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:B6E4X6 (mutant p53)
3,342 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Germline transmission of mutant p53 gene in cancer-prone families with Li-Fraumeni syndrome has revealed a new role for p53 in the genetic predisposition to cancer. The studies reported here focus on the analysis of the expression of normal and mutant p53 RNA and protein in germline configuration and demonstrate that normal skin fibroblasts derived from members of a family with Li-Fraumeni syndrome express mutant p53Gly----Asp(245) protein and RNA at levels similar to the wild-type p53. Thus, these fibroblasts represent a unique biological system in which endogenous promoters are utilized for the expression of both mutant and normal p53. We have further extended the earlier observations on the analysis of mutant p53 with a limited number of tumors derived from individuals with Li-Fraumeni syndrome. Tumors arising from two different germ layers in four individuals in a single family clearly exhibited the loss of the wild-type allele and the retention of the mutant allele observed in the normal skin fibroblasts derived from the same individuals. These observations further support the notion that germline p53 mutation plays a key role in the tumorigenesis of individuals with Li-Fraumeni syndrome.
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PMID:Detection of both mutant and wild-type p53 protein in normal skin fibroblasts and demonstration of a shared 'second hit' on p53 in diverse tumors from a cancer-prone family with Li-Fraumeni syndrome. 137 81

Wild-type p53 protein was shown to bind specifically to DNA sequences within SV40 (Bargonetti et al. 1991), the human ribosomal gene cluster (RGC) (Kern et al. 1991a), and the murine muscle creatine kinase gene (MCK) (Zambetti et al. 1992). However, a direct comparison of these three sites was not performed. Here we demonstrate, by filter binding and gel mobility-shift assays, that wild-type p53 binds with similar affinities to MCK and RGC sites but less tightly to the SV40 site. We examined the effects of two candidate regulators of p53 function, SV40 large T antigen and oncogenic mutant p53, on the binding of wild-type p53 to RGC DNA. We show that wild-type T antigen prevents p53 from binding to the RGC site under all conditions tested. Moreover, two temperature-sensitive mutant SV40 T antigens, which fail to transform cells at the nonpermissive temperature, prevent p53 from binding to the RGC site at the permissive, but not at the restrictive, temperature. The ability of complexes containing wild-type p53 and tumor-derived mutant p53 proteins to bind to RGC DNA varies according to the position of the mutation. Complexes containing wild-type and either his175 or his273 mutant p53 proteins are completely unable to bind to the RGC DNA sequence. Interestingly, a complex containing wild-type p53 and the trp248 mutant p53 characteristic of Li-Fraumeni syndrome patients displays nearly wild-type levels of binding. Perhaps this mutant allele can be tolerated in these individuals because the wild-type mutant p53 complex maintains the ability to bind to DNA. Our data indicate that the oncogenic potential of both T antigen and some mutant p53 proteins is the result of their ability to block binding of wild-type p53 to DNA.
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PMID:Site-specific binding of wild-type p53 to cellular DNA is inhibited by SV40 T antigen and mutant p53. 139 68

Loss of cell cycle control and acquisition of chromosomal rearrangements such as gene amplification often occur during tumor progression, suggesting that they may be correlated. We show here that the wild-type p53 allele is lost when fibroblasts from patients with the Li-Fraumeni syndrome (LFS) are passaged in vitro. Normal and LFS cells containing wild-type p53 arrested in G1 when challenged with the uridine biosynthesis inhibitor PALA and did not undergo PALA-selected gene amplification. The converse occurred in cells lacking wild-type p53 expression. Expression of wild-type p53 in transformants of immortal and tumor cells containing mutant p53 alleles restored G1 control and reduced the frequency of gene amplification to undetectable levels. These studies reveal that p53 contributes to a metabolically regulated G1 check-point, and they provide a model for understanding how abnormal cell cycle progression leads to the genetic rearrangements involved in tumor progression.
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PMID:Wild-type p53 restores cell cycle control and inhibits gene amplification in cells with mutant p53 alleles. 152 30

Germ-line mutations in the p53 tumor suppressor gene have been observed in patients with Li-Fraumeni syndrome, brain tumors, second malignancies, and breast cancers. It is unclear whether all of these mutations have inactivated p53 and thereby provide an increased risk for cancer. Therefore, it is necessary to establish the biological significance of these germ-line mutations by the functional and structural analysis of the resulting mutant p53 proteins. We analyzed the ability of seven germ-line mutant proteins observed in patients with Li-Fraumeni syndrome, second primary neoplasms, or familial breast cancer to block the growth of malignant cells and compared the structural properties of the mutant proteins to that of the wild-type protein. Six of seven missense mutations disrupted the growth inhibitory properties and structure of the wild-type protein. One germ-line mutation retained the features of the wild-type p53. Genetic analysis of the breast cancer family in which this mutation was observed indicated that this germ-line mutation was not associated with the development of cancer. These results demonstrate that germ-line p53 mutations observed in patients with Li-Fraumeni syndrome and with second malignancies have inactivated the p53 tumor suppressor gene. The inability of the germ-line p53 mutants to block the growth of malignant cells can explain why patients with these germ-line mutations have an increased risk for cancer. The observation of a functionally silent germ-line mutation indicates that, before associating a germ-line tumor suppressor gene mutation with cancer risk, it is prudent to consider its functional significance.
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PMID:Germ-line mutations of the p53 tumor suppressor gene in patients with high risk for cancer inactivate the p53 protein. 163 Nov 37

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

We investigated whether mutations in the p53 tumor suppressor gene alter UV sensitivity and/or repair of UV-induced DNA damage in primary human skin fibroblasts from patients with Li-Fraumeni syndrome, heterozygous for mutations in one allele of the p53 gene (p53 wt/mut) and sublines expressing only mutant p53 (p53 mut). The p53 mut cells were more resistant than the p53 wt/mut cells to UV cytotoxicity and exhibited less UV-induced apoptosis. DNA repair analysis revealed reduced removal of cyclobutane pyrimidine dimers from overall genomic DNA in vivo in p53 mut cells compared with p53 wt/mut or normal cells. However, p53 mut cells retained the ability to preferentially repair damage in the transcribed strands of expressed genes (transcription-coupled repair). These results suggest that loss of p53 function may lead to greater genomic instability by reducing the efficiency of DNA repair but that cellular resistance to DNA-damaging agents may be enhanced through elimination of apoptosis.
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PMID:Li-Fraumeni syndrome fibroblasts homozygous for p53 mutations are deficient in global DNA repair but exhibit normal transcription-coupled repair and enhanced UV resistance. 756 35

p53 has pleiotropic functions including control of genomic plasticity and integrity. Here we report that p53 can bind to several transcription factor IIH-associated factors, including transcription-repair factors, XPD (Rad3) and XPB, as well as CSB involved in strand-specific DNA repair, via its C-terminal domain. We also found that wild-type, but not Arg273His mutant p53 inhibits XPD (Rad3) and XPB DNA helicase activities. Moreover, repair of UV-induced dimers is slower in Li-Fraumeni syndrome cells (heterozygote p53 mutant) than in normal human cells. Our findings indicate that p53 may play a direct role in modulating nucleotide excision repair pathways.
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PMID:p53 modulation of TFIIH-associated nucleotide excision repair activity. 766 14

Increased cancer risk associated with germ-line p53 mutation was linked to a deficit in the ability to maintain genomic stability. Accordingly, normal fibroblasts from cancer-prone individuals accumulate genomic aberrations with concomitant loss of wild-type p53 allele during in vitro culture. We tested whether such changes also occur in EBV-immortalized lymphoblastoid cells. Both normal and p53 germ-line mutant lymphoblastoid cells maintained functional p53 and genomic stability during long term in vitro culture. These unexpected differences between fibroblastic and lymphoblastic cells suggest that phenotypic expression of p53 deficiency is cell type specific. This could contribute to selective tissular localization of tumours observed in patients with Li-Fraumeni syndrome despite the presence of a mutant p53 allele in all cells.
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PMID:Genomic stability and wild-type p53 function of lymphoblastoid cells with germ-line p53 mutation. 778 96

To examine the mechanisms of immortalization in human cells, normal human diploid fibroblasts (WHE-7) and skin fibroblasts from a patient with Li-Fraumeni syndrome (MDAH 087) and a mutant p53 allele were treated with aflatoxin B1 (AFB1). Exogenous metabolic activation of AFB1 with rat liver post-mitochondrial supernatant (PMS) was used and the optimal treatment conditions needed were determined by the inducibility of unscheduled DNA synthesis. The same degree of cytotoxicity was observed with MDAH 087 cells and normal WHE-7 cells treated with AFB1 at 0.1, 0.3 or 1 microgram/ml for 2 h with a 2% PMS mixture. All WHE-7 cell cultures (AFB1-treated and controls) failed to escape from senescence, whereas three out of nine AFB1-treated cultures of MDAH 087 cells escaped senescence. MDAH 087 cells treated with 0.1 microgram/ml of AFB1 two or three times initially decreased in growth approximately 40 days [10 population doublings (PD)] after the first treatment. However, the cells recovered with faster growth rates after approximately 100 additional days and grew continuously. Both cultures were immortal, defined as continuous growth for over 300 PD. Cells treated once with 0.3 microgram/ml of AFB1 also escaped senescence, although they had about a 230 day time lag before restoration of cell growth. The three AFB1-treated cell lines exhibited altered morphologies, chromosome aberrations (numerical and structural aberrations) and loss of the wild-type p53 allele. Although immortal, the cells were non-tumorigenic in nude mice. Spontaneous immortalization of untreated MDAH 087 was not observed in this study. The results indicate that AFB1 treatment of cells from a Li-Fraumeni patient, but not cells from normal individuals, can induce immortalization. This model may be useful for studying mechanisms of chemically induced immortalization.
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PMID:Aflatoxin B1-induced immortalization of cultured skin fibroblasts from a patient with Li-Fraumeni syndrome. 783 2

The primary genetic cancer predisposing event in many Li-Fraumeni syndrome families is a germline mutation in the p53 gene. We describe an extended Li-Fraumeni family with a germline mutation in the p53 gene involving a deletion of exon 10. The mutation is a 2.35 kilobase intragenic deletion encompassing exon 10, which results in the specific loss of the entire p53 oligomerization domain. This mutation segregates with the cancer phenotype. A lymphoblastoid cell line developed from a mutation carrier shows accumulation of mutant p53 protein by immunoblotting. However, tumor tissues from two affected carriers are negative by immunohistochemical staining. A major structural alteration specifically involving the oligomerization domain of a germline p53 gene has not been previously described and occurs in a region rarely mutated in sporadic tumors. The oligomerization domain is dispensable for many wild-type p53 functions, including transactivation, sequence-specific DNA binding, and suppression of oncogenic transformation. However, the domain appears to be required for transcriptional repression, and DNA strand reassociation. The identification of this mutation in an LFS family may yield insights into the importance of the oligomerization domain for suppressor function of the p53 tumor suppressor gene.
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PMID:A germline 2.35 kb deletion of p53 genomic DNA creating a specific loss of the oligomerization domain inherited in a Li-Fraumeni syndrome family. 793 51


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