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)

Human hereditary diseases such as xeroderma pigmentosum, Fanconi's anemia, ataxia telangiectasia, and Bloom's syndrome are characterized by a proneness for developing cancer associated with abnormalities in the processing of DNA damage. The molecular defects responsible for predisposing human tissues to cancer are still not well understood, despite the fact that a considerable amount of work has already been done on this problem. In this paper, we show that in human tumor cell lines, in cells transformed by DNA tumor viruses, and in cells derived from certain cancer-prone disorders, the level of activity of a 42-kDa deoxyribonuclease is many times higher than in diploid untransformed control cells. This suggests that this activity is linked to, or may play a role in, malignant transformation.
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PMID:Enhanced deoxyribonuclease activity in human transformed cells and in Bloom's syndrome cells. 280 19

Mutations in atm and p53 cause the human cancer-associated diseases ataxia-telangiectasia and Li-Fraumeni syndrome, respectively. The two genes are believed to interact in a number of pathways, including regulation of DNA damage-induced cell-cycle checkpoints, apoptosis and radiation sensitivity, and cellular proliferation. Atm-null mice, as well as those null for p53, develop mainly T-cell lymphomas, supporting the view that these genes have similar roles in thymocyte development. To study the interactions of these two genes on an organismal level, we bred mice heterozygous for null alleles of both atm and p53 to produce all genotypic combinations. Mice doubly null for atm and p53 exhibited a dramatic acceleration of tumour formation relative to singly null mice, indicating that both genes collaborate in a significant manner to prevent tumorigenesis. With respect to their roles in apoptosis, loss of atm rendered thymocytes only partly resistant to irradiation-induced apoptosis, whereas additional loss of p53 engendered complete resistance. This implies that the irradiation-induced atm and p53 apoptotic pathways are not completely congruent. Finally-and in contrast to prior predictions-atm and p53 do not appear to interact in acute radiation toxicity, suggesting a separate atm effector pathway for this DNA damage response and having implications for the prognosis and treatment of human tumours.
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PMID:atm and p53 cooperate in apoptosis and suppression of tumorigenesis, but not in resistance to acute radiation toxicity. 924 Dec 81

Epidemiological studies have suggested that ataxia-telangiectasia (AT) heterozygotes have a predisposition to cancer, especially breast cancer in women. Now, haplotyping can identify heterozygotes for AT mutation (ATM) in AT families, allowing the risk of cancer associated with ATM heterozygosity status to be better assessed. We report a family study of AT patients, in which we estimated the risk of cancer according to ATM heterozygosity status. We analyzed demographic characteristics and occurrence of cancer in 1,423 relatives of AT patients. Haplotyping was performed in living relatives. The probability of being heterozygotes for ATM was calculated for deceased relatives. The risk of developing cancer was estimated in the cohort of relatives, and expected numbers of cancer cases were calculated from French age period-specific incidence rates. The number of cancers at all sites in the total population of relatives was not higher than expected. However, significant heterogeneity was found according to ATM heterozygosity status. This is mainly due to the increased risk of breast cancer previously observed in obligate heterozygotes. In obligate heterozygotes, relative risk (RR) was non-significantly increased for thyroid cancer, leukemia and liver cancer. Risks of ovarian, lung, pancreatic, kidney, stomach and colorectal cancers were non-significantly increased in the group with 0.5 probability of being heterozygotes. The RR was not significantly increased for any site of cancer, except for breast. Therefore, there is no evidence that specific screening of relatives of AT patients would be justified at particular sites other than the breast. However, the amplitude of the risk of breast cancer estimated in heterozygous women does not appear to justify a separate screening program from that already available to women with a first-degree relative affected by breast cancer.
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PMID:Cancer risk in heterozygotes for ataxia-telangiectasia. 1141 Aug 79

Epidemiological studies have indicated that ataxia-telangiectasia (AT) heterozygotes in AT families have an increased risk of cancer, particularly of breast cancer (BC). However, in BC case-control studies, no significant differences were found in the frequency of ATM mutations between patients and controls. In such studies missense mutations were found more frequently than truncating mutations, suggesting that the cancer risk depends on mutation type. To investigate this possibility, we assessed the risk of BC according to the type and position of the ATM truncating mutation in extended AT families. DNA or RNA that had been isolated from blood or buccal cells of AT children and their relatives was screened for ATM germ-line mutations using restriction endonuclease fingerprinting, the protein truncation test, fluorescence-assisted mismatch analysis, and direct sequencing. The standardized incidence ratio of cancer associated with ATM heterozygosity status and type of mutation was estimated. We tested for genotype-phenotype correlations by simulations, permuting mutations among parental branches. No significant difference was found in the relative risk of breast cancer or any other type of cancer based on mutation type. However, the occurrence of BC may be associated with truncating mutations in certain binding domains of the ATM protein (e.g., P53/BRCA1, beta-adaptin, and FAT domains; P = 0.006). In this limited sample set, the presence of missense or truncating ATM mutations was not associated with different cancer risks. The risk of BC appeared to be associated with the alteration of binding domains rather than with the length of the predicted ATM protein.
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PMID:Cancer risk according to type and location of ATM mutation in ataxia-telangiectasia families. 1539 Jan 80

Ataxia-telangiectasia (AT) is a rare autosomal recessive early childhood disorder, characterized by progressive neuronal degeneration, immunological deficiency, radiosensitivity and an increased risk of cancer caused in most cases by mutations in the AT-mutated gene (ATM). Epidemiological studies on AT families have shown that AT heterozygous women have an increased risk of developing breast cancer (BC). The ATM protein plays a central role in the recognition and repair of DNA double-strand breaks and the subsequent activation of cell-cycle checkpoints. Whilst AT is a rare disease, 0.5-1 % of the general population are estimated to be AT mutation carriers, thus any increases in the risks of cancer associated with ATM carrier status are of public health relevance. The main results of our published studies on the risk of BC in 34 French AT families according to heterozygote status, type of ATM mutation and exogenous factors are summarized here. The risk of BC was higher in ATM heterozygous (HetATM) women and did not differ significantly according to the type of ATM mutation (missense vs truncating) carried by the AT family members but appeared associated with the position of some truncating mutations in certain binding domains of the ATM protein. The effect of exogenous factors, such as reproductive life factors and exposure to ionizing radiation, on the risk of BC according to ATM heterozygote status was assessed. There was no evidence for interaction (except for age at first full-term pregnancy). These findings does not appear to justify a separate screening program from that already available to other women with a first-degree relative affected by BC, as their risks have similar amplitude. Chest X-rays did not appear to be a risk factor for BC in our study population. More powerful studies, using data sets pooled from international sources are being set up to confirm these observations.
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PMID:Ataxia-telangiectasia genes and breast cancer risk in a French family study. 1618 Jul 24

Basic transcription factor 3 (BTF3) acts as a transcription factor and modulator of apoptosis, and is differentially expressed in colorectal cancer and glioblastomas. In the present study, the expression of BTF3, as well as its role in apoptosis and gene transcription, was analyzed in pancreatic ductal adenocarcinoma (PDAC). QRT-PCR, immunohistochemistry, immunoblotting, and immunofluorescence analyses were carried out to investigate BTF3 mRNA/protein expression and localization. BTF3 silencing in pancreatic cancer cells was performed using specific siRNA molecules. Functional analyses were carried out using cell growth assays, apoptosis assays, and DNA array analysis. BTF3 and BTF3a exhibited 1.3-fold and 4.6-fold increased median mRNA levels in PDAC tissues, compared to normal pancreatic tissues. BTF3 localized mainly in the cytoplasm and nuclei of tubular complexes and pancreatic cancer cells. Pancreatic cancer cell lines expressed the mRNA and protein of BTF3a (27 kDa) and BTF3b (22 kDa) isoforms. BTF3 silencing using specific siRNA molecules did not influence apoptosis induced by chemotherapy or radiotherapy. In contrast, BTF3 silencing resulted in down-regulation of several cancer-associated genes, including EPHB2, ABL2, HPSE2 and ATM, and up-regulation of KRAG, RRAS2, NFkappa-B, MRVI1, MADCAM1 and others. In conclusion, BTF3 is overexpressed in PDAC, where it acts as a transcriptional regulator rather than a direct modulator of apoptosis.
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PMID:Basic transcription factor 3 (BTF3) regulates transcription of tumor-associated genes in pancreatic cancer cells. 1731 87

Ataxia-Telangiectasia and Rad3 related kinase (ATR) is a major gatekeeper of genomic stability and has been the subject of exhaustive study in the context of cell cycle progression and senescence as a DNA damage-induced response. Conditional knockout of the kinase in adult mice results in accelerated aging phenomena, such as such hair graying, alopecia, kyphosis, osteoporosis, thymic involution, fibrosis, and other abnormalities. In addition to that, recent reports strongly implicate signaling mediated by this kinase in the regulation of alternative splicing of certain, mostly cancer-associated transcripts. Interest to the function of mRNA synthesis and processing is constantly increasing as severe degenerative diseases, such as cancer, cystic fibrosis and Hutchinson-Gilford progeria syndrome are at least partly attributed to these abnormalities. In light of the above, we investigate the RNA processing machinery in senescent fibroblasts as opposed to young, either exponentially proliferating or quiescent, further focusing on the distribution and localization of active, phosphorylated ATR at ser428. This study implicates the spatiotemporal presence of the phosphorylated kinase in the regulation of mRNA splicing and polyadenylation. This function appears perturbed in senescent cells, accompanied by a distinct pattern of phospho-ATR in the senescent nucleus.
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PMID:Compromise in mRNA processing machinery in senescent human fibroblasts: implications for a novel potential role of Phospho-ATR (ser428). 2008 58

Gammaherpesviruses, such as Epstein-Barr virus (EBV), are ubiquitous cancer-associated pathogens that interact with DNA damage response, a tumor suppressor network. Chronic gammaherpesvirus infection and pathogenesis in a DNA damage response-insufficient host are poorly understood. Ataxia-telangiectasia (A-T) is associated with insufficiency of ataxia-telangiectasia mutated (ATM), a critical DNA damage response kinase. A-T patients display a pattern of anti-EBV antibodies suggestive of poorly controlled EBV replication; however, parameters of chronic EBV infection and pathogenesis in the A-T population remain unclear. Here we demonstrate that chronic gammaherpesvirus infection is poorly controlled in an animal model of A-T. Intriguingly, in spite of a global increase in T cell activation and numbers in wild-type (wt) and ATM-deficient mice in response to mouse gammaherpesvirus 68 (MHV68) infection, the generation of an MHV68-specific immune response was altered in the absence of ATM. Our finding that ATM expression is necessary for an optimal adaptive immune response against gammaherpesvirus unveils an important connection between DNA damage response and immune control of chronic gammaherpesvirus infection, a connection that is likely to impact viral pathogenesis in an ATM-insufficient host.
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PMID:Ataxia telangiectasia mutated kinase controls chronic gammaherpesvirus infection. 2343 2

Several lines of evidence suggest that risk estimates for cancer associated with radiation exposure incorporate individuals who are more and less inherently susceptible to the carcinogenic effects of radiation, and the technology to further evaluate this issue is now available. For example, genome-wide association scan studies could be undertaken to address, at least in part, the direction of causality in the observations of differential sensitivity to radiomimetic agents in cancer cases compared with normal individuals, thereby building on previous observations that sensitivity to these agents is higher in apparently normal individuals carrying gene mutations in NBS and ATM. Direct studies of risk of second cancers in relation to radiation are underway, and some results have been reported (e.g. for the PRDM1 gene as related to sensitivity to radiation-related cancers after treatment for Hodgkin's lymphoma). It is important to understand the risk synergies between variants affecting associations with various cancers defining susceptibility in unexposed populations and the excess risk in populations therapeutically or occupationally exposed to radiation for the purpose of risk protection, especially as additional baseline risk variants are discovered in increasingly large-scale analyses. While there are studies that are beginning to address these questions, there have been no compelling new discoveries, to date, to indicate that predisposition information should be included in risk assessment. The conclusions in ICRP Publications 79 and 103 appear relevant today.
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PMID:Genetic predisposition to radiation-related cancer and potential implications for risk assessment. 2308 9

Preservation of genomic integrity is an essential process for cell homeostasis. DNA-damage response (DDR) promotes faithful transmission of genomes in dividing cells by reversing the extrinsic and intrinsic DNA damage, and is required for cell survival during replication. Radiation and genotoxic drugs have been widely used in the clinic for years to treat cancer but DNA repair mechanisms are often associated with chemo- and radio-resistance. To increase the efficacy of these treatments, inhibitors of the major components of the DDR such as ATM (ataxia telangiectasia mutated), ATR (ATM and Rad3-related), DNA-PK (DNA-dependent protein kinase, catalytic subunit), Chk1 (checkpoint protein 1) and Chk2 (checkpoint protein 2) have been used to confer radio- and/or chemosensitivity upon cancer cells. The elucidation of the molecular mechanisms of DNA repair and the discovery that tumors are frequently repair-deficient provide a therapeutic opportunity to selectively target this deficiency. Genetic mutations in the DNA repair genes constitute not only the initiating event of the cancer cell but also its weakness since the mutated gene is often needed by the cancer cell to maintain its own survival. This weakness has been exploited to specifically kill the tumor cells while sparing the normal ones, a concept known as 'synthetic lethality'. Recent efforts in the design of cancer therapies are directed towards exploiting synthetic lethal interactions with cancer-associated mutations in the DDR. In this review, we will discuss the latest concepts in targeting DNA repair mechanisms in cancer and the novel and promising compounds currently in clinical trials.
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PMID:Targeting DNA repair mechanisms in cancer. 2310 92

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