Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:B6E4X6 (mutant p53)
 3,342 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cancer is a genetic disease caused by defective control of cell proliferation. As cancer cells divide, the genetic defect is inherited by each daughter cell, leading to tumour development with possible progression to malignancy. The identification of those genes linked with cancer is essential for our understanding of the regulation of cell proliferation and for the therapeutic management of cancer cell growth. Recent studies have revealed that p53 is the most commonly affected gene in human cancer. It is a single copy gene and functions in the regulation of cell proliferation. Mutation of p53 is linked with tumour development, and this may involve abnormal functioning of mutant p53 protein. A mutant allele of p53 is functionally temperature-sensitive and can promote or suppress cell proliferation. The tertiary structure of the mutant protein is also sensitive to temperature and adopts promoter and suppressor forms of p53. A conformation model for the functioning of p53 proposes that wild-type p53 is induced to change from suppressor to promoter form during the cell growth response. This model predicts that any mutation that deregulates the normal control of p53 conformation may lead to cancer.
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PMID:A conformation hypothesis for the suppressor and promoter functions of p53 in cell growth control and in cancer. 168 37

Point mutations in the p53 gene are the most frequently identified genetic change in human cancer. They convert murine p53 from a tumour suppressor gene into a dominant transforming oncogene able to immortalize primary cells and bring about full transformation in combination with an activated ras gene. In both the human and murine systems the mutations lie in regions of p53 conserved from man to Xenopus. We have developed a monoclonal antibody to p53 designated PAb240 which does not immunoprecipitate wild type p53. A series of different p53 mutants all react more strongly with PAb240 than with PAb246. The PAb240 reactive form of p53 cannot bind to SV40 large T antigen but does bind to HSP70. In contrast, the PAb246 form binds to T antigen but not to HSP70. PAb240 recognizes all forms of p53 when they are denatured. It reacts with all mammalian p53 and chicken p53 in immunoblots. We propose that immunoprecipitation of p53 by PAb240 is diagnostic of mutation in both murine and human systems and suggest that the different point mutations which convert p53 from a recessive to a dominant oncogene exert a common conformational effect on the protein. This conformational change abolishes T antigen binding and promotes self-oligomerization. These results are consistent with a dominant negative model where mutant p53 protein binds to and neutralizes the activity of p53 in the wild type conformation.
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PMID:Activating mutations in p53 produce a common conformational effect. A monoclonal antibody specific for the mutant form. 169 10

To study the mechanism of p53 involvement in malignant transformation, we compared the tumor development patterns induced by a parental p53 nonproducer pre-B cell line with those by cell lines generated from this parental cell line following transfection of either wild type or mutant p53. It was found that whereas mutant p53 facilitated tumor development, expression of wild type p53 restrained tumor development. Cell lines expressing the wild type p53 induced the development of faster regressing tumors than the parental cell line. The parental p53 nonproducer and the wild type p53 producer regressor tumors underwent in vivo cell differentiation, manifested as IgG production. Mutant p53, producer cell lines, on the other hand, failed to show any immunoglobulin synthesis and gave rise to highly proliferative lethal tumors. Our results support the conclusion that these pre-B cells develop regressor tumors because they have undergone differentiation. Whereas the wild type p53 facilitates this differentiation, mutant p53 cells block it. We suggest that, in addition to inactivating the growth-suppressive activity of wild type p53, the expression of mutant p53 facilitates malignant transformation.
Cancer Res 1991 Oct 01
PMID:Alterations in tumor development in vivo mediated by expression of wild type or mutant p53 proteins. 171 42

An invariant genetic lesion in mouse plasmacytomas is deregulated expression of c-myc as a consequence of chromosomal translocation. However, retroviral and transgenic studies suggest that additional genetic lesions may contribute to the genesis of plasmacytomas. The p53 tumor suppressor gene is a likely contributor to this genetic lesion, since there is a high incidence of p53 mutation in Burkitt's lymphomas and B-ALL (L3), both of which contain translocations involving c-myc analogous to those in plasmacytomas. In addition, p53 has been shown to be a transcriptional modulator of c-myc expression. In a survey of 27 mouse plasmacytomas by single-strand conformation polymorphism, we identified a single mutation (3.7% incidence), suggesting that p53 lesions are not frequent contributors to plasmacytomagenesis. A similar study of macrophage-monocyte tumors generated by a c-myc-containing retrovirus also indicates a lack of p53 involvement in deregulated c-myc expression. These results suggest that the specific maturation stage of transformed B-lymphocytes, independent of c-myc deregulation, may be the critical factor which determines the involvement of mutant p53.
Cancer Res 1992 Feb 15
PMID:Infrequent p53 mutation in mouse tumors with deregulated myc. 173 33

The tumour suppressor gene p53 has been found to be mutated or inactivated at high frequency in several common human tumours. We have examined a series of exocrine pancreatic carcinomas for over-expression of mutant forms of p53 by immunohistochemistry with a panel of specific antibodies. We found immunodetectable p53 in 13 of 22 (60%) frozen pancreatic cancers and seven of 13 pancreatic cell lines. One of the antibodies, CM1, recognises p53 in formalin-fixed, paraffin-embedded archival material and using this reagent we found immunodetectable p53 in 28 of 124 (23%) pancreatic cancers. We have successfully demonstrated the presence of point mutations by direct sequencing of genomic DNA extracted from archival tissue showing CM1 immunoreactivity. We conclude that p53 activation is an important event in human pancreatic tumorigenesis and that the CM1 antibody can detect a proportion of cases of overexpression of mutant p53 in archival pathological material.
Br J Cancer 1991 Dec
PMID:Abnormalities of the p53 tumour suppressor gene in human pancreatic cancer. 176 70

Mutations in the p53 tumor-suppressor gene have been implicated in the pathogenesis of a significant proportion of human cancers and in a dominantly inherited familial cancer syndrome (Li-Fraumeni syndrome). Frequent rearrangements and point mutations have also been detected in the p53 gene in the murine erythroleukemias induced by Friend leukemia virus. We have previously reported that transgenic mice overproducing a mutated p53 protein are predisposed to the development of lung carcinomas, bone and soft-tissue sarcomas, as well as lymphoid malignancies. Here we report that p53 transgenic mice infected with the polycythemia-inducing strain of Friend virus (FV-P) progress to the late stage of erythroleukemia more rapidly than do normal mice. In addition, Friend leukemic cell lines derived from p53 transgenic mice overproduce mutant p53 protein and show a high frequency of rearrangement of the ets-related Spi-1 oncogene, as previously reported in Friend cell lines derived from non-transgenic animals. These results suggest that the same genetic changes involved in the evolution of Friend leukemia in normal mice are also required in mice with an inherited predisposition to cancer. The data also indicate that p53 transgenic mice provide an animal model in which to analyse the role that genetic and environmental factors play in influencing cancer predisposition.
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PMID:p53 transgenic mice: accelerated erythroleukemia induction by Friend virus. 176 68

The nuclear phosphoprotein p53 is expressed in all normal cells and appears to function in cell cycle regulation. Abnormally high levels of the protein are found in many different types of cancer. In breast carcinoma overexpression of p53 is associated with point mutations within highly conserved regions of the p53 gene. These altered genes encode stable p53 proteins that can be detected by standard immunohistochemical techniques unable to detect rapidly degraded wild-type protein. The level of p53 expression in 184 primary breast cancer specimens was assessed by immunohistochemical analysis and related to the following established prognostic factors for breast cancer: age, stage, metastatic involvement, concentration of estrogen and progesterone receptors, proliferative index, and HER-2/neu overexpression. Fifty (27%) of these primary breast cancer specimens had widespread overexpression of p53. Highly significant associations were found between p53 overexpression and late stage, metastatic spread, and low concentration of progesterone receptors. The presence of elevated levels of mutant p53 may itself be a prognostic factor in human breast cancer and activation of this oncogene may be important in the ability of a tumor to metastasize.
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PMID:Relation between p53 overexpression and established prognostic factors in breast cancer. 185 36

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.
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PMID:Aberrant expression of the p53 oncoprotein is a common feature of a wide spectrum of human malignancies. 192 35

Mutant p53 has been noted in a variety of human malignancies including carcinomas of lung, breast, and colon, which have also been reported to have frequent karyotype anomalies involving the locus of the p53 gene (17p13). Whereas chromosomal abnormalities of chromosomes 1, 6, and 7 have been noted previously in melanoma, frequent aberrations in chromosome 17 have not been reported previously. Due to the common mutation of this locus in so many types of neoplasms, a range of melanomas from different stages of tumor progression were examined immunohistochemically for expression of mutant p53, in order to assess its prevalence and consider the role of this oncogene in the biological progression of melanoma. Forty-five of 53 (85%) specimens from a range of primary and metastatic melanomas were found to have detectable evidence of p53 gene mutation, by virtue of the immunohistochemical detection of mutant p53 protein. Significantly increased prevalence of mutant p53 was found in metastatic melanoma, compared with primary tumors (P less than 0.05). These findings represent one of the highest incidences of this oncogenic mutation yet recorded in a human malignancy and support the concept that p53 may have a functional role in development of the metastatic tumor phenotype.
Cancer Res 1991 Nov 01
PMID:Expression of mutant p53 in melanoma. 193 61

Familial cancer syndromes have helped to define the role of tumor suppressor genes in the development of cancer. The dominantly inherited Li-Fraumeni syndrome (LFS) is of particular interest because of the diversity of childhood and adult tumors that occur in affected individuals. The rarity and high mortality of LFS precluded formal linkage analysis. The alternative approach was to select the most plausible candidate gene. The tumor suppressor gene, p53, was studied because of previous indications that this gene is inactivated in the sporadic (nonfamilial) forms of most cancers that are associated with LFS. Germ line p53 mutations have been detected in all five LFS families analyzed. These mutations do not produce amounts of mutant p53 protein expected to exert a trans-dominant loss of function effect on wild-type p53 protein. The frequency of germ line p53 mutations can now be examined in additional families with LFS, and in other cancer patients and families with clinical features that might be attributed to the mutation.
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PMID:Germ line p53 mutations in a familial syndrome of breast cancer, sarcomas, and other neoplasms. 843 45


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