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)

Mutant forms of the p53 gene have been shown to cooperate with an activated ras gene in transforming primary cells in culture. The aberrant proteins encoded by p53 mutants are thought to act in a dominant negative manner in these assays. In vivo data, however, reveal that where p53 has undergone genetic change in tumors, both alleles have been affected. We previously identified a case of human acute myelogenous leukemia (AML) in which both alleles of the p53 gene had undergone independent missense mutations (at codons 135 cys to ser and 246 met to val). In these blasts, p53 mutations appear to be acting recessively. We have assayed the transforming potential of these p53 mutations, as well as that of another mutation at codon 273, also identified in a human neoplasm. Both mutations from the AML blasts (codon 135 and codon 246) confer transforming ability on the mutant protein. While transformation assays may define functionally different subsets of p53 mutations, the overexpression phenotype of mutants in this assay may not accurately reflect the pathological effects of p53 mutations in vivo.
J Cell Physiol 1991 Sep
PMID:Transforming activity of mutant human p53 alleles. 191 70

We have expressed wild-type and human tumour-derived mutant p53 cDNA genes in the fission yeast Schizosaccharomyces pombe. In the case of one mutant this resulted in a growth arrest of recipient yeast cells. In contrast, wild-type p53 and three other mutant proteins tested did not block outgrowth of colonies. Human and yeast cdc2 acted as functionally equivalent extragenic suppressors of the mutant-induced growth arrest allowing the establishment of viable p53 expressor strains. In cotransformation assays the mutant allele was found to be dominant over wt p53. Our results provide the first evidence of a functional relationship between p53 and p34cdc2 in an in-vivo system and suggest that the wide variety of mutant proteins present in human tumours may fall into functionally distinct subclasses.
Oncogene 1991 Sep
PMID:A human tumour-derived mutant p53 protein induces a p34cdc2 reversible growth arrest in fission yeast. 192 20

Patterns of p53 expression were investigated in chemically induced fibrosarcoma tumors and cell lines. Most, if not all, cell lines were found to carry alterations at the protein level, reflected in the overproduction of greatly stabilized p53 proteins. In many cases, this was accompanied by formation of complexes with hsc70. Hence, all of these lines may be expressing one sort or another of mutant p53. The mutant nature of the p53 gene was directly verified, in a number of cases, by PCR-amplified cDNA cloning. In one line, no p53 protein was made at all; this turned out to be because of a mutation in a splice donor site, resulting in the production of an aberrant mRNA. In all other cases, mRNAs carrying mis-sense mutations were present, and were sometimes expressed along with wt p53 mRNA. When tested in an in vitro transformation assay, all cloned mutants possessed a discrete oncogenic activity, while having lost the ability to interfere with oncogene-mediated transformation. The system described here could potentially be very helpful in elucidating the significance of p53 mutations.
Oncogene 1991 Sep
PMID:Frequent p53 mutations in chemically induced murine fibrosarcoma. 192 26

The status of the p53 gene in lymphoblastoid cell lines (LCLs) and Burkitt lymphoma cell lines (BLs) was investigated. Southern blot analysis demonstrated that no major deletions or rearrangements had occurred in the p53 gene in any of the cell lines. The p53 protein was examined by immunoprecipitation using two monoclonal anti-p53 antibodies. PAb1801 recognizes both wild-type and mutant p53. PAb240 reacts exclusively with mutant p53. Fourteen LCLs reacted with PAb1801, but not with PAb240, suggesting that none of them expressed mutant p53. However, one LCL had mutant p53. This LCL differs from other LCLs in that it grows to higher cell densities and has a higher agarose clonability. All BLs expressed p53. Out of 15 BLs, nine (60%) carried mutant p53, as indicated by their reactivity with PAb240. Among the nine BLs with mutant p53, eight Epstein-Barr virus (EBV)-positive. Three out of the six BLs with wild-type p53 were EBV-positive. Multiple EBV-converted sublines all exhibited the same p53 status as the parental line. Our results indicate that the p53 gene is mutated in a majority of Burkitt lymphoma cell lines (BLs), and suggest that p53 mutation contributes to the malignant phenotype of these cell lines.
Oncogene 1991 Sep
PMID:Mutant p53 detected in a majority of Burkitt lymphoma cell lines by monoclonal antibody PAb240. 192 30

Using a combination of polymerase chain reaction and single-strand conformation polymorphism techniques we analyzed 34 ovarian cancer samples (30 primary tumors and four matched metastases) for the presence of mutations in exons 5, 6, 7, 8 and 9 of the p53 gene. Mutations in this portion of the gene are known to lead to the loss of the oncosuppressive potential of p53. Thirty-six percent (11/30) of the ovarian carcinomas tested presented a mutated p53 allele. Mutations were clustered in exons 5 and 7 to the exclusion of the other exons screened. Most mutations (10/11) were point mutations, but no preferential pattern of nucleotide substitution could be observed. In three tumors the mutation of one allele was concomitant with the loss of the wild-type counterpart. Another sample presented both alleles independently mutated. These observations are in agreement with the recessive nature of the p53 mutation. However, analysis of tissue sections from two tumors showed that the portion composed of 100% cancer cells could hold both the mutated and the wild-type form. Moreover analysis of serial sections gave evidence of a heterogeneous cellular content in one of these tumors, suggesting that p53 mutations may, in some cases, occur late during ovarian cancer evolution. It is, moreover, noticeable that, in matched sets of primary tumors and metastases, the same mutation was observed in both tumor samples. Therefore, even as a late event, p53 mutation occurs before metastatic spread.
Oncogene 1991 Sep
PMID:p53 mutations in ovarian cancer: a late event? 192 32

This report describes a rare polymorphism at codon 213 (silent alteration of CGA to CGG) within the coding region of the p53 gene. The rare polymorphic allele was present in six cases out of 189 lung and breast cancer DNAs analyzed (3.2%) and resulted in the loss of a TaqI site. This allele could be mistaken for a mutation when screening methods of mutation analysis are used without comparison with normal tissue DNA.
Oncogene 1991 Sep
PMID:Polymorphism at codon 213 within the p53 gene. 192 33

The p53 gene has been implicated as a tumour suppressor, with mutations occurring in many carcinomas, such as colon, breast and lung. We have sequenced exons 5, 7 and 8 containing conserved gene regions in the only available differentiated thyroid follicular carcinoma cell line and found a mutation at position 273, Arg----His, with no normal allele present. The same mutation was also present in DNA from the tumour of origin. However immunohistochemical analysis of 129 human thyroid tumours using a panel of p53 antibodies was unequivocally negative. Southern blotting in 20 cases failed to demonstrate any deletion or rearrangement, and direct genomic sequencing of 20 carcinomas showed normal DNA sequence for exons 5, 7 and 8. Thus p53 abnormalities may not be important in human thyroid carcinogenesis, in contrast to colon, breast and lung. However, the FTC 133 cell line was only established after 132 unsuccessful attempts with other differentiated thyroid follicular tumours. Since this line and the corresponding tumour of origin have a p53 mutation, we propose that p53 mutation may confer on thyroid follicular tumour cells the ability to grow in culture. This has potential applications for the future development of thyroid carcinoma cell lines.
Oncogene 1991 Sep
PMID:Mutation of the p53 gene in a differentiated human thyroid carcinoma cell line, but not in primary thyroid tumours. 192 34

Accumulation of the p53 protein was analysed in 212 human malignant lesions. Immunohistochemical staining with new polyclonal (CM-1) and monoclonal antibodies (BP 53-12 and BP53-24) to p53 on methacarn-fixed paraffin sections showed positive staining in 161 (76%). The positive tumours were found across a wide range of human malignancies including breast, colon, stomach, bladder and testis carcinomas, soft-tissue sarcomas and melanomas. The staining was always confined to the malignant lesion. Immunoprecipitation and quantitative ELISA assays established that the positive staining was associated with accumulation of the protein and that the protein was frequently in a mutant conformation. Accumulation of mutant p53 protein is therefore a common feature of human malignant disease.
Oncogene 1991 Sep
PMID:Aberrant expression of the p53 oncoprotein is a common feature of a wide spectrum of human malignancies. 192 35

Abnormality of tumor suppressor gene p53 is supposed to be associated deeply with colon carcinogenesis. We have examined the aberrant expression of the p53 protein in human colorectal cancer or adenomatous tissues immunohistochemically using monoclonal antibody PAb 1801. In microwave-fixed colorectal tissues, p53 was successfully detected in more than 60% of carcinomas. Specific signal for p53 was restricted in the nuclei of cancer cells, while no staining was observed in adjacent normal mucosa. The incidence of p53 expression in colorectal carcinomas was not affected by pathological features such as tumor size, histological grade, nor depth of invasion. In about 10% of colorectal adenomas, weak signal was detected in a few adenomatous glands. Heat shock protein of 72 kDa (HSP72), known to form complex with the mutant-type of p53 in tumor cells, was also detected immunohistochemically in 25% of p53-positive cases. In these cases, high incidence of lymphnodal or distant metastasis was observed, which suggests that expression of both p53 and HSP72 may indicated biological malignancy of the colorectal carcinomas.
Nihon Geka Gakkai Zasshi 1991 Sep
PMID:[Expression of P53 and heat shock protein in colorectal tumors: an immunohistochemical study]. 194 62

The DNA of paired tumour and blood leucocyte samples from a large series of breast cancer patients was analysed to map regions of loss of heterozygosity on chromosome 17. The high frequency of loss of heterozygosity on 17p was confirmed, and a third of informative tumours had also lost an allele at the long arm locus THH59. On the short arm two distinct regions of loss of heterozygosity were identified, in bands p13-3 and p13-1. The latter probably involves the structural gene p53, which has been implicated as an oncogene or as a tumour suppressor in various human cancers. 17p 13-3, however, showed a significantly higher frequency of loss of heterozygosity, and there was no correlation between allele losses at the two sites. Nevertheless, loss of heterozygosity at 17p 13-3 is associated with overexpression of p53 mRNA, suggesting the existence of a gene some 20 megabases telomeric of p53 that regulates its expression. Lesions of this regulatory gene seem to be involved in the majority of breast cancers.
Lancet 1990 Sep 29
PMID:Evidence implicating at least two genes on chromosome 17p in breast carcinogenesis. 197 43


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