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 TP53 gene is considered to be a negative regulator of cell growth whose inactivation is an important step in the development or progression of malignancies. Recently, germ line TP53 mutations have been detected in a familial cancer syndrome, the dominantly inherited Li-Fraumeni syndrome. Using single strand conformation polymorphism analysis of PCR products, we looked for TP53 mutations in DNA of patients with Fanconi anemia, an autosomal recessive disease characterized by increased predisposition to neoplasia. We did not find any TP53 mutation in 13 patients, suggesting that this tumor suppressor gene is not directly involved in the cancer susceptibility observed in Fanconi's anemia.
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PMID:Lack of mutations in the TP53 tumor suppressor gene exons 5 to 8 in Fanconi's anemia. 180 24

Fanconi anemia belongs to a group of human genetic diseases characterized by chromosomal instability, sensitivity to genotoxic agents associated to impaired processing of DNA lesions, cell cycle anomalies and cancer predisposition. We recently added to this list of distinctive features reduced production of interleukin 6 and overproduction of tumor necrosis factor alpha. Since growth factor deprivation, TNF alpha treatment or DNA damage can trigger apoptosis, we monitored the apoptotic response of FA cell lines. We show here that, although the spontaneous rate of apoptosis is slightly more elevated in FA than in normal cell cultures, the apoptosis induced by gamma-irradiation is drastically reduced in FA. Since the induction of apoptosis by radiation is a p53-dependent mechanism, the induction of this protein in FA cells was also examined. We found that the p53 protein is not radio-induced in FA cells belonging to the two genetic complementation groups examined (C and D), in contrast to normal cells. Moreover, the same impairment in p53 induction is observed after exposure to mitomycin C, a chemical agent for which FA cells demonstrate a specific cellular and chromosomal hypersensitivity, as well as after u.v.-B irradiation, an agent known to cause oxidative stress. These observations are in line with recent reports showing that at least certain cell lines from other chromosome breakage syndromes, such as ataxia telangiectasia and Bloom syndrome, may be also defective for radiation-induced increase of p53 protein. As the p53 tumor suppressor gene encodes a transcriptional activator whose targets include genes that regulate genomic stability, cellular response to DNA damage and cell cycle progression, we suggest that altered expression of p53 may be relevant to the FA phenotype.
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PMID:p53-dependent pathway of radio-induced apoptosis is altered in Fanconi anemia. 782 83

Patients with Fanconi anemia (FA) have an extraordinary predisposition to acute myelogenous leukemia (AML). The genetic mechanisms underlying the neoplastic transformation of FA hematopoietic cells are unknown. In this study, we have investigated the molecular features of hematopoiesis in the course of FA at different stages of the disease, including aplastic anemia, myelodysplastic syndrome (MDS), and AML. The analysis focused on defining the clonality status of FA hematopoiesis as well as the putative involvement of N-ras, a dominantly acting oncogene, and p53, a tumor suppressor gene, which are known to play a role in human hematopoietic tumors. Clonality of hematopoiesis was assessed by testing X-chromosome inactivation at the DXS255 locus, which displays different methylation patterns according to the activation status of the corresponding X homolog. Five out of seven FA cases analysed for clonality displayed monoclonal hematopoiesis, including one case at the aplastic anemia stage, three cases with MDS and one with AML. Mutations of the N-ras and p53 genes were studied by a combination of single strand conformation polymorphism (SSCP) analysis and direct sequencing of the PCR product in the bone marrow and/or peripheral blood of 18 FA patients (seven with aplastic anemia, seven with MDS, four with AML). Only normal N-ras and p53 sequences were detected in all cases analyzed. These results suggest that monoclonal hematopoiesis is a frequent finding in the course of FA and may precede the onset of neoplasia in some cases. The genetic mechanisms underlying FA-associated leukemogenesis appear to be independent of N-ras and p53 mutations, which are relatively frequent events in myeloid tumors associated with other hematologic disorders.
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PMID:Clonality studies and N-ras and p53 mutation analysis of hematopoietic cells in Fanconi anemia. 805 73

Hypersensitivity to cross-linking agents such as mitomycin C (MMC) is characteristic of cells from patients suffering from the inherited bone marrow failure syndrome. Fanconi anemia (FA). Here, we link MMC hypersensitivity of Epstein-Barr virus (EBV)-immortalized FA lymphoblasts to a high susceptibility for apoptosis and p53 activation. In MMC-treated FA cells belonging to complementation group C (FA-C), apoptosis followed cell cycle arrest in the G2 phase. In stably transfected FA-C cells, plasmid-driven expression of the wild-type cytoplasmic FAC protein relieved MMC-dependent G2 arrest and suppressed p53 activation. However, in both FA and non-FA lymphoblasts, p53 seemed not to be instrumental in the induction of MMC-dependent apoptosis, since overexpression of a dominant-negative p53 mutant failed to affect cell survival. In addition, no differences in the level of Bcl-2 expression, an inhibitor of apoptosis, were detected between FA and non-FA cells either in the absence or presence of MMC. Our findings suggest that FAC and the other putative FA gene products may function in a yet to be identified p53-independent apoptosis pathway.
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PMID:Fanconi anemia genes act to suppress a cross-linker-inducible p53-independent apoptosis pathway in lymphoblastoid cell lines. 856 65

Previous work has demonstrated that alpha-particle irradiation of primary human bone marrow cells leads to the transmission of chromosomal instability in the descendants of the irradiated cell, although there is some interindividual variation. We have extended these studies to human EBV-transformed lymphoblastoid cell lines in order to establish an in vitro model system. The five cell lines analyzed, including one from a Fanconi anaemia patient, exhibited high levels of persistent chromatid aberrations up to approximately 40 cell generations after alpha-irradiation. The p53 status of the cell lines was defined according to whether cellular p53 levels were induced by irradiation, translocated to the nucleus and were able to bind a p53 DNA consensus recognition sequence in vitro. Together with the primary bone marrow cell studies, we conclude that alpha-particle induced chromosomal instability is independent of the p53 status of the cell as defined in these studies.
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PMID:No association between p53 status and alpha-particle-induced chromosomal instability in human lymphoblastoid cells. 860 52

Fanconi anemia (FA) is an autosomal recessive disease marked by developmental defects, bone marrow failure, and cancer susceptibility. FA cells are hypersensitive to DNA cross-linking and alkylating agents and accumulate in the G2 phase of the cell cycle in response to these agents. FA cells also display genomic instability, suggesting a possible defect in the p53 pathway. To test the effect of heterologous expression of FAC cDNA on drug-induced cytotoxicity, G2 accumulation, and p53 induction in FA cells, we compared two isogenic FA cell lines: HSC536N (mock), a FA type C cell line sensitive to mitomycin C (MMC), and the same cell line transfected (corrected) with wild-type FAC cDNA (HSC536N [+FAC]). HSC536N (+FAC) cells showed a 30-fold increase in resistance to MMC concentration. Similarly, increases in resistance were observed following exposure to cisplatin, carboplatin, and cyclophosphamide. In addition, HSC536N (+FAC) cells showed a twofold lower G2 accumulation following MMC treatment. To analyze the possible interaction of FAC with the p53 pathway, we analyzed p53 induction in mock and corrected cell lines following exposure to MMC. HSC536N (mock) cells induced p53 at lower MMC concentrations than HSC536N (corrected). Caffeine, a known G2 checkpoint inhibitor, not only inhibited G2 accumulation seen in both cell lines but also caused the resistant HSC536N (+FAC) to become as sensitive to MMC as HSC536N (mock) cell line. We conclude that the FAC protein has a specific cytoprotective effect and may function as a cell cycle regulator of the G2 phase of the cell cycle.
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PMID:The effect of the Fanconi anemia polypeptide, FAC, upon p53 induction and G2 checkpoint regulation. 870 10

The tumor suppressor protein p53 (wtp53) can bind to specific target sequences and activate transcription of genes adjacent to these DNA elements. Two p53 binding sites are present in the gene coding for the Fanconi anemia complementation group C (FAC), one in the promoter region (from -1295 to -1266) and one in the coding region of FAC (from +1828 to +1848). Gel shift experiments show that wtp53 binds to the p53 target sequence in the promoter region of the FAC gene. We have investigated whether binding of p53 to these target sites may affect expression of the FAC gene. Transfection experiments show that overexpression of wtp53 in human diploid fibroblasts and lymphoblasts augments transcription of the FAC gene up to three-fold. The transfection efficacy was approximately 15% for both cell types. The FAC expression activity per transformed cell was stimulated to an estimated level of 18- to 21-fold upon overexpression of p53. The tumor-derived p53 mutants, His175 and His273, that fail to bind DNA showed only a reduced stimulatory activity on FAC transcription. Luciferase assays demonstrated that interaction of p53 with its target site in the FAC promoter does not modulate the promoter activity. We suggest that the p53 binding site contributes to, but may not be an absolute prerequisite for p53-directed transcriptional activation. We conclude that the FAC gene can be added to the list of genes that interact with p53.
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PMID:p53 activates Fanconi anemia group C gene expression. 906 48

Fanconi anemia (FA) is a genetically heterogeneous autosomal recessive syndrome associated with chromosomal instability, hypersensitivity to DNA crosslinking agents, and predisposition to malignancy. The gene for FA complementation group A (FAA) recently has been cloned. The cDNA is predicted to encode a polypeptide of 1,455 amino acids, with no homologies to any known protein that might suggest a function for FAA. We have used single-strand conformational polymorphism analysis to screen genomic DNA from a panel of 97 racially and ethnically diverse FA patients from the International Fanconi Anemia Registry for mutations in the FAA gene. A total of 85 variant bands were detected. Forty-five of the variants are probably benign polymorphisms, of which nine are common and can be used for various applications, including mapping studies for other genes in this region of chromosome 16q. Amplification refractory mutation system assays were developed to simplify their detection. Forty variants are likely to be pathogenic mutations. Seventeen of these are microdeletions/microinsertions associated with short direct repeats or homonucleotide tracts, a type of mutation thought to be generated by a mechanism of slipped-strand mispairing during DNA replication. A screening of 350 FA probands from the International Fanconi Anemia Registry for two of these deletions (1115-1118del and 3788-3790del) revealed that they are carried on about 2% and 5% of the FA alleles, respectively. 3788-3790del appears in a variety of ethnic groups and is found on at least two different haplotypes. We suggest that FAA is hypermutable, and that slipped-strand mispairing, a mutational mechanism recognized as important for the generation of germ-line and somatic mutations in a variety of cancer-related genes, including p53, APC, RB1, WT1, and BRCA1, may be a major mechanism for FAA mutagenesis.
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PMID:Sequence variation in the Fanconi anemia gene FAA. 937 98

The tumour-suppressor gene TP53 is frequently mutated in breast tumours, and the majority of the mutations are clustered within the core domain, the region involved in DNA binding. We searched for alterations in this central domain of the TP53gene in 222 human breast cancer specimens using polymerase chain reaction-single-strand conformation analysis (PCR-SSCA) followed by sequencing. TP53 gene mutations were observed in 66 tumours (31%), including three tumours that contain two mutations. Fifty-four (78%) of these mutations were missense point mutations, one was a nonsense mutation and four were deletions and/or insertions causing disruption of the protein reading frame, whereas four mutations were either silent or a polymorphism (at codon 213; n = 6). Interestingly, the majority of missense mutations were observed at codon 248. The outcome has been related with patient and tumour characteristics, and with prognosis in 177 patients who were eligible for analysis of both relapse-free and overall survival (median survival for patients alive was 115 months). There was no significant association between the frequency of TP53 mutations and menopausal or nodal status, or tumour size. In a Cox univariate analysis, TP53 gene mutation was significantly associated with poor relapse-free survival (RFS: P = 0.02) but not with overall survival (OS: P = 0.07). In a Cox multivariate analysis, including classical prognostic factors, TP53 gene mutation independently predicted poor RFS and OS (RHR = 1.8 and 1.6 respectively). Unexpectedly, the median relapse-free survival of patients with a polymorphism at codon 213 or with a silent mutation was shorter (median 11 months) than the median relapse-free survival of patients with or without a TP53 gene mutation (median 34 or 48 months respectively). In an exploratory subset analysis, mutations in codons that directly contact DNA were related with the poorest relapse-free (P < 0.05) and overall survival (P < 0.02). These data imply that in the analysis of the prognostic value of TP53, the type of mutation and its biological function should be considered.
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PMID:Mutations in residues of TP53 that directly contact DNA predict poor outcome in human primary breast cancer. 956 50

The initiation step of the carcinogenic process consists in an alteration of genes playing a central role in the cellular life. The next steps of promotion and progression result from anomalies in the response to growth factors, to hormones and/or from the action of tumor promotors leading to cellular hyperplasia. This process generally leads to genetic instability of the initiated cell which in turn allows selection of malignant and invasive clones. The production of DNA damage by physical or chemical agents is dose-dependent. The error-free enzymatic repair processes including excision resynthesis of base damage or of altered nucleotides allow the restitution of intact DNA. The error-prone repair systems permit survival in association with transmissible alterations (genes and chromosomal mutations). Absence of repair leads to cytotoxicity, programmed cell death or disruption of cell cycle control leading to a pretumoral state. The major role played by mutations in the initiation of carcinogenesis is evidenced by the existence of genetic syndromes associated to hypersensitivity to genotoxic agents, defects in DNA repair capacity, anomalies in the expression of certain genes (including the tumor suppressor p53 gene, etc.) and an elevated predisposition to cancer. Xeroderma pigmentosum which is defective in excision-repair, ataxia telangiectasia and Fanconi anemia which are associated to anomalies in DNA recombination and the familial type of colon cancer HPNCP due to inefficient mismatch repair constitute paradigm for this fundamental notion. Alterations in the capacity to rejoin radiation induced DNA strand breaks appears to be associated to over-reactions to radiotherapy of cancer patients. Also the predisposition to develop secondary thyroid tumors following treatment of a primary cancer in childhood seems to involve the same defect. The existence in the general population of heterozygotes for such DNA repair genes should be taken into account for risk evaluation to therapeutic and environmental exposures.
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PMID:[Molecular mechanisms of carcinogenesis: the role of systems of DNA repair]. 962 30

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