may be a useful prognostic indicator in breast cancer. A syngeneic mouse model system yielded evidence that p53 mutations are important in the early, preneoplastic stages of mammary tumorigenesis. This murine system may provide the ability to investigate the functions of p53 in the early stages of breast cancer which are technically difficult to examine in the human system.
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PMID:Tumor suppressor p53 mutations and breast cancer: a critical analysis. 779 21

Overexpression of the mdm2 protooncogene protein, which can lead to the inactivation of normal p53, has been observed in some human cancers. The mdm2 gene is positively regulated by p53, providing for a feedback loop in the control of both p53 and mdm2 activity. The expression of the mdm2 and p53 proteins in different non-small cell lung carcinoma (NSCLC) cell types harboring wild-type or mutant p53, or lacking p53 altogether, were investigated to determine whether a correlation exists between the expression of these two proteins. The mdm2 protein was expressed at very low levels in all NSCLC lines examined, regardless of the p53 status. To determine whether mdm2 could be induced by p53 in NSCLC, NSCLC cells were transfected with a recombinant adenovirus expressing high levels of wild-type p53. The highest levels of exogenous wild-type p53 were observed in p53-null H358 and H1299 cells and in H226b cells expressing endogenous wild-type p53 were observed in p53-null H358 and H1299 cells and in H226b cells expressing endogenous wild-type p53. In these cells, wild-type p53 induced the expression of 90/92K M(r) mdm2 proteins, as well as several faster-migrating mdm2-related species exhibiting relative mobilities of 76/78K, 57/59K, 46K, 28K, and 12K. Northern analyses of H358 and H1299 cells transfected with wild-type p53 showed that these cells expressed three species of mdm2 mRNA of 5.5, 4.6-3.8, and 2.1 Kb in size. Subcellular fractionation revealed that the 90/92K M(r) mdm2 protein species was localized to both the crude plasma membrane/cytoplasmic and nuclear fractions, and that the smaller mdm2 proteins associated selectively with different nuclear substructures. The 76/78K, 57/59K, and 46K Mr(r) mdm2 proteins may be derived by differential splicing of the 5.5 Kb mRNA, and their differential compartmentalization within the nucleus suggests that each has a distinct function, potentially in the regulation of p53 and other gene products.
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PMID:Selective compartmentalization of different mdm2 proteins within the nucleus. 787 79

This study investigates the mdm2 gene status and expression in 66 surgically resected human breast carcinomas, with correlations with clinico-pathological and biological data (histological type, grading, steroid receptor status, p53 expression, proliferative activity). Four (7.7 per cent) out of 52 informative cases bear mdm2 gene amplification (four-to ten-fold) and 8 (15.4 per cent) of 52 cases showed borderline amplification (three-fold). Nine (13.6 per cent) out of 66 cases showed strong mdm2 nuclear immunoreactivity. Twenty-seven (40.9 per cent) cases showed isolated mdm2 reactive nuclei. All cases with clear amplification showed a high percentage of mdm2 immunoreactive nuclei. The relationship between gene amplification and mdm2 protein expression is highly significant (P < 0.0001). No association was observed between mdm2 gene amplification and any of the considered clinico-pathological and biological parameters, while mdm2 immunoreactivity showed a significant association only with oestrogen receptor immunoreactivity (P = 0.009). p53 expression was associated neither with mdm2 gene amplification nor with mdm2 immunoreactivity. It could be tempting to hypothesize that the evaluation of the combined mdm2/p53 immunohistochemical phenotype in human breast carcinoma could give us better prognostic information than the evaluation of the expression of the p53 protein alone.
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PMID:mdm2 gene alterations and mdm2 protein expression in breast carcinomas. 789 Dec 24

Multistep lymphomagenesis involves the deregulation of oncogenes and inactivation of tumor suppressor genes resulting in altered rates of proliferation as well as apoptotic cell death in tumor cells. The contribution of bcl-2 and p53 to the regulation of cell death during lymphomagenesis is assessed using bcl-2-1g, p53 'knock-out' (p53 KO), and p53 KO/bcl-2 hybrid mice. PCR-SSCP and DNA sequence analysis demonstrated that p53 somatic mutations are uncommon in lymphomas arising in bcl-2-Ig transgenic mice. Reduction in tumor latency was not observed in p53 KO/bcl-2 hybrid mice compared to p53 KO mice. Furthermore, overexpressed bcl-2 suppressed wild-type p53 associated apoptosis following gamma-radiation. These findings indicate that bcl-2 and p53 serve a suppressor and effector function, respectively, of a common cell death pathway. These findings also suggest that p53 somatic mutations provide no selective advantage during in vivo multistep lymphomagenesis in the context of bcl-2 gene deregulation.
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PMID:Evidence that p53 and bcl-2 are regulators of a common cell death pathway important for in vivo lymphomagenesis. 793 33

The cellular mdm2 gene, which has potential transforming activity that can be activated by overexpression, is amplified in a significant percentage of human sarcomas and in other mammalian tumors. Proteins encoded by the mdm2 gene can bind to, and inhibit the function of, the protein product of the p53 tumor suppressor gene. As reported here, we have identified human choriocarcinoma cell lines that express high levels of mdm2 proteins as well as the p53 protein. Several lines of evidence demonstrate that the p53 in these tumor cells has a wild-type nucleotide sequence, although the protein exhibits an extended half-life. Further, the more than 100-fold overexpression of mdm2 proteins in these cells cannot be explained by gene amplification, elevated RNA expression, or altered protein stability; rather our data indicate that elevated mdm2 protein levels in these choriocarcinoma cell lines result from enhanced translation. This mechanism has not previously been implicated in the regulation of mdm2 gene expression, and it represents a novel means by which the potential transforming activity of the mdm2 oncogene could be activated.
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PMID:Enhanced translation: a novel mechanism of mdm2 oncogene overexpression identified in human tumor cells. 805 41

Amplification of cellular oncogenes may be important for the development and progression of malignant tumors. In human sarcomas, amplification of several genes located to the q13-14 region of chromosome 12 has been reported. Because the mdm2 protein seems to inactivate the tumor suppressor protein p53, a selective growth advantage of 12q13-14 amplification has previously been assigned to increased copy number and expression of the MDM2 gene. We have analyzed a panel of 98 human sarcomas of different subtypes to characterize the 12q13-14 amplica and determine which of the genes GLI, A2MR, SAS, MDM2, and GADD153 (CHOP) in this region was most consistently amplified. MDM2 was amplified in 9 of the tumors, SAS in 10, GADD153 in 4, GLI in 2, and A2MR in 2. Amplification was, in most cases, associated with increased expression of the corresponding gene. SAS and MDM2 were coamplified in 8 of the tumors, whereas GADD153, GLI, and A2MR were only amplified together with SAS. One liposarcoma showed amplification of MDM2 alone, whereas two osteosarcomas and a rhabdomyosarcoma cell line showed amplification of SAS and GADD153 (CHOP) but not MDM2. It is suggested that the selective target for these amplica may be an as yet unidentified gene localized between SAS and MDM2.
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PMID:Mapping of amplification units in the q13-14 region of chromosome 12 in human sarcomas: some amplica do not include MDM2. 811 20

Wild-type human p53 protein is able to self-associate and consists predominantly of homotetramers in solution. In earlier work we identified the protein sequence motifs involved in p53 quaternary structure and showed that while monomeric p53 protein retains tumour suppressor function, monomeric tumour mutant p53 lacks dominant transforming activity. In this report we use point mutated and truncated cDNA genes encoding self-association defective human p53 proteins to investigate the relationship between p53 protein quaternary structure and the associated activities of transcription transactivation and target specific DNA binding. We show that p53 binds to a target oligonucleotide as a protein homodimer and that p53 dimerisation is required for detectable DNA binding. We found no evidence for p53 tetramer: DNA complexes and we suggest that the quaternary structure status of p53 may regulate a DNA binding associated activity. Monomeric p53 proteins failed to bind DNA in these assays but exhibited increased transactivating activity. Thus, both transcription transactivation and tumour suppressor functions act independently of p53 protein self-association and DNA binding. We propose that our results validate the p53 dimerisation motif as a target for rational anticancer drug design. We predict that compounds able to block p53 dimer assembly would inhibit the dominant transforming activities of mutant p53 in tumours retaining expression of a mutant allele, while leaving intact the wild-type p53 associated activities of transcription transactivation and transformation suppression in unaffected tissue.
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PMID:Human p53 binds DNA as a protein homodimer but monomeric variants retain full transcription transactivation activity. 841 20

Expression of a p53-associated protein, Mdm-2 (murine double minute-2), can inhibit p53-mediated transactivation. In this study, overexpression of the Mdm-2 protein was found to result in the immortalization of primary rat embryo fibroblasts (REFs) and, in conjunction with an activated ras gene, in the transformation of REFs. The effect of wild-type p53 on the transforming properties of mdm-2 was determined by transfecting REFs with ras, mdm-2, and normal p53 genes. Transfection with ras plus mdm-2 plus wild-type p53 resulted in a 50% reduction in the number of transformed foci (relative to the level for ras plus mdm-2); however, more than half (9 of 17) of the cell lines derived from these foci expressed low levels of a murine p53 protein with the characteristics of a wild-type p53. These results are in contrast to previous studies which demonstrated that even minimal levels of wild-type p53 are not tolerated in cells transformed by ras plus myc, E1A, or mutant p53. The mdm-2 oncogene can overcome the previously demonstrated growth-suppressive properties of p53.
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PMID:The mdm-2 oncogene can overcome wild-type p53 suppression of transformed cell growth. 841 33

We have recently characterized a 95 kDa protein, p95, which exhibits enhanced binding to temperature-sensitive p53 (ts-p53) when cells are shifted down to 32.5 degrees C, a temperature at which ts-p53 possesses wild-type (wt)-like activities. In the present study we show that p95 is a product of the mdm2 putative proto-oncogene. The enhanced complex formation of mdm2 with ts-p53 in cells maintained at 32.5 degrees C is due to an elevation in total mdm2 protein levels following the temperature shift. We further demonstrate that the induction of mdm2 expression by t p53 activity is at the mRNA level. The induction occurs with very rapid kinetics and does not require de novo protein synthesis, suggesting a direct involvement of p53 in the process. Based on these data and on recent findings implicating p53 as a transcription factor, we suggest that the mdm2 gene is a target for activation by wt p53. In view of the ability of mdm2 to act as a specific antagonist of p53 activity, this induction process may serve to tightly autoregulate p53 activity in living cells.
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PMID:mdm2 expression is induced by wild type p53 activity. 844 Feb 37

Previous immunohistochemical studies on malignant mesothelioma with antibodies recognizing both the wild and the mutant types of the p53 protein have shown immunoreactivity in 25-70% of cases. This study was designed to determine whether there is immunoreactivity for p53 and mdm2 protein in malignant mesothelioma and to correlate p53 expression with the detection of mutations in p53 at DNA level. In 10 of 15 cases there was immunoreactivity for p53. In 6 of these cases immunoreactivity for mdm2 was also detected. In one p53-immunonegative case, a mutation of the p53 gene resulting in a stop codon was found. These results suggest that mdm2 might be involved in the inhibition of p53 in malignant mesothelioma. Also, these data suggest the existence of other proteins than mdm2 that may associate with p53.
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PMID:Immunoreactivity for p53 and mdm2 and the detection of p53 mutations in human malignant mesothelioma. 854 29

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