Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The alternatively spliced RNA species of tumor suppressor gene p53, containing an additional 96 bases derived from intron 10, is present at approximately 25 to 30% the level of regularly spliced p53 RNA in both normal epidermal and carcinoma cells. The presence of this alternatively spliced RNA in 10T1/2 fibroblast cells, mouse liver and testis suggests that this alternative splicing may be universal. The level of alternatively spliced p53 RNA was increased coordinately with that of regularly spliced p53 in 10T1/2 cells in response to epidermal growth factor. Immunoprecipitation analysis of epidermal cells using monoclonal antibodies which recognize different epitopes of p53 suggested that distinct p53 proteins may be translated from both RNA species. Considering previous observations on the potential importance of carboxyl terminal sequences in p53 function, knowledge of the ubiquitous presence of alternatively spliced p53 is important for future studies of p53 function in normal cells and in oncogenesis.
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PMID:Alternatively spliced p53 RNA in transformed and normal cells of different tissue types. 157

Mutant forms of the gene encoding the tumor suppressor p53 are found in numerous human malignancies, but the physiologic function of p53 and the effects of mutations on this function are unknown. The p53 protein binds DNA in a sequence-specific manner and thus may regulate gene transcription. Cotransfection experiments showed that wild-type p53 activated the expression of genes adjacent to a p53 DNA binding site. The level of activation correlated with DNA binding in vitro. Oncogenic forms of p53 lost this activity. Moreover, all mutants inhibited the activity of coexpressed wild-type p53, providing a basis for the selection of such mutants during tumorigenesis.
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PMID:Oncogenic forms of p53 inhibit p53-regulated gene expression. 158 64

In the past year we have witnessed significant progress in understanding the molecular basis of cancerogenesis and in identifying the genetic determinants of susceptibility to cancer. In particular, the finding that the same tumor suppressor genes play a pathogenic role in both the inherited and the sporadic forms of some childhood tumors has suggested that this gene class may also be involved in adult tumors derived from inherited familial cancer syndromes. The identification of the gene defect underlying the Li-Fraumeni syndrome, a germline mutation of the tumor suppressor gene p53, has fully confirmed that suggestion. Three other genes associated with the inherited cancer syndromes neurofibromatosis type I (NF-1) and familial adenomatous polyposis have been cloned and partially characterized. In addition to these genes, which have a relatively high penetrance and contribute directly to tumorigenesis, other genes that lead to cancer as a secondary effect seem to act in determining an individual's overall cancer risk. The latter genes are most likely related to defective processes of DNA repair or to regulation of carcinogen metabolism. In this context the analysis of models of murine strains with different genetic susceptibility to cancer of various organs may be a useful tool for unveiling the genetic basis for cancer susceptibility in individuals.
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PMID:Genetics and cancer. 159 Dec 84

Despite extensive data linking mutations in the p53 gene to human tumorigenesis, little is known about the cellular regulators and mediators of p53 function. MDM2 is a strong candidate for one such cellular protein; the MDM2 gene was originally identified by virtue of its amplification in a spontaneously transformed derivative of mouse BALB/c cells and the MDM2 protein subsequently shown to bind to p53 in rat cells transfected with p53 genes. To determine whether MDM2 plays a role in human cancer, we have cloned the human MDM2 gene. Here we show that recombinant-derived human MDM2 protein binds human p53 in vitro, and we use MDM2 clones to localize the human MDM2 gene to chromosome 12q13-14. Because this chromosomal position appears to be altered in many sarcomas, we looked for changes in human MDM2 in such cancers. The gene was amplified in over a third of 47 sarcomas, including common bone and soft tissue forms. These results are consistent with the hypothesis that MDM2 binds to p53, and that amplification of MDM2 in sarcomas leads to escape from p53-regulated growth control. This mechanism of tumorigenesis parallels that for virally-induced tumours, in which viral oncogene products bind to and functionally inactivate p53.
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PMID:Amplification of a gene encoding a p53-associated protein in human sarcomas. 161 22

Genetic analyses of unusual hereditary cancers and of common neoplasms suggest that tumorigenesis proceeds through a series of genetic alterations involving oncogenes and tumor-suppressor genes. Such genes can be viewed as tumor-susceptibility genes, and DNA tests that examine them might be useful in determining an increased risk of cancer development before the onset of a tumor. Indeed, DNA tests have already proved useful in the genetic counseling of families with an increased risk of rare inherited diseases such as retinoblastoma, multiple endocrine neoplasia type 2a, or Li-Fraumeni syndrome. The current investigation of these familial disorders is enabling the development of expertise, reagents, and methods that will eventually focus on the most common cancers. In assessing risk for these common tumors, several genes will probably require study to achieve more accurate prediction of cancer risk. For example, genetic abnormalities of the ras oncogene and of either the retinoblastoma gene (Rb) or the p53 tumor-suppressor gene have been found in many tumors and appear to be particularly important in the study of individuals at increased risk of lung, breast, or colon cancers. In addition, the study of tumor-associated markers that might already be detectable in the preneoplastic state can be carried out in parallel with tests that search for evidence of mutations in tumor-susceptibility genes. Finally, both classes of markers might be complementary in genetic counseling or screening of populations at increased risk. However, the capacity for detecting tumor-susceptibility markers creates a responsibility for the physician in terms of the proper use of this information.
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PMID:Tumor-susceptibility markers. 161 94

Mutations of the p53 tumour suppressor gene have frequently been observed in several types of solid tumours and are believed to be implicated in the development of these tumours. To determine the relevance of p53 mutations in haematologic neoplasms, we performed polymerase chain reaction-single strand conformation polymorphism analysis on the p53 gene in 45 patients with various types of haematologic neoplasms. In exons 5-8 containing highly conserved regions, mobility shifts indicating sequence alterations were detected in four of the 45 patients, and subsequent sequencing was performed. A point mutation resulting in a novel stop codon was detected at codon 213 in one of 23 cases of chronic myelogenous leukaemia (one of five cases of blast crisis). Point mutations causing amino acid substitutions were detected in one of four cases of myelodysplastic syndrome at codon 195, one of three cases of adult T-cell leukaemia at codon 281, and one of eight cases of acute lymphoblastic leukaemia at codon 281, and these missense mutations were accompanied by loss of the wild type allele. Patients harbouring these nonsense and missense mutations were in advanced disease stages. These findings suggest that mutational inactivation of the p53 gene is infrequent but is involved in the tumorigenesis of several types of haematologic neoplasms at least in some cases.
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PMID:Mutations of the p53 tumour suppressor gene in haematologic neoplasms. 848 63

The aberrant overexpression of interleukin 6 (IL-6) is implicated as an autocrine mechanism in the enhanced proliferation of the neoplastic cell elements in various B- and T-cell malignancies and in some carcinomas and sarcomas; many of these neoplasms have been shown to be associated with a mutated p53 gene. The possibility that wild-type (wt) p53, a nuclear tumor-suppressor protein, but not its transforming mutants might serve to repress IL-6 gene expression was investigated in HeLa cells. We transiently cotransfected these cells with constitutive cytomegalovirus (CMV) enhancer/promoter expression plasmids overproducing wt or mutant human or murine p53 and with appropriate chloramphenicol acetyltransferase (CAT) reporter plasmids containing the promoter elements of human IL-6, c-fos, or beta-actin genes or of porcine major histocompatibility complex (MHC) class I gene in pN-38 to evaluate the effect of the various p53 species on these promoters. Murine and human wt p53 derived from pCMVNc9 and pC53-SN3, respectively, strongly repressed the IL-6 (promoter position -225 to +13), c-fos (-711 to +42), beta-actin (-3400 to +912), and MHC (-528 to -38) promoters in serum-induced HeLa cells; additionally, IL-6 promoter/CAT transcription unit constructs induced by IL-1, phorbol ester, or pseudorabies virus were also repressed by wt human and murine p53. The murine transforming mutant p53 (pCMVc5) was less active in repressing the IL-6, c-fos, beta-actin, and MHC promoter constructs. The human p53 mutant derived from pC53-SCX3 was also less active than the wt protein in repressing the IL-6, c-fos, beta-actin, and MHC promoters, except that serum-induced IL-6/CAT expression was equally repressed by both human wt and mutant p53. In similar transient transfection experiments in HeLa cells, overexpression of the wt human retinoblastoma susceptibility gene product, RB, was found to repress the serum-induced IL-6 (-225 to +13), c-fos (-711 to +42), and beta-actin (-3400 to +912) promoters but not the PRV-induced IL-6 (-110 to +13) or the serum-induced MHC (-528 to -38) promoters. These observations identify transcriptional repression as a property of p53 and suggest that p53 and RB may be involved as transcriptional repressors in modulating IL-6 gene expression during cellular differentiation and oncogenesis.
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PMID:Repression of the interleukin 6 gene promoter by p53 and the retinoblastoma susceptibility gene product. 165 55

We have shown previously that introduction of the human papillomavirus type 16 (HPV16) or HPV18 genome into human mammary epithelial cells induces their immortalization. These immortalized cells have reduced growth factor requirements. We report here that transfection with a single HPV16 gene E6 is sufficient to immortalize these cells and reduce their growth factor requirements. The RB protein is normal in these cells, but the p53 protein is sharply reduced, as shown by immunoprecipitation with anti-p53 antibody (pAB 421). We infer that the E6 protein reduces the p53 protein perhaps by signalling its destruction by the ubiquitin system. The HPV-transforming gene E7 was unable to immortalize human mammary epithelial cells. Thus, cell-specific factors may determine which viral oncogene plays a major role in oncogenesis.
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PMID:Loss of p53 protein in human papillomavirus type 16 E6-immortalized human mammary epithelial cells. 165 67

Loss of tumor suppressor genes is involved in the mechanism of tumorigenesis of many solid tumors. We tested 9 hepatitis B virus (HBV)-positive and 10 HBV-negative hepatocellular carcinomas for loss of somatic heterozygosity using 14 polymorphic probes mapping to chromosomes 4, 11, 13, and 17. Losses were found on all chromosome arms tested. The highest frequency of loss was observed at the D13S1 locus (67%) at band 13q12. Losses were also observed at three other loci on 13q. Twenty-one % of informative cases showed loss on 17p using the probe pYNZ22 which maps near the p53 locus. Losses on 4q were infrequent with 17% found at one locus and no loss at two others. The retinoblastoma gene and the locus on 17p were only inactivated in our HBV-negative tumors, although the numbers were too small for statistical significance. For all loci tested, we found no significant differences in the frequency of losses with HBV status, ethnic background, cirrhosis, grade of tumor, or presence of hemochromatosis.
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PMID:Loss of somatic heterozygosity in hepatocellular carcinoma. 167 14

Osteosarcoma tumorigenesis is consistent with a model by which tumorigenesis results if both alleles at the retinoblastoma susceptibility locus (RBI) are altered. Additional genetic evidence strongly suggests that another obligate event in osteosarcoma tumorigenesis is the homozygous alteration of another gene, p53. Both the RB1 gene and p53 have been proposed to act as tumor-suppressor genes, suggesting that, in this instance, tumorigenesis is the result of the loss of gene function of these two genes, rather than a gain of function.
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PMID:Molecular genetic considerations in osteosarcoma. 167 82


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