UNIPROT:P43146 - FACTA Search

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Query: UNIPROT:P43146 (tumour suppressor)
5,935 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The long arm of chromosome 11 has received much scrutiny as a high frequency of deletions of various sites has been observed in different tumour types, indicating the presence of putative tumour suppressor genes. In the present study, 81 primary cervical carcinomas were examined for allelic imbalance (AI) using nine microsatellite markers, mapping to the chromosomal region 11q23.1 where the ATM gene is located. AI at any locus in the region was found in 34 of 81 (42%) tumours. AI frequencies varied from 12 to 31% for the different markers used, with the highest frequency at marker D11S1294. Based on the findings of 17 cases with restricted areas of deletions, four chromosomal regions of possible importance in cervical carcinomas could be distinguished. The first region is located between the markers D11S1325 and D11S1819, the second region between D11S2179 and D11S1294, the third region between D11S1778 and D11S1818 and the fourth region between D11S1818 and D11S1347. The second region may thus contain part of the ATM gene. No association between AI of any marker and histopathological or clinical parameters was seen. When comparing the AI findings of the different loci with TP53 protein overexpression, the only significant association found was with D11S2179 located within the ATM gene. The results indicate that a tumour suppressor gene (or genes) on chromosome 11q.23.1 may be involved in carcinogenesis of the cervix and the involvement of the ATM gene remains a possibility.
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PMID:Allelic imbalance at chromosome region 11q23 in cervical carcinomas. 1049 43

The tumour suppressor protein p53 is stabilised and activated in response to ionising radiation. This is known to depend on the kinase ATM; recent results suggest ATM acts via the downstream kinase Chk2/hCds1, which stabilises p53 at least in part by direct phosphorylation of residue serine 20.
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PMID:How to activate p53. 1080 7

T-cell prolymphocytic leukaemia (T-PLL) is a sporadic, mature T-cell disorder in which there is usually an aberrant T-cell receptor alpha (TCRA) rearrangement that activates the TCL1 or MTCP1-B1 oncogenes. As mutations of the Ataxia Telangiectasia (A-T) gene, ATM, are frequent in T-PLL and as ATM seems to act as a tumour suppressor through a mechanism involving V(D)J recombination, we examined V(D)J recombination in T-PLL. Using Southern blotting and the polymerase chain reaction, two of 60 TCRG coding joints were abnormal. In all cases, both TCRD alleles were deleted, IGH was germline, and patterns of TCRB and TCRA rearrangement were normal. However, in a case harbouring t(X;7)(q28;q35), we identified TCRB segment J beta 2.7 juxtaposed to MTCP1 exon 1. This is the first time that TCRB has been implicated in MTCP1 B1 activation. The structure of the breakpoint supports a model in which translocation activates a cryptic MTCP1 promoter. This analysis of V(D)J recombination is consistent with it being a variable that is independent of ATM in T-PLL.
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PMID:T-cell prolymphocytic leukaemia: antigen receptor gene rearrangement and a novel mode of MTCP1 B1 activation. 1105 65

Women who develop bilateral breast cancer at an early age are likely to harbour germline mutations in breast cancer susceptibility genes. The aim of this study was to test for concordant genetic changes in left and right breast cancer of young women (age < 50) with bilateral breast cancer that may suggest an inherited breast cancer predisposition. Microsatellite markers were used to test for loss of heterozygosity (LOH) in left and right tumours for 31 women with premenopausal bilateral breast cancer. Markers adjacent to or within candidate genes on 17p (p53), 17q (BRCA1), 13q (BRCA2), 11q (Ataxia Telangiectasia-ATM) and 3p (FHIT) were chosen. Mutational testing for BRCA1 and BRCA2 was performed for cases where blood was available. Concordant LOH in both left and right tumours was demonstrated for at least one of the markers tested in 16/31(54%) cases. Where allelic loss was demonstrated for both left and right breast cancer, the same allele was lost on each occasion. This may suggest a common mutational event. Four cases showed concordant loss of alleles in both left and right breast cancer at D17S791 (BRCA1). BRCA1 mutations were identified in two of these cases where blood was available. Four cases showed concordant LOH at D13S155 (BRCA2). Concordant LOH was further demonstrated in seven cases for D11S1778 (ATM) and four cases for D3S1300 (which maps to the FHIT gene), suggesting a possible role for these tumour suppressor genes in this subgroup of breast cancer patients. No concordant allelic loss was demonstrated for D17S786 suggesting that germline mutations in p53 are unlikely in such cases of bilateral breast cancer.
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PMID:Loss of heterozygosity in bilateral breast cancer. 1120 Jul 74

When exposed to ionizing radiation (IR), eukaryotic cells activate checkpoint pathways to delay the progression of the cell cycle. Defects in the IR-induced S-phase checkpoint cause 'radioresistant DNA synthesis', a phenomenon that has been identified in cancer-prone patients suffering from ataxia-telangiectasia, a disease caused by mutations in the ATM gene. The Cdc25A phosphatase activates the cyclin-dependent kinase 2 (Cdk2) needed for DNA synthesis, but becomes degraded in response to DNA damage or stalled replication. Here we report a functional link between ATM, the checkpoint signalling kinase Chk2/Cds1 (Chk2) and Cdc25A, and implicate this mechanism in controlling the S-phase checkpoint. We show that IR-induced destruction of Cdc25A requires both ATM and the Chk2-mediated phosphorylation of Cdc25A on serine 123. An IR-induced loss of Cdc25A protein prevents dephosphorylation of Cdk2 and leads to a transient blockade of DNA replication. We also show that tumour-associated Chk2 alleles cannot bind or phosphorylate Cdc25A, and that cells expressing these Chk2 alleles, elevated Cdc25A or a Cdk2 mutant unable to undergo inhibitory phosphorylation (Cdk2AF) fail to inhibit DNA synthesis when irradiated. These results support Chk2 as a candidate tumour suppressor, and identify the ATM-Chk2-Cdc25A-Cdk2 pathway as a genomic integrity checkpoint that prevents radioresistant DNA synthesis.
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PMID:The ATM-Chk2-Cdc25A checkpoint pathway guards against radioresistant DNA synthesis. 1129 30

Ataxia telangiectasia (AT) is a rare multisystem, autosomal, recessive disease characterised by neuronal degeneration, genome instability, and an increased risk of cancer. Approximately 10% of AT homozygotes develop cancer, mostly of the lymphoid system. Lymphoid malignancies in patients with AT are of both B cell and T cell origin, and include Hodgkin's lymphoma, non-Hodgkin's lymphoma, and several forms of leukaemia. The AT locus was mapped to the chromosomal region 11q22-23 using genetic linkage analysis in the late 1980s and the causative gene was identified by positional cloning several years later. The ATM gene encodes a large protein that belongs to a family of kinases possessing a highly conserved C-terminal kinase domain related to the phosphatidylinositol 3-kinase domain. Members of this kinase family have been shown to function in DNA repair and cell cycle checkpoint control following DNA damage. Recent studies indicate that ATM is activated primarily in response to double strand breaks and may be considered a caretaker of the genome. Most mutations in ATM result in truncation and destabilisation of the protein, but certain missense and splicing errors have been shown to produce a less severe phenotype. AT heterozygotes have a slightly increased risk of breast cancer. Atm deficient mice exhibit many of the symptoms found in patients with AT and have a high frequency of thymic lymphoma. The association between mutation of the ATM gene and a high incidence of lymphoid malignancy in patients with AT, together with the development of lymphoma in Atm deficient mice, supports the proposal that inactivation of the ATM gene may be of importance in the pathogenesis of sporadic lymphoid malignancy. Loss of heterozygosity at 11q22-23 (the location of the ATM gene) is a common event in lymphoid malignancy. Frequent inactivating mutations of the ATM gene have been reported in patients with rare sporadic T cell prolymphocytic leukaemia (T-PLL), B cell chronic lymphocytic leukaemia (B-CLL), and most recently, mantle cell lymphoma (MCL). In contrast to the ATM mutation pattern in AT, the most frequent nucleotide changes in these sporadic lymphoid malignancies were missense mutations. The presence of inactivating mutations, together with the deletion of the normal copy of the ATM gene in some patients with T-PLL, B-CLL, and MCL, establishes somatic inactivation of the ATM gene in the pathogenesis of lymphoid malignancies, and strongly suggests that ATM functions as a tumour suppressor. The presence of missense mutations in the germline of patients with B-CLL has been reported, suggesting that some patients with B-CLL may be constitutional AT heterozygotes. The putative hereditary predisposition of B-CLL, although intriguing, warrants further investigation.
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PMID:Ataxia telangiectasia gene mutations in leukaemia and lymphoma. 1142 21

Chronic lymphocytic leukaemia is the commonest adult leukaemia, however the pathogenesis is largely unknown. Since the 1980s specific chromosomal abnormalities have been identified, of which the commonest are deletions of chromosomes 6q, 11q23, 13q14 and 17q13 and trisomy 12. The search for the responsible oncogenes at these sites has proved to be extremely frustrating. There are many oncogenes at 11q23 but the exact gene(s) responsible have yet to be identified. Germline abnormalities of the ATM gene occur in about 18% of patients compared to a normal population carriage of 0.5% but not all studies agree that ATM is the gene responsible. Unfortunately, despite the identification of various minimally deleted regions and the full sequencing of 13q14 no oncogenes have been identified. All original studies suggested the presence of a autosomally recessive tumour suppressor gene at this site but more recent studies suggest this may not be the case and the pathogenesis is more complex than first thought. Similarly, no genes have been identified at 6q or on chromosome 12. We know that the p53 tumour suppressor gene at 17p13 is an important prognostic indicator but it occurs in a minority of patients (about 15%), usually in patients with advanced disease, and therefore probably is not of aetiological importance.
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PMID:Molecular abnormalities in B-cell chronic lymphocytic leukaemia. 1155 53

The p53 tumour suppressor protein is a short-lived transcription factor that becomes stabilized in response to a wide range of cellular stresses. Ubiquitination and the targeting of p53 for degradation by the proteasome are mediated by Mdm2 (mouse double minute clone 2), a negative regulatory partner of p53. Previous studies have suggested that DNA-damage-induced phosphorylation of p53 at key N-terminal sites has a pivotal role in regulating the interaction with Mdm2 but the precise role of phosphorylation of serines 15 and 20 is still unclear. Here we show that replacement of serine 15 and a range of other key N-terminal phosphorylation sites with alanine, which cannot be phosphorylated, has little effect on the ubiquitination and degradation of full-length human p53. In contrast, replacement of serine 20 makes p53 highly sensitive to Mdm2-mediated turnover. These results define distinct roles for serines 15 and 20, two sites previously demonstrated to be dependent on phosphorylation through mechanisms mediated by DNA damage and ATM (ataxia telangiectasia mutated). We also show that the polyproline region of p53, a domain that has a key role in p53-induced apoptosis, exerts a critical influence over the Mdm2-mediated turnover of p53.
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PMID:Critical roles for the serine 20, but not the serine 15, phosphorylation site and for the polyproline domain in regulating p53 turnover. 1158 95

Balanced regulation of DNA double-strand break (DSB) repair is crucial for genetic integrity and cell survival. Cells perform DSB repair either by homologous recombination (HR) or by non-homologous end joining (NHEJ). Either option carries risk for DNA instability. The presence in the cell of the tumour suppressor p53 has been shown to suppress the levels of HR; however, the effect of p53 on DNA EJ is less well understood. Here we demonstrate dramatically increased DNA EJ activity in cell-free extracts from p53(-/-) mouse embryo fibroblasts (MEFs) compared with p53(+/+) MEFs. The addition of wild-type (wt) p53 to p53(-/-) MEFs extracts inhibited DNA EJ in a dose-dependent manner. Binding of wt p53 to DNA ends in vitro protected them from exonuclease attack and inhibited T4 DNA ligase-dependent EJ. This inhibitory effect was markedly enhanced for p53 R175H, a cancer-derived mutant of p53. In contrast, inhibition was negated in the presence of p53 S15D, a phosphorylation-mimicking mutant protein. Interestingly, p53 S15D stimulated in vitro DNA EJ of the blunt-ended DNA by T4 DNA ligase. Here we discuss the possibility that, in conjunction with its ability to control levels of HR, p53 may also serve to suppress DNA EJ in cells under normal conditions. This suppression may be associated with DNA-dependent protein kinases or ATM kinases, providing potential crosstalk between major cellular pathways of DNA repair and cell-cycle checkpoint mechanisms.
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PMID:Effect of wild-type, S15D and R175H p53 proteins on DNA end joining in vitro: potential mechanism of DNA double-strand break repair modulation. 1196 Sep 5

The ataxia telangiectasia (A-T) gene (ATM) is a dominant breast cancer gene with tumour suppressor activity. ATM also regulates cellular sensitivity to ionising radiation (IR) presumably through its role as a facilitator of DNA repair. In normal cells and tissues the ATM protein is rapidly induced by IR to threshold/maximum levels. The kinase function of the ATM protein is also rapidly activated in response to IR. The fact that women carriers of ATM mutations can have an increased risk of developing breast cancer and that many sporadic breast tumours have reduced levels of the ATM protein broadens the scope of ATM's tumour suppressor within the breast. This report describes the downregulation of ATM protein levels in a radiosensitive breast cancer patient. Postinduction ATM levels were up to tenfold lower in the patient's fresh tissues compared to normal controls. These results might indicate a much broader role for ATM anomalies in breast cancer aetiology.
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PMID:ATM induction insufficiency in a radiosensitive breast-cancer patient. 1219 49

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