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)

In this study, mice expressing one of the two Mre11 alleles inherited in the human ataxia-telangiectasia like disorder (A-TLD) were derived. The mutation had a profound maternal effect on embryonic viability, revealing an acute requirement for Mre11 complex function in early embryogenesis. Mre11(ATLD1/ATLD1) mice exhibited several indices of impaired ATM function. The mice also exhibited pronounced chromosomal instability. Despite this phenotypic spectrum, the animals were not prone to malignancy. These data indicate that defective cell cycle checkpoints and chromosomal instability are insufficient to significantly enhance the initiation of tumorigenesis. In contrast, the latency of malignancy in p53(+/-) mice was dramatically reduced. We propose that in Mre11(ATLD1/ATLD1) mice, genome instability and cell cycle checkpoint defects reduce viability in early embryos and in proliferating cells, while promoting malignancy in the context of an initiating lesion.
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PMID:Checkpoint failure and chromosomal instability without lymphomagenesis in Mre11(ATLD1/ATLD1) mice. 1469 Jun 4

The p53 protein acts a tumor suppressor by inducing cell cycle arrest and apoptosis in response to DNA damage or oncogene activation. Recently, it has been proposed that phosphorylation of serine 15 in human p53 by ATM (mutated in ataxia telangiectasia) kinase induces p53 activity by interfering with the Mdm2-p53 complex formation and inhibiting Mdm2-mediated destabilization of p53. Serine 18 in murine p53 has been implicated in mediating an ATM- and ataxia telangiectasia-related kinase-dependent growth arrest. To explore further the physiological significance of phosphorylation of p53 on Ser18, we generated mice bearing a serine-to-alanine mutation in p53. Analysis of apoptosis in thymocytes and splenocytes following DNA damage revealed that phosphorylation of serine 18 was required for robust p53-mediated apoptosis. Surprisingly, p53Ser18 phosphorylation did not alter the proliferation rate of embryonic fibroblasts or the p53-mediated G(1) arrest induced by DNA damage. In addition, endogenous basal levels and DNA damage-induced levels of p53 were not affected by p53Ser18 phosphorylation. p53Ala18 mice developed normally and were not susceptible to spontaneous tumorigenesis, and the reduced apoptotic function of p53Ala18 did not rescue the embryo-lethal phenotype of Mdm2-null mice. These results indicate that phosphorylation of the ATM target site on p53 specifically regulates p53 apoptotic function and further reveal that phosphorylation of p53 serine 18 is not required for p53-mediated tumor suppression.
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PMID:Phosphorylation of serine 18 regulates distinct p53 functions in mice. 1472 46

Cells contain numerous pathways designed to protect them from the genomic instability or toxicity that can result when their DNA is damaged. The p53 tumor suppressor is particularly important for regulating passage through G1 phase of the cell cycle, while other checkpoint regulators are important for arrest in S and G2 phase. Tumor cells often exhibit defects in these checkpoint proteins, which can lead to hypersensitivity; proteins in this class include ataxia-telangiectasia mutatated (ATM), Meiotic recanbination 11 (Mre11), Nijmegen breakage syndrome 1 (Nbs 1), breast cancer susceptibility genes 1 and 2 (BRCA1), and (BRCA2). Consequently, tumors should be assessed for these specific defects, and specific therapy prescribed that has high probability of inducing response. Tumors defective in p53 are frequently considered resistant to apoptosis, yet this defect also provides an opportunity for targeted therapy. When their DNA is damaged, p53-defective tumor cells preferentially arrest in S or G2 phase where they are susceptible to checkpoint inhibitors such as caffeine and UCN-01. These inhibitors preferentially abrogate cell cycle arrest in p53-defective cells, driving them through a lethal mitosis. Wild type p53 can prevent abrogation of arrest by elevating levels of p21(waf1) and decreasing levels of cyclins A and B. During tumorigenesis, tumor cells frequently loose checkpoint controls and this facilitates the development of the tumor. However, these defects also represent an Achilles heel that can be targeted to improve current therapeutic strategies.
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PMID:Cell cycle checkpoints and their impact on anticancer therapeutic strategies. 1474 82

It has been postulated that telomere dysfunction and telomerase activation have important roles in prostate tumorigenesis. Since the ataxia-telangiectasia mutated gene product (ATM protein) is involved in maintaining telomere length and integrity, we hypothesized that its expression might be altered in prostate tumors and, thus, examined its profile in 49 tumor samples. The majority (32/49) had ATM protein levels higher than those observed in normal tissues, with only 5 of 49 tissue samples showing reduced or absent ATM levels. Three of these were from the group of 6 young-onset or sibling-pair tumors. There was a trend toward higher ATM expression in tumors with a higher Gleason score (23/32 [72%] for grade 8-10 vs 9/17 [53%] for grades 5-7), although this difference was not statistically significant. These findings support our hypothesis that the presence of the ATM protein at the same or a higher level than that in normal prostate cells might have an important role in the maintenance of the shortened telomeres commonly found in prostate cancer cells.
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PMID:ATM protein overexpression in prostate tumors: possible role in telomere maintenance. 1498 37

We established 2 novel human cell lines (GCCOT-1, GCCRK) from glassy cell carcinoma. Both cell lines showed dual tendencies of glandular and squamous differentiation, and thus possess the characteristics resembling reserve cells, the putative origin of most carcinomas arising from the uterine cervix. HPV type 18 DNA including E6-E7, which is commonly found in cell types other than squamous cell carcinoma of uterine cervix, was detected in both cell lines. We analyzed gene copy number alterations of the 2 cell lines using conventional comparative genomic hybridization (CGH) coupled with array-based CGH. Among the putative oncogenes demonstrating copy number gain in both cell lines, FGR(SRC2) at 1p36.2-1 and LAMC2 at 1q25-31 have not been reported to show amplification in previous analyses of conventional cervical cell lines. These oncogenes are thus speculated to be directly associated with oncogenesis of glassy cell carcinoma. On the other hand, among the putative suppressor genes demonstrating copy number loss in both cell lines, the 9q region, ATM at 11q22.3, and CYLD at 16q12-13 have not been reported to show loss in conventional cervical cancer cell lines. These sites are speculated to be important as tumor suppressors directly associated with oncogenesis of glassy cell carcinoma. This study suggests for the first time that together with the presence of HPV type 18, alterations at the above sites are closely associated with oncogenesis of glassy cell carcinoma, a special type of carcinoma in the uterine cervix.
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PMID:Conventional and array-based comparative genomic hybridization analyses of novel cell lines harboring HPV18 from glassy cell carcinoma of the uterine cervix. 1501 Aug 38

Polo-like kinase 1 (Plk1) has an important role in the regulation of M phase of the cell cycle. In addition to its cell cycle-regulatory function, Plk1 has a potential role in tumorigenesis. Here we found for the first time that Plk1 physically binds to the tumor suppressor p53 in mammalian cultured cells, and inhibits its transactivation activity as well as its pro-apoptotic function. During the cisplatin-induced apoptosis in human neuroblastoma SH-SY5Y cells, the expression level of Plk1 was significantly decreased both at mRNA and protein levels, whereas cisplatin treatment caused a remarkable stabilization of p53. Systematic immunoprecipitation analyses using a series of deletion mutants of p53 revealed that a sequence-specific DNA-binding region of p53 is required and sufficient for the physical interaction with Plk1. The ectopically overexpressed Plk1 was co-localized with the endogenous p53 in mammalian cell nucleus, as shown by confocal laser microscopy. Expression of exogenous Plk1 and p53 in p53-deficient lung carcinoma H1299 cells greatly decreased the p53-mediated transcription from the p53-responsive p21(WAF1), MDM2, and BAX promoters, whereas the kinase-deficient mutant form of Plk1 failed to reduce the transcriptional activity of p53. Consistent with the luciferase reporter analysis, Plk1 had an ability to block the p53-dependent induction of the endogenous p21(WAF1). In addition, Plk1 inhibited the pro-apoptotic function of p53 in H1299 cells. Intriguingly, Plk1-mediated repression of p53 was attenuated with ATM. Thus, our present findings strongly suggest that p53 is a critical target of Plk1, and its function is abrogated through the physical interaction with Plk1.
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PMID:Polo-like kinase 1 (Plk1) inhibits p53 function by physical interaction and phosphorylation. 1502 21

Hypomorphic mutants affecting the Mre11 complex components Mre11 (Mre11(ATLD1/ATLD1)) and Nbs1 (Nbs1(DeltaB/DeltaB)) have been established in the mouse. These mutations recapitulate those inherited in human chromosome fragility syndromes, the ataxia-telangiectasia like disorder and Nijmegen breakage syndrome. At the cellular level, the human and murine mutants exhibit defects in the intra S and G2/M checkpoints and marked chromosome instability. Whereas these outcomes are associated with predisposition to malignancy in humans, similar predisposition was not observed in either Mre11(ATLD1/ATLD1) or Nbs1(DeltaB/DeltaB) mice. These data demonstrate that chromosome breakage per se is insufficient to significantly enhance the initiation of tumorigenesis. However, these mutations greatly enhanced the risk of malignancy in p53+/- mice. We propose that proper metabolism of chromosome breaks arising during DNA replication is uniquely important for suppressing loss of heterozygosity and thus the penetrance of recessive oncogenic lesions.
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PMID:Double strand break metabolism and cancer susceptibility: lessons from the mre11 complex. 1503 99

ATM protein anticipates in the initiation of the DNA repair signal pathway and also mediates cell cycle arrest and repair. ATM deficiency predictably results in radiosensitivity, germ cell degeneration, chromosomal instability, immunodeficiency, and an extreme predisposition to tumors. Moreover, studies found that ATM is the upstream gene of the p53 pathway and would phosphorylate p53 directly after DNA damage, which would suppress tumorigenesis. Expression of ATM and p53 in 167 pancreatic cancer and 101 control specimens, benign lesions, and normal pancreata were detected by high-throughput tissue microarray and immunohistochemistry while seeking the role of ATM in the initiation and development of pancreatic carcinoma as well as its relationship with p53. We found that the positive rates of ATM and p53 expression in pancreatic carcinoma and its relative control specimen were 67.7% (113/167) and 82.2% (83/101) (P < 0.05) and 57.5% (96/167) and 5.0% (5/101) (P < 0.01), respectively. ATM positive staining is significantly relative to age and infiltration (P < 0.05), while the expression of p53 was significantly associated with tumor differentiation, lymph node metastasis, and nerve infiltration (P < 0.05). Expression of ATM and p53 was positively correlated. These findings suggest that expression of ATM deficiency may increase the transformative ability of pancreatic cancer cells. ATM may also cooperate with p53 in the repair of cell damage.
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PMID:Expression of ATM protein and its relationship with p53 in pancreatic carcinoma with tissue array. 1509 60

Ataxia Telangiectasia (A-T) is an autosomal recessive disease caused by loss of function of the protein kinase ATM. Atm-deficient mice display several phenotypes consistent with the human disease, including predisposition to cancer, growth retardation, cell-proliferation defects and infertility. A-T patients have a several hundred fold increased risk of developing lymphomas and leukemias, which are typically highly invasive. By reducing homologous recombination through genetic deletion of the Rad52 protein, we were able to decrease substantially the development of T-cell lymphomas in Atm-/- mice, resulting in an increased life span of the double mutant mice. Additionally, we were able to partially rescue the T-cell development of Atm-/- mice. Other phenotypes, including growth defects, genomic instability, infertility and radiosensitivity, were not rescued. Our results suggest that excessive recombination is an important contributor to tumorigenesis in A-T.
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PMID:Loss of Rad52 partially rescues tumorigenesis and T-cell maturation in Atm-deficient mice. 1512 31

Homologous recombination between identical stretches of DNA depends on the coordinated action of many tightly regulated proteins. Cellular defects in homologous recombination are strongly associated with increased genomic instability and tumorigenesis. In cells of the cancer-prone syndrome ataxia telangiectasia (A-T), increased intrachromosomal recombination has been demonstrated, while extrachromosomal recombination has been discussed controversially. We constructed a novel, episomally replicating pGrec recombination vector containing two mutated alleles of the enhanced green fluorescent protein (eGFP) gene. Homologous recombination can reconstitute functional wildtype eGFP, thus allowing detection of recombination events based on cellular eGFP fluorescence. Using an isogenic cell pair of A-T fibroblasts and derivatives complemented by an ATM expression vector, we were able to demonstrate in A-T cells high extrachromosomal recombination rates, which are suppressed upon ectopic ATM expression. We thus found that ATM deficiency increases spontaneous recombination not only in intrachromosomal but also in extrachromosomal substrates, suggesting that lack of ATM increases homologous recombination independent of the chromatin structure.
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PMID:The rate of extrachromosomal homologous recombination within a novel reporter plasmid is elevated in cells lacking functional ATM protein. 1533 29

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