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)

Catastrophic losses of telomeric sequences have recently been described during apoptosis, senescence and tumorigenesis in murine and human cells, in ataxia telangiectasia patients and in immortalized cells in which telomerase is inactive. A mechanism that underlies a single-step non-reciprocal telomere deletion called telomere rapid deletion in Saccharomyces cerevisiae might provide clues for future studies of catastrophic telomere loss in higher eukaryotes.
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PMID:Clues to catastrophic telomere loss in mammals from yeast telomere rapid deletion. 1463 39

Ataxia telangiectasia is an autosomal recessive disease with a striking predisposition of lymphoid malignancies. ATM mutations have been reported in adult sporadic lymphoma and leukaemia. The aim of this study was to investigate the possible involvement of the ATM gene in the carcinogenesis of Hodgkin disease in children. Tumours were obtained from 23 patients and were subjected to mutation screening and loss of heterozygosity analysis. Eight base substitutions were identified in seven patients. Of them, Y54Y, a silent change, was observed in two patients and a known polymorphism, D1853N, in three patients. Of the other two patients, one harboured a combined genotype P604S/F1463C, identified previously in two patients with Hodgkin lymphoma, and the other a novel missense mutation, V595A. The alterations were present in the germ line, and both had a more aggressive disease. In all, 100 matched normal ethnic controls were screened for these mutations and P604S/F1463C was identified in one healthy control. Loss of heterozygosity was identified in four patients and in three of them it was located centromeric to the ATM gene, and, in one, it spanned a large region, indicating the involvement of other tumour-suppressor genes in this disease. Missense variants of the ATM gene are a rare event in childhood Hodgkin disease.
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PMID:Molecular variants of the ATM gene in Hodgkin's disease in children. 1473 3

The gene responsible for ataxia telangiectasia (AT) encodes ATM protein, which plays a major role in the network of a signal transduction initiated by double strand DNA breaks. To determine how radiation-induced genomic instability is modulated by the dysfunction of ATM protein, we examined radiation-induced delayed chromosomal instability in individual cell lines established from wild-type Atm(+/+), heterozygote Atm(+/-), and knock-out Atm(-/-) mouse embryos. The results indicate that Atm(-/-) mouse cells are highly susceptible to the delayed induction of telomeric instability and end-to-end chromosome fusions by radiation in addition to the elevated spontaneous telomeric instability detected by telomere fluorescence in situ hybridization (FISH). The telomeric instability was characterized by abnormal telomere FISH signals, including loss of the signals and the extra-chromosomal signals that were associated and/or not associated with chromosome ends, suggesting that Atm deficiency makes telomeres vulnerable to breakage. Thus, the present study shows that Atm protein plays an essential role in maintaining telomere integrity and prevents chromosomes from end-to-end fusions, indicating that telomeres are a target for the induction of genomic instability by radiation.
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PMID:X-ray-induced telomeric instability in Atm-deficient mouse cells. 1501 24

Mammalian telomeres contain long tandem (TTAGGG)n repeats, which are protected by a complex of different proteins. Telomeric repeat-binding factors TRF1 and TRF2 play the key role in protection of telomeres through the formation of terminal loops (called T-loop). A T-loop isolates the 3' strand telomeric end and with this mechanism protects telomeres from the influence of enzymes of DNA reparation and telomere fusions and also interferes with the interaction of telomerase with telomeres. Many vertebrate species also contain large blocks of (TTAGGG)n sequences in pericentric and interstitial chromosome bands. The Chinese hamster genome contains a total of 18 arrays of these non-telomeric internal (TTAGGG)n sequences (ITs). Chromosome bands containing these arrays are unstable and should be protected with the help of another mechanism, rather than that using telomeres. In this study we analysed association of Green Fluorescent Protein (GFP)-tagged TRF1 in Chinese hamster V79 cells with ITs. We found that in these cells GFP-TRF1 associates with ITs in the interphase nucleus. We detected a little overlap between IT-associated GFP-TRF1 and random DSB sites visualized after the treatment of V79 cells with ionizing radiation. We found that the treatment of V79 cells with WM significantly increases the frequency of spontaneous chromosome aberrations. These WM effects are possible due to inhibiting phosphorylation of TRF1 by ATM. TRF1 is known to be eliminated from telomeres by overexpression of TANK1, which induces TRF1 poly(ADP-ribosyl)ation. We transfected V79 cells by plasmid encoding TANK1 and found that the frequency of chromosome rearrangements increased in these cells independently of their treatment by IR. Taken together, our results suggest that TRF1 may be involved in the sequence-specific protection of internal non-telomeric (TTAGGG)n repeats.
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PMID:[Recognition of internal (TTAGGG)n repeats by telomeric protein TRF1 and its role in maintenance of chromosomal stability in Chinese hamster cells]. 1502 54

Loss of telomere equilibrium and associated chromosome-genomic instability might effectively promote tumour progression. Telomere function may have contrasting roles: inducing replicative senescence and promoting tumourigenesis and these roles may vary between cell types depending on the expression of the enzyme telomerase, the level of mutations induced, and efficiency/deficiency of related DNA repair pathways. We have identified an alternative telomere maintenance mechanism in mouse embryonic stem cells lacking telomerase RNA unit (mTER) with amplification of non-telomeric sequences adjacent to existing short stretches of telomere repeats. Our quest for identifying telomerase-independent or alternative mechanisms involved in telomere maintenance in mammalian cells has implicated the involvement of potential DNA repair factors in such pathways. We have reported earlier on the telomere equilibrium in scid mouse cells which suggested a potential role of DNA repair proteins in telomere maintenance in mammalian cells. Subsequently, studies by us and others have shown the association between the DNA repair factors and telomere function. Mice deficient in a DNA-break sensing molecule, PARP-1 (poly [ADP]-ribopolymerase), have increased levels of chromosomal instability associated with extensive telomere shortening. Ku80 null cells showed a telomere shortening associated with extensive chromosome end fusions, whereas Ku80+/- cells exhibited an intermediate level of telomere shortening. Inactivation of PARP-1 in p53-/- cells resulted in dysfunctional telomeres and severe chromosome instability leading to advanced onset and increased tumour incidence in mice. Interestingly, haploinsufficiency of PARP-1 in Ku80 null cells causes more severe telomere shortening and chromosome abnormalities compared to either PARP-1 or Ku80 single null cells and Ku80+/-PARP-/- mice develop spontaneous tumours. This overview will focus mainly on the role of DNA repair/recombination and DNA damage signalling molecules such as PARP-1, DNA-PKcs, Ku70/80, XRCC4 and ATM which we have been studying for the last few years. Because the maintenance of telomere function is crucial for genomic stability, our results will provide new insights into the mechanisms of chromosome instability and tumour formation.
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PMID:DNA repair factors and telomere-chromosome integrity in mammalian cells. 1516 24

Replicative senescence is a natural barrier to cellular proliferation that is triggered by telomere erosion and dysfunction. Here, we demonstrate that ATM activation and H2AX-gamma nuclear focus formation are sensitive markers of telomere dysfunction in primary human fibroblasts. Whereas the activated form of ATM and H2AX-gamma foci were rarely observed in early-passage cells, they were readily detected in late-passage cells. The ectopic expression of telomerase in late-passage cells abrogated ATM activation and H2AX-gamma focus formation, suggesting that these stress responses were the consequence of telomere dysfunction. ATM activation was induced in quiescent fibroblasts by inhibition of TRF2 binding to telomeres, indicating that telomere uncapping is sufficient to initiate the telomere signaling response; breakage of chromosomes with telomeric associations is not required for this activation. Although ATM activation and H2AX-gamma foci were readily observed in late-passage cells, they disappeared once cells became fully senescent, indicating that constitutive signaling from dysfunctional telomeres is not required for the maintenance of senescence.
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PMID:Disappearance of the telomere dysfunction-induced stress response in fully senescent cells. 1517 78

The kinase activity of DNA-dependent protein kinase (DNA-PK) is required for efficient repair of DNA double-strand breaks (DSB) by non-homologous end joining (NHEJ). DNA-PK also participates in protection of mammalian telomeres, the natural ends of chromosomes. Here we investigate whether the kinase activity of DNA-PK is similarly required for effective telomere protection. DNA-PK proficient mouse cells were exposed to a highly specific inhibitor of DNA-PK phosphorylation designated IC86621. Chromosomal end-to-end fusions were induced in a concentration-dependent manner, demonstrating that the telomere end-protection role of DNA-PK requires its kinase activity. These fusions were uniformly chromatid-type, consistent with a role for DNA-PK in capping telomeres after DNA replication. Additionally, fusions involved exclusively telomeres produced via leading-strand DNA synthesis. Unexpectedly, the rate of telomeric fusions induced by IC86621 exceeded that which occurs spontaneously in DNA-dependent protein kinase catalytic subunit (DNA-PKcs) mutant cells by up to 110-fold. One explanation, that IC86621 might inhibit other, as yet unknown proteins, was ruled out when the drug failed to induce fusions in DNA-PKcs knock-out mouse cells. IC86621 did not induce fusions in Ku70 knock-out cells suggesting the drug requires the holoenzyme to be effective. ATM also is required for effective chromosome end protection. IC86621 increased fusions in ATM knock-out cells suggesting DNA-PK and ATM act in different telomere pathways. These results indicate that the kinase activity of DNA-PK is crucial to reestablishing a protective terminal structure, specifically on telomeres replicated by leading-strand DNA synthesis.
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PMID:The kinase activity of DNA-PK is required to protect mammalian telomeres. 1517 38

The MRN complex consists of the two evolutionarily conserved components Mre11 and Rad50 and the third less-conserved component Nbs1/Xrs2. This complex mediates telomere maintenance in addition to a variety of functions in response to DNA double-strand breaks, including homologous recombination, nonhomologous end joining (NHEJ), and activation of DNA damage checkpoints. Mutations in the Mre11 gene cause the human ataxia-telangiectasia-like disorder (ATDL). Here, we show that null mutations in the Drosophila mre11 and rad50 genes cause both telomeric fusion and chromosome breakage. Moreover, we demonstrate that these mutations are in the same epistasis group required for telomere capping and mitotic chromosome integrity. Using an antibody against Rad50, we show that this protein is uniformly distributed along mitotic chromosomes, and that Rad50 is unstable in the absence of its binding partner Mre11. To define the roles of rad50 and mre11 in telomere protection, mutant chromosome preparations were immunostained for both HP1 and HOAP, two proteins that protect Drosophila telomeres from fusion. Cytological analysis revealed that mutations in rad50 and mre11 drastically reduce accumulation of HOAP and HP1 at telomeres. This suggests that the MRN complex protects Drosophila telomeres by facilitating recruitment of HOAP and HP1 at chromosome ends.
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PMID:The Drosophila Mre11/Rad50 complex is required to prevent both telomeric fusion and chromosome breakage. 1529 53

The telomeric protein TRF2 is required to prevent mammalian telomeres from activating DNA damage checkpoints. Here we show that overexpression of TRF2 affects the response of the ATM kinase to DNA damage. Overexpression of TRF2 abrogated the cell cycle arrest after ionizing radiation and diminished several other readouts of the DNA damage response, including phosphorylation of Nbs1, induction of p53, and upregulation of p53 targets. TRF2 inhibited autophosphorylation of ATM on S1981, an early step in the activation of this kinase. A region of ATM containing S1981 was found to directly interact with TRF2 in vitro, and ATM immunoprecipitates contained TRF2. We propose that TRF2 has the ability to inhibit ATM activation at telomeres. Because TRF2 is abundant at chromosome ends but not elsewhere in the nucleus, this mechanism of checkpoint control could specifically block a DNA damage response at telomeres without affecting the surveillance of chromosome internal damage.
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PMID:The telomeric protein TRF2 binds the ATM kinase and can inhibit the ATM-dependent DNA damage response. 1531 56

We report on the function of the human ortholog of Saccharomyces cerevisiae Rif1 (Rap1-interacting factor 1). Yeast Rif1 associates with telomeres and regulates their length. In contrast, human Rif1 did not accumulate at functional telomeres, but localized to dysfunctional telomeres and to telomeric DNA clusters in ALT cells, a pattern of telomere association typical of DNA-damage-response factors. After induction of double-strand breaks (DSBs), Rif1 formed foci that colocalized with other DNA-damage-response factors. This response was strictly dependent on ATM (ataxia telangiectasia mutated) and 53BP1, but not affected by diminished function of ATR (ATM- and Rad3-related kinase), BRCA1, Chk2, Nbs1, and Mre11. Rif1 inhibition resulted in radiosensitivity and a defect in the intra-S-phase checkpoint. The S-phase checkpoint phenotype was independent of Nbs1 status, arguing that Rif1 and Nbs1 act in different pathways to inhibit DNA replication after DNA damage. These data reveal that human Rif1 contributes to the ATM-mediated protection against DNA damage and point to a remarkable difference in the primary function of this protein in yeast and mammals.
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PMID:Human Rif1, ortholog of a yeast telomeric protein, is regulated by ATM and 53BP1 and functions in the S-phase checkpoint. 1534 90

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