UMLS:C0004135 - FACTA Search

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Query: UMLS:C0004135 (ATM)
13,001 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We review the genes and proteins related to the homologous recombinational repair (HRR) pathway that are implicated in cancer through either genetic disorders that predispose to cancer through chromosome instability or the occurrence of somatic mutations that contribute to carcinogenesis. Ataxia telangiectasia (AT), Nijmegen breakage syndrome (NBS), and an ataxia-like disorder (ATLD), are chromosome instability disorders that are defective in the ataxia telangiectasia mutated (ATM), NBS, and Mre11 genes, respectively. These genes are critical in maintaining cellular resistance to ionizing radiation (IR), which kills largely by the production of double-strand breaks (DSBs). Bloom syndrome involves a defect in the BLM helicase, which seems to play a role in restarting DNA replication forks that are blocked at lesions, thereby promoting chromosome stability. The Werner syndrome gene (WRN) helicase, another member of the RecQ family like BLM, has very recently been found to help mediate homologous recombination. Fanconi anemia (FA) is a genetically complex chromosomal instability disorder involving seven or more genes, one of which is BRCA2. FA may be at least partially caused by the aberrant production of reactive oxidative species. The breast cancer-associated BRCA1 and BRCA2 proteins are strongly implicated in HRR; BRCA2 associates with Rad51 and appears to regulate its activity. We discuss in detail the phenotypes of the various mutant cell lines and the signaling pathways mediated by the ATM kinase. ATM's phosphorylation targets can be grouped into oxidative stress-mediated transcriptional changes, cell cycle checkpoints, and recombinational repair. We present the DNA damage response pathways by using the DSB as the prototype lesion, whose incorrect repair can initiate and augment karyotypic abnormalities.
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PMID:Recombinational DNA repair and human disease. 1242 31

Alterations of the NBS1 gene are responsible for Nijmegen breakage syndrome (NBS), which is characterized by chromosomal instability, radiosensitivity, and cancer predisposition. NBS1 protein (Nibrin) is part of a molecular complex (NBS1- MRE11A-RAD50) that is functionally involved in DNA double-strand-break repair. Defects in recombination or in repair mechanisms at the level of DNA breakage can lead to chromosomal aberrations, genetic instability, as well as cancer predisposition syndromes (i.e., NBS, ataxia-telangiectasia, Bloom syndrome). In this study, we examined 20 cancer cell lines to evaluate the potential involvement of NBS1 in tumoral pathogenesis. Three different mutations, generating truncated or aberrant NBS1 transcripts, were identified at the level of NBS1 mRNA. In addition, two shorter NBS1 protein variants were detected in two cell lines. These data suggest a possible involvement of NBS1 in tumor development.
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PMID:New mutations and protein variants of NBS1 are identified in cancer cell lines. 1250 48

Tumorigenesis can be viewed as an imbalance between the mechanisms of cell-cycle control and mutation rates within the genes. Genomic instability is broadly classified into microsatellite instability (MIN) associated with mutator phenotype, and chromosome instability (CIN) recognized by gross chromosomal abnormalities. Three intracellular mechanisms are involved in DNA damage repair that leads to mutator phenotype. They include the nucleotide excision repair (NER), base excision repair (BER) and mismatch repair (MMR). The CIN pathway is typically associated with the accumulation of mutations in tumor suppressor genes and oncogenes. Defects in DNA MMR and CIN pathways are responsible for a variety of hereditary cancer predisposition syndromes including hereditary non-polyposis colorectal carcinoma (HNPCC), Bloom syndrome, ataxia-telangiectasia, and Fanconi anaemia. While there are many genetic contributors to CIN and MIN, there are also epigenetic factors that have emerged to be equally damaging to cell-cycle control. Hypermethylation of tumor suppressor and DNA MMR gene promoter regions, is an epigenetic mechanism of gene silencing that contributes to tumorigenesis. Telomere shortening has been shown to increase genetic instability and tumor formation in mice, underscoring the importance of telomere length and telomerase activity in maintaining genomic integrity. Mouse models have provided important insights for discovering critical pathways in the progression to cancer, as well as to elucidate cross talk among different pathways. This review examines various molecular mechanisms of genomic instability and their relevance to cancer.
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PMID:Genomic instability and cancer. 1460 34

Bloom syndrome and ataxia-telangiectasia are autosomal recessive human disorders characterized by immunodeficiency, genome instability and predisposition to develop cancer. Recent data reveal that the products of these two genes, BLM and ATM, interact and function together in recognizing abnormal DNA structures. To investigate the function of these two molecules in DNA damage recognition, we generated double knockouts of ATM(-/-) BLM(-/-) in the DT40 chicken B-lymphocyte cell line. The double mutant cells were viable and exhibited a variety of characteristics of both ATM(-/-) and BLM(-/-) cells. There was no evidence for exacerbation of either phenotype; however, the more extreme radiosensitivity seen in ATM(-/-) and the elevated sister chromatid exchange seen in BLM(-/-) cells were retained in the double mutants. These results suggest that ATM and BLM have largely distinct roles in recognizing different forms of damage in DNA, but are also compatible with partially overlapping functions in recognizing breaks in radiation-damaged DNA.
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PMID:Disruption of the BLM gene in ATM-null DT40 cells does not exacerbate either phenotype. 1498

Bloom syndrome (BS) and ataxia-telangiectasia (A-T) are rare autosomal recessive diseases associated with chromosomal instability. The genes responsible for BS and A-T have been identified as BLM and ATM, respectively, whose products were recently found to be components of BRCA1-associated genome surveillance complex (BASC), a supercomplex possibly involved in the recognition and repair of aberrant DNA structures. Based on experiments using BLM(-/-) DT40 cells and BLM(-/-)/RAD54(-/-) DT40 cells, we previously suggested that BLM functions to reduce the formation of double-strand breaks (DSBs) during DNA replication. To examine whether ATM is involved in the recognition and/or repair of DSBs generated in BLM(-/-) DT40 cells and to address the functional relationship between the two BASC components, we generated BLM(-/-)/ATM(-/-) DT40 cells and characterized their properties as well as those of ATM(-/-) and BLM(-/-) DT40 cells. BLM(-/-)/ATM(-/-) cells proliferated slightly more slowly than either BLM(-/-) or ATM(-/-) cells. The sensitivity of BLM(-/-)/ATM(-/-) cells to gamma-irradiation was similar to that of ATM(-/-) cells, while BLM(-/-) cells were slightly resistant to gamma-irradiation compared with wild-type cells. BLM(-/-) cells showed sensitivity to methyl methanesulfonate (MMS) and UV irradiation while ATM(-/-) cells did not show sensitivity to either agent. The sensitivity of BLM(-/-)/ATM(-/-) cells to MMS and UV was similar to that of BLM(-/-) cells. Disrupting the function of ATM reduced the targeted integration frequency in BLM(-/-) DT40 cells. However, a defect in ATM only slightly reduced the increased sister chromatid exchanges (SCEs) in BLM(-/-) DT40 cells.
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PMID:The absence of a functional relationship between ATM and BLM, the components of BASC, in DT40 cells. 1499 Mar 44

This objective of this study was to evaluate patients with immunodeficiency syndromes who had developed malignant solid tumors and to examine survival rates and prognosis with respect to type of immunodeficiency disease. Twenty-two patients who were diagnosed with malignant solid tumors and immunodeficiency syndromes between January 1972 and February 2003 were analyzed retrospectively. There were 12 (55%) patients with non-Hodgkin lymphoma, 8 (37%) with Hodgkin disease, 1 (5%) with mucinous adenocarcinoma of the colon, and 1 (5%) with brain stem glioma. Fifteen (68%) patients had ataxia-telangiectasia, 3 (14%) had common variable immunodeficiency disease, 2 (9%) had Bloom syndrome, 1 (5%) had combined immunodeficiency, and 1 (5%) had selective immunoglobulin A deficiency. Out of the 15 patients with ataxia-telangiectasia 9 patients had non-Hodgkin lymphoma, 5 had Hodgkin disease, and 1 had brain stem glioma. Two patients with common variable immunodeficiency disease had non-Hodgkin lymphoma and 1 had Hodgkin disease. One of the patients with Bloom syndrome had Hodgkin disease and 1 had colon carcinoma. The overall survival for the whole group was 24%. Overall survival rates in non-Hodgkin lymphoma, Hodgkin disease, colon carcinoma, and brain stem glioma were 17, 44, 0, and 0% (p =.25), respectively. Overall survival in ataxia-telangiectasia patients was 20%. In this series, most of the patients had ataxia-telangiectasia (68%). The survival rates of the malignant diseases were very poor in immunodeficiency. Overall survival in non-Hodgkin lymphoma patients was relatively worse than Hodgkin disease patients.
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PMID:Malignant solid tumors associated with congenital immunodeficiency disorders. 1520 88

Bloom syndrome is a rare autosomal recessive genetic disorder characterized by lupus-like erythematous telangiectasias of the face, sun sensitivity, stunted growth, and immunodeficiency. Chromosome instability syndromes have a common feature, being associated at high frequency with neoplasia. BS is considered as one of the chromosome instability syndromes since the fibroblasts or lymphocytes of BS patients show excessive spontaneous chromosome instability. The causative gene of BS (BLM) was identified as a RecQ helicase homologue. In this review, we showed the characteristic phenotypes of BS, especially two Japanese siblings. In the latter of the review, the functional domains of BLM, those are nuclear localization signal and the interacting proteins such as ATM, are shown. Several lines of reports indicates that BLM helicase is involved in the re-initiation of DNA replication at sites where replication forks have arrested or collapsed. To elucidate the precise function of RecQ helicase in DNA repair and replication aims not only to improve our understanding of the molecular basis for tumorigenesis, but also to extend the range of potential therapeutic targets.
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PMID:The function of RecQ helicase gene family (especially BLM) in DNA recombination and joining. 1547 92

Bloom syndrome is a rare autosomal recessive genetic disorder characterized by lupus-like erythematous telangiectasias of the face, sun sensitivity, stunted growth, and immunodeficiency. Chromosome instability syndromes have a common feature, being associated at high frequency with neoplasia. BS is considered as one of the chromosome instability syndromes since the fibroblasts or lymphocytes of BS patients show excessive spontaneous chromosome instability. The causative gene of BS (BLM) was identified as a RecQ helicase homologue. In this review, we showed the characteristic phenotypes of BS, especially two Japanese siblings. In the latter of the review, the functional domains of BLM, those are nuclear localization signal and the interacting proteins such as ATM, are shown. Several lines of reports indicates that BLM helicase is involved in the re-initiation of DNA replication at sites where replication forks have arrested or collapsed. To elucidate the precise function of RecQ helicase in DNA repair and replication aims not only to improve our understanding of the molecular basis for tumorigenesis, but also to extend the range of potential therapeutic targets.
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PMID:The function of RecQ helicase gene family (especially BLM) in DNA recombination and joining. 1549 27

Defects of DNA repair underlie genetic syndromes. Chromosomal aberrations and mutations might cause specific inborn defects. There are several syndromes with characteristic clinical features, which appear to be caused by chromosome instability which is a consequence of DNA repair defects. This article describe syndromes where hereditary mutations are the reason of chromosomal instability and cause serious clinical results: ataxia-telangiectasia, Nijmegen breakage syndrome, Bloom syndrome, Fanconi's anemia, ICF syndrome, Roberts syndrome, dominantly inherited--PCD, Werner syndrome, xeroderma pigmentosum, Cockayne syndrome, trichothiodystrophy (TTD) and Rothmund-Thomson syndrome (RTS).
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PMID:[Chromosome instability syndromes]. 1687 67

Bloom syndrome (BS) is an autosomal recessive disorder characterized by a marked predisposition to cancer and elevated genomic instability. The defective protein in BS, BLM, is a member of the RecQ helicase family and is believed to function in various DNA transactions, including in replication, repair, and recombination. Here, we show that both endogenous and overexpressed human BLM accumulates at sites of laser light-induced DNA double-strand breaks within 10s and colocalizes with gammaH2AX and ATM. Like its RecQ helicase family member, WRN, the defective protein in Werner syndrome, dissection of the BLM protein revealed that its HRDC domain is sufficient for its recruitment to the damaged sites. In addition, we confirmed that the C-terminal region spanning amino acids 1250-1292 within the HRDC domain is necessary for BLM recruitment. To identify additional proteins required for the recruitment of BLM, we examined the recruitment of BLM in various mutants generated from chicken DT40 cells and found that the early accumulation of BLM was not dependent on the presence of ATM, RAD17, DNA-PKcs, NBS1, XRCC3, RAD52, RAD54, or WRN. Thus, HRDC domain in DNA helicases is a common early responder to DNA double-strand breaks, enabling BLM and WRN to be involved in DNA repair.
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PMID:BLM is an early responder to DNA double-strand breaks. 1687 11

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