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)

The time course of induction of SOS-like stress responses such as enhanced reactivation (ER) and enhanced mutagenesis (EM) has been investigated in UV-C-irradiated skin fibroblasts from a xeroderma pigmentosum (XP) family, using herpes simplex virus type 1 as a probe. Similar ER studies were performed in a Li-Fraumeni syndrome (LFS) family and in a family with a high incidence of breast, ovarian, and colon cancer. In two XP (complementation group B) patients, with a striking absence of skin tumors even at an age of >40 years, only induction of EM was observed, whereas ER was absent (XPER-). The ER- phenotype was inherited from the father, whereas cells from the mother exhibited normal expression of ER and EM. This suggests that the absence of ER is a hereditary trait that is not correlated with a repair-deficient phenotype. Abnormally high levels of ER were observed in UV-C-exposed skin fibroblasts from rive LFS patients. The inheritance of the ER response was studied in one LFS family. High levels of ER were observed only in cells derived from affected individuals carrying one mutated p53 allele, whereas cells from unaffected family members, carrying two wild-type p53 alleles, exhibited normal ER levels. This result shows that abnormally high levels of ER positively correlate with the occurrence of cancer in affected individuals from a LFS family. Interestingly, abnormally high levels of ER were observed in cells from afflicted as well as from unafflicted members of a family with a high incidence of breast, ovarian, colon, and stomach cancer. This suggests that these latter individuals have inherited a mutated, putative predisposing gene, resulting in abnormal expression of ER, but that cancer had not yet developed. The results indicate that the ER response can possibly be used as a prognostic marker to identify carriers in various hereditary cancer-prone syndromes at an early age.
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PMID:Inheritance of abnormal expression of SOS-like response in xeroderma pigmentosum and hereditary cancer-prone syndromes. 865 7

The p53 tumor suppressor gene controls cellular growth after DNA damage through mechanisms involving growth arrest and apoptosis. Mutations that inactivate p53 occur commonly in virtually all human malignancies and can be detected by sequencing of the p53 gene, immunohistochemical staining of tumor tissue with anti-p53 antibodies, single-strand conformation polymorphisms, or other biological assays. Identification of p53 mutation in the germ line is diagnostic of the cancer-prone Li-Fraumeni syndrome. Alterations of the p53 gene result in defective cellular responses after DNA damage and predispose cells to dysregulated growth, tumor formation and progression, and potential resistance (of tumor cells) to certain chemotherapeutic agents or ionizing radiation. A variety of tumors involving mutant p53 have a worse prognosis than tumors of the same type containing no p53 mutations. New diagnostic and therapeutic strategies are evolving as the p53 pathways of cell-cycle arrest and apoptosis become elucidated.
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PMID:Biological and clinical importance of the p53 tumor suppressor gene. 866 76

Oncogene is not categorized as a tumor marker in a strict sense, however, cancer related oncogens play an important role as a biomarker in hereditary malignant tumors in a wide sense. Various suppressor oncogenes have been identified in the autosomal dominant hereditary diseases such as APC, in familial adenomatous polyposis, p53 in Li-Fraumeni syndrome and BRACA 1 and 2 in breast cancer. By identifying the mutation site or deletions of germ line, it is possible to make a presymptomatic diagnosis of those hereditary malignant tumors. There is splendid progress in understanding of DNA repair mechanism. Recently, the mismatch repair genes were cloned as a causing gene of HNPCC. There are another group of genes called nucleotide excision repair genes which are causative genes of various autosomal recessive hereditary diseases such as xeroderama pigmentation. Pro and cons of presymptomatic diagnosis of familial adenomatous polyposis were discussed in a series of 72 patients among 42 family trees.
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PMID:[Role of tumor marker in the presymptomatic diagnosis of hereditary malignant tumors]. 869 15

Approximately 20% of breast cancer patients have a family history of the disease, and in one-fourth of these cases breast cancer appears to be inherited as an autosomally dominant trait. Five genes and gene regions involved in breast cancer susceptibility have been uncovered. Germ-line mutations in the recently cloned BRCA1 gene at 17q21 is considered to be responsible for the disease in a majority of the breast-ovarian cancer families and in 40-45% of the site-specific breast cancer families, but appears not to be involved in families with both male and female breast cancer cases. The BRCA2 locus at 13q12-q13 appears to be involved in 40-45% of the site-specific breast cancer families, and in most of the families with affected males. The gene located in this region, however, does not seem to confer susceptibility to ovarian cancer. The TP53 gene is involved in breast cancer development in the Li-Fraumeni syndrome and Li-Fraumeni syndrom-like families, whereas germ-line mutations in the androgen receptor (AR) gene is present in a subset of male breast cancers. Furthermore, females who are obligate carriers of ataxia telangiectasia (AT) have a 4-12 times relative risk of developing breast cancer as compared with the general female population, indicating that germ-line mutations in AT also confer susceptibility to breast cancer.
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PMID:Genetic heterogeneity in breast cancer susceptibility. 869 52

Germline mutations in the p53 tumor suppressor gene are associated with the Li-Fraumeni syndrome, characterized by childhood sarcoma, leukemia and early onset breast cancer and has occasionally been found also in familial breast-ovarian cancer. Most mutations found are of missense type and located in the central region of the gene (exons 5 to 8). In the present study, a germline p53 alteration was identified in a late onset breast cancer family (kindred Lund 5; mean age 58 years) using single stranded conformation polymorphism and sequence analysis. The mutation (a CCG to CTG transition) at codon 82 in exon 4, resulting in a proline to leucine substitution, has not previously been reported and was not present in a control set of 60 healthy individuals. Three of five woman with breast cancer (45, 57 and 65 years) were carriers of the alteration. Loss of heterozygosity at the p53 locus was not seen in the primary tumors of these women, but appeared as a partial loss of the wildtype allele in subsequent recurrent lesions of two gene carriers. The family manifested no linkage to the p53 gene (a two-point LOD-score of -0.41), and has previously also been excluded for linkage to the BRCA1 and BRCA2 loci, as well as being carrier of a BRCA1 germline mutation. Although it seems unlikely that the p53 germline mutation is the major cause of disease predisposition in Lund 5, the data suggest that some p53 alteration may confer a subtle influence on breast cancer development and progression.
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PMID:A novel p53 germline alteration identified in a late onset breast cancer kindred. 871 Mar 80

Molecular cancer epidemiology is a relatively new strategy for malignancies. This strategy has made it possible to diagnose the predisposition to cancer. An individual is said to have a predisposition to cancer when a tumor-suppressor gene is inactivated in germ-line cells. Mainly the inactivation of the tumor-suppressor gene is caused by mutations at the coding region of the gene. However, we clarified that point mutations or hypermethylations of the retinoblastoma tumor-suppressor gene (RB) also cause inactivation of the gene, resulting in retinoblastoma. On the other hand, studies to improve the diagnosed predisposition to cancer have not been performed. We therefore started a basic study for this purpose. As the first example of limiting the predisposition to cancer, the cases with a point mutation at the RB promoter region might be good candidates. In these carriers, only the RB promoter region is inactivated in spite of a lack of abnormalities in the coding region. Therefore, if the RB promoter activity is recovered by drugs, predisposition to retinoblastoma should be limited. As the second example, Li-Fraumeni syndrome in which the p53 gene is hereditarily mutated might be a good candidate. Recently p53 has been reported to stimulate the WAF1 gene, and the WAF1 protein to inhibit cdk activity, which inactivates the RB gene product by phosphorylation. In addition, we found that p53 up-regulates the promoter activity of the RB gene. These findings suggest that p53 directly or indirectly activates RB at the transcriptional or post-transcriptional level. Therefore, reactivation of the WAF1 or RB gene by certain drugs might compensate for the loss of function of p53 in Li-Fraumeni syndrome. We then suggest that it might be possible to prevent cancer by enhancing some intact target genes of the genetically inactivated tumor-suppressor gene. We term this new strategy "gene-regulating chemoprevention." To test this hypothesis it is important to clarify the structure of the RB promoter. In summary we found that RBF-1 and ATF sites are the core promoter regions, that the neighboring E2F site is a silencer site, and that E4TF1 preferentially binds to the RBF-1 site. We then speculate that drugs interfering with the binding of the E2F complex might become good candidates enhancing RB promoter activity. To find drugs regulating the promoters of these genes, it is reasonable to try G1 arresting drugs, because WAF1 and RB are thought to arrest cells at the G1 phase. Actually we found several drugs causing G1 arrest. They are several flavonoids which we ingest daily from vegetables and fruits, or prostaglandin D2 and its metabolite. In summary, we propose that "gene-regulating chemoprevention" will be a useful method for molecular cancer epidemiology.
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PMID:[Molecular cancer epidemiology--the present status and future possibilities]. 872 Sep 30

Identification of inherited cancer-predisposing genes offers opportunities for cancer prevention. Inherited susceptibility genes have been identified, primarily through studies of unusual cancer cases and families but also through general population studies. Examples include the RB1 gene for retinoblastoma; the WT1 gene for Wilms' tumor; germline p53 mutations in families with the Li-Fraumeni syndrome; the NF1 and NF2 genes for neuroblastomatosis, types 1 and 2; the VHL gene for renal cancer and other tumors associated with Von Hippel-Lindau disease; the APC gene for adenomatous polyposis coli; the BRCA1 gene for hereditary breast and ovarian cancer; and the mismatch repair genes for colon and other common cancers. For some cancers, identification of gene carriers might be beneficial for targeting screening and chemopreventive interventions. On the other hand, predisposition testing for cancer has the potential for harm from loss of insurability and employability, psychological distress, social stigmatization and other adverse effects. Research is needed to identify predisposition testing procedures that maximize benefits while minimizing harm to subjects. Chemoprevention trials in genetically susceptible populations offer the prospect of finding effective methods of reducing future cancer risk.
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PMID:Identification and management of inherited cancer susceptibility. 874 2

We report here a family with some of the characteristics of Li-Fraumeni syndrome (Li-Fraumeni-like) in which there is a 2 base pair deletion within exon 6 of TP53 in two affected individuals. Of particular interest in this family is a study of loss of heterozygosity (LOH) of the TP53 gene, and the finding that there is LOH in all cancers available for study from mutation carriers, and additionally from a benign endometrial polyp from one of those patients. Two other family members, one with a rectal carcinoma aged 55, the other with two separate benign lesions under the age of 45, were both wild-type for the TP53 mutation.
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PMID:A novel deletion within exon 6 of TP53 in a family with Li-Fraumeni-like syndrome, and LOH in a benign lesion from a mutation carrier. 878 Jul 40

Susceptibility to environmental carcinogenesis is the consequence of a complex interplay between intrinsic hereditary factors and actual exposures to potential carcinogenic agents. We must learn the nature of these interactions as well as the genetic defects that confer enhanced risk. In some genetic diseases an increased cancer risk correlates with a defect in the repair or replications of damaged DNA. Examples include xeroderma pigmentosum (XP), ataxia telangiectasia, Fanconi's anemia, and Bloom's syndrome. In Cockayne's syndrome the Specific defect in transcription-coupled repair (TCR) does not predispose the patients to the sunlight-induced skin cancer characteristic of XP. The demonstration of TCR in the XP129 partial revertant of XP-A cells indicates that ultraviolet (UV) resistance correlates with repair of cyclobutane pyrimidine dimers in active genes. Repair measured as an average over the genome can be misleading, and it is necessary to consider genomic locations of DNA damage and repair for a meaningful assessment of the biological importance of particular DNA lesions. Mutations in the p53 tumor suppressor gene are found in many human tumors. TCR accounts for the resulting mutational spectra in the p53 gene in certain tumors. Li-Fraumeni syndrome fibroblasts expressing only mutant p53 are more UV-resistant and exhibit less UV-induced apoptosis than normal human cells or heterozygotes for mutations in only one allele of p53. The p53-defective cells are deficient in global excision repair capacity but have retained TCR. The loss of p53 function may lead to greater genomic instability by reducing the efficiency of global DNA repair while cellular resistance may be assured through the operation of TCR and the elimination of apoptosis.
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PMID:Role of transcription-coupled DNA repair in susceptibility to environmental carcinogenesis. 878 81

The radiation response of Epstein-Barr virus (EBV)-immortalised lymphoblastoid cell lines derive from Li-Fraumeni syndrome (LFS) and LFS-like individuals was investigated. Cells from all LFS and LFS-like cases showed an accumulation of p53 protein following 137Cs gamma-irradiation, which was associated with cell cycle arrest at the G1/S border. This response was indistinguishable from that seen in cells derived from normal individuals, and occurred in cases with missense mutations in the TP53 gene at codons 175, 180, 220 and 248 and also in two LFS-like individuals with no TP53 mutation. Previous studies using lymphocytes and fibroblasts from LFS individuals have demonstrated abnormal radiation responses in these cells. This suggest cell type specificity in the contribution of a mutant p53 protein to phenotype.
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PMID:No defect in G1/S cell cycle arrest in irradiated Li-Fraumeni lymphoblastoid cell lines. 879 70

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