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)

Accumulation of DNA damage has been associated with the onset of senescence and predisposition to cancer. The gene responsible for ataxia telangiectasia (A-T) is ATM (ataxia-telangiectasia mutant), a master controller of cellular pathways and networks, orchestrating the responses to a specific type of DNA damage: the double strand break. Based on the homology of the human ATM gene to the TEL1, MEC1 and rad3 genes of yeast, it has now been demonstrated that mutations in ATM lead to defective telomere maintenance in mammalian cells. While ATM has both nuclear and cytoplasmic functions, this review will focus on its roles in telomere metabolism and how ATM and telomeres serve as controllers of cellular responses to DNA damage.
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PMID:ATM function and telomere stability. 1185 Jul 86

In eukaryotes, a family of related protein kinases (the ATM family) is involved in regulating cellular responses to DNA damage and telomere length. In the yeast Saccharomyces cerevisiae, two members of this family, TEL1 and MEC1, have functionally redundant roles in both DNA damage repair and telomere length regulation. Strains with mutations in both genes are very sensitive to DNA damaging agents, have very short telomeres, and undergo cellular senescence. We find that strains with the double mutant genotype also have approximately 80-fold increased rates of mitotic recombination and chromosome loss. In addition, the tel1 mec1 strains have high rates of telomeric fusions, resulting in translocations, dicentrics, and circular chromosomes. Similar chromosome rearrangements have been detected in mammalian cells with mutations in ATM (related to TEL1) and ATR (related to MEC1) and in mammalian cells that approach cell crisis.
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PMID:Regulation of genome stability by TEL1 and MEC1, yeast homologs of the mammalian ATM and ATR genes. 1207 49

The intra-S-phase checkpoint in yeast responds to stalled replication forks by activating the ATM-like kinase Mec1 and the CHK2-related kinase Rad53, which in turn inhibit spindle elongation and late origin firing and lead to a stabilization of DNA polymerases at arrested forks. A mutation that destabilizes the second subunit of the Origin Recognition Complex, orc2-1, reduces the number of functional replication forks by 30% and severely compromises the activation of Rad53 by replication stress or DNA damage in S phase. We show that the restoration of the checkpoint response correlates in a dose-dependent manner with the restoration of pre-replication complex formation in G1. Other forms of DNA damage can compensate for the reduced level of fork-dependent signal in the orc2-1 mutant, yet even in wild-type cells, the amount of damage required for Rad53 activation is higher in S phase than in G2. Our data suggest the existence of an S-phase-specific threshold that may be necessary to allow cells to tolerate damage-like DNA structures present at normal replication forks.
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PMID:ORC and the intra-S-phase checkpoint: a threshold regulates Rad53p activation in S phase. 1250 44

In mammalian cells, gamma-irradiation activates checkpoint controls to delay entry into, or passage through S-phase, while chronic exposure to methyl methanesulfonate or hydroxyurea causes a similar delay in yeast. In yeast, at least five genes are involved: RAD9, RAD17, RAD24, RAD53 and MEC1, a homologue of ATM. Here, using flow cytometry analysis and alkaline sucrose gradient centrifugation of labeled, newly made DNA, we demonstrate, in synchronized RAD wild-type Saccharomyces cerevisiae cells, that: (1) gamma-irradiation at START delays entry into S-phase, (2) irradiation shortly before or during early S-phase delays completion of S-phase and (3) the latter response is largely a consequence of replicon initiation inhibition. The delay produced by irradiation during early S-phase depends on the function of the checkpoint genes RAD9, RAD17, RAD24, RAD53, MEC1 and MEC3. However, at least four, RAD17, RAD53, MEC1, MEC3, are not needed to delay S-phase progression when cells are irradiated shortly before S-phase begins.
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PMID:Ionizing irradiation effects on S-phase in checkpoint mutants of the yeast Saccharomyces cerevisiae. 1261 4

MEC1 and TEL1 encode ATR- and ATM-related proteins in the budding yeast Saccharomyces cerevisiae, respectively. Phleomycin is an agent that catalyzes double-strand breaks in DNA. We show here that both Mec1 and Tel1 regulate the checkpoint response following phleomycin treatment. MEC1 is required for Rad53 phosphorylation and cell-cycle progression delay following phleomycin treatment in G1, S or G2/M phases. The tel1Delta mutation confers a defect in the checkpoint responses to phleomycin treatment in S phase. In addition, the tel1Delta mutation enhances the mec1 defect in activation of the phleomycin-induced checkpoint pathway in S phase. In contrast, the tel1Delta mutation confers only a minor defect in the checkpoint responses in G1 phase and no apparent defect in G2/M phase. Methyl methanesulfonate (MMS) treatment also activates checkpoints, inducing Rad53 phosphorylation in S phase. MMS-induced Rad53 phosphorylation is not detected in mec1Delta mutants during S phase, but occurs in tel1Delta mutants similar to wild-type cells. Finally, Xrs2 is phosphorylated after phleomycin treatment in a TEL1-dependent manner during S phase, whereas no significant Xrs2 phosphorylation is detected after MMS treatment. Together, our results support a model in which Tel1 contributes to checkpoint control in response to phleomycin-induced DNA damage in S phase.
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PMID:The ATM-related Tel1 protein of Saccharomyces cerevisiae controls a checkpoint response following phleomycin treatment. 1262 13

ATR is an essential protein that functions as a damage sensor and a proximal kinase in the DNA damage checkpoint response in mammalian cells. It is a member of the phosphoinositide 3-kinase-like kinase (PIKK) family, which includes ATM, ATR, and DNA-dependent protein kinase. Recently, it was found that ATM is an oligomeric protein that is converted to an active monomeric form by phosphorylation in trans upon DNA damage, and this raised the possibility that other members of the PIKK family may be regulated in a similar manner. Here we show that ATR is a monomeric protein associated with a smaller protein called ATRIP with moderate affinity. The ATR protein by itself or in the form of the ATR-ATRIP heterodimer binds to naked or replication protein A (RPA)-covered DNAs with comparable affinities. However, the phosphorylation of RPA by ATR is dependent on single-stranded DNA and is stimulated by ATRIP. These findings suggest that the regulation and mechanism of action of ATR are fundamentally different from those of the other PIKK proteins.
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PMID:Quaternary structure of ATR and effects of ATRIP and replication protein A on its DNA binding and kinase activities. 1472 73

A critical pre-cytotoxic and -apoptotic DNA lesion induced by methylating carcinogens and chemotherapeutic drugs is O6-methylguanine (O6MeG). The mechanism by which O6MeG causes cell death via apoptosis is only partially understood. The current model ascribes a role to DNA replication and mismatch repair, which converts O6MeG into a critical distal lesion (presumably a DNA double-strand break) that is finally responsible for genotoxicity and apoptosis. Here we analysed whether the PI3-like kinase ATM is involved in this process. ATM is a major player in recognizing and signaling DNA breaks, but most reports are limited to ionizing radiation. Comparing mouse ATM knockout fibroblasts (ATM-/-) with the corresponding wild-type (ATM+/+) we show that ATM-/- cells are hypersensitive to the cytotoxic and apoptosis-inducing effect of N-methyl-N'-nitro-N-nitrosoguanidine (MNNG). Inhibition of O6-methylguanine-DNA methyltransferase (MGMT) activity by O6-benzylguanine enhanced cell killing whereas the increase of MGMT activity by transfection with an expression vector provoked MNNG resistance. This was more pronounced in ATM-/- than in ATM+/+ cells, suggesting that O6MeG is responsible, at least in part, for increased MNNG sensitivity of ATM-/- cells. Cytogenetic studies showed that MNNG-induced sister-chromatid exchange frequencies were the same in ATM-/- and ATM+/+ cells in the first mitoses following treatment, but higher in ATM-/- cells than in the wild-type in the second post-treatment mitoses, when MGMT was depleted. Also, a significant higher frequency of MNNG-induced chromosomal aberrations was observed in ATM-/- than in ATM+/+ cells when analysed at a late recovery time, which is consistent with O6MeG being the inducing lesion. In summary, we conclude that ATM is not only involved in resistance to ionizing radiation but also to methylating agents, playing a role in the repair of secondary DNA damage generated from O6MeG lesions. The data also show that ATM is not required for activating the apoptotic pathway in response to O6MeG since ATM-/- cells are able to undergo apoptosis with high frequency.
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PMID:Loss of ATM sensitizes against O6-methylguanine triggered apoptosis, SCEs and chromosomal aberrations. 1501 Mar 11

Ataxia telangiectasia-mutated and Rad3-related (ATR) plays a central role in cell-cycle regulation, transmitting DNA damage signals to downstream effectors of cell-cycle progression. In animals, ATR is an essential gene. Here, we find that Arabidopsis (Arabidopsis thaliana) atr-/- mutants were viable, fertile, and phenotypically wild-type in the absence of exogenous DNA damaging agents but exhibit altered expression of AtRNR1 (ribonucleotide reductase large subunit) and alteration of some damage-induced cell-cycle checkpoints. atr mutants were hypersensitive to hydroxyurea (HU), aphidicolin, and UV-B light but only mildly sensitive to gamma-radiation. G2 arrest was observed in response to gamma-irradiation in both wild-type and atr plants, albeit with slightly different kinetics, suggesting that ATR plays a secondary role in response to double-strand breaks. G2 arrest also was observed in wild-type plants in response to aphidicolin but was defective in atr mutants, resulting in compaction of nuclei and subsequent cell death. By contrast, HU-treated wild-type and atr plants arrested in G1 and showed no obvious signs of cell death. We propose that, in plants, HU invokes a novel checkpoint responsive to low levels of deoxynucleotide triphosphates. These results demonstrate the important role of cell-cycle checkpoints in the ability of plant cells to sense and cope with problems associated with DNA replication.
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PMID:ATR regulates a G2-phase cell-cycle checkpoint in Arabidopsis thaliana. 1507 97

Recent studies have identified, hSMG-1 as the newest member of the phosphoinositide 3-kinase(PI3-kinase)-related kinase (PIKK) family. The protein kinase activity of hSMG-1 resembles that of the related PIKK, ATM, both in terms of substrate specificity and its sensitivity to inhibition by the fungal metabolite wortmannin. hSMG-1 is the ortholog of a Caenorhabditis elegans protein, CeSMG-1, which has been genetically linked to a critical mRNA surveillance pathway termed nonsense-mediated decay (NMD). The function of NMD is to mark for rapid degradation mRNAs that bear a premature termination codon. Compelling evidence now indicates that hSMG-1 is also a central player in the NMD pathway in human cells. In addition, hSMG-1, like ATM, appears to be involved in the recognition and/or repair of damaged DNA in these cells. In this review, we introduce a model in which hSMG-1 teams with ATM and ATR to insure the overall quality of the transcriptome in human cells.
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PMID:The ATM-related kinase, hSMG-1, bridges genome and RNA surveillance pathways. 1527 77

Seckel syndrome (SCKL) is a rare, genetically heterogeneous disorder, with dysmorphic facial appearance, growth retardation, microcephaly, mental retardation, variable chromosomal instability, and hematological disorders. To date, three loci have been linked to this syndrome, and recently, the gene encoding ataxia-telangiectasia and Rad3-related protein (ATR) was identified as the gene mutated at the SCKL1 locus. The ATR mutation affects splicing efficiency, resulting in low levels of ATR in affected individuals. Elsewhere, we reported increased instability at common chromosomal fragile sites in cells lacking the replication checkpoint gene ATR. Here, we tested whether cells from patients carrying the SCKL1 mutation would show increased chromosome breakage following replication stress. We found that, compared with controls, there is greater chromosomal instability, particularly at fragile sites, in SCKL1-affected patient cells after treatment with aphidicolin, an inhibitor of DNA polymerase alpha and other polymerases. The difference in chromosomal instability between control and patient cells increases at higher levels of aphidicolin treatment, suggesting that the low level of ATR present in these patients is not sufficient to respond appropriately to replication stress. This is the first human genetic syndrome associated with increased chromosome instability at fragile sites following replication stress, and these findings may be related to the phenotypic findings in patients with SCKL1.
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PMID:Chromosomal instability at common fragile sites in Seckel syndrome. 1530 89

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