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)

RPA is an important component of DNA replication, repair and recombination, but its involvement in the signaling of cell-cycle checkpoints is not well understood. In this study, we show that knockdown of RPA1 by siRNA duplexes induces ATM (Ser1981) and Chk2 (Thr68), but not Chk1 (Ser345) phosphorylation and results in p21 upregulation in HeLa cells. However, the induction of Chk2 (Thr68) phosphorylation and p21 expression by RPA1 siRNA transfection can be completely blocked by the ATM inhibitor caffeine. Moreover, transfection of siRNAs targeting ATM dramatically reduces Chk2 (Thr68) phosphorylation in RPA1 knockdown cells. Taken together, these results suggest that loss of RPA1 activates the Chk2 signaling pathway in an ATM-dependent manner.
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PMID:Loss of RPA1 induces Chk2 phosphorylation through a caffeine-sensitive pathway. 1562 Jul 6

The human cytomegalovirus (HCMV) IE86 protein induces the human fibroblast cell cycle from G(0)/G(1) to G(1)/S, where cell cycle progression stops. Cells with a wild-type, mutated, or null p53 or cells with null p21 protein were transduced with replication-deficient adenoviruses expressing HCMV IE86 protein or cellular p53 or p21. Even though S-phase genes were activated in a p53 wild-type cell, IE86 protein also induced phospho-Ser(15) p53 and p21 independent of p14ARF but dependent on ATM kinase. These cells did not enter the S phase. In human p53 mutant, p53 null, or p21 null cells, IE86 protein did not up-regulate p21, cellular DNA synthesis was not inhibited, but cell division was inhibited. Cells accumulated in the G(2)/M phase, and there was increased cyclin-dependent kinase 1/cyclin B1 activity. Although the HCMV IE86 protein increases cellular E2F activity, it also blocks cell division in both p53(+/+) and p53(-/-) cells.
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PMID:Inhibition of cell division by the human cytomegalovirus IE86 protein: role of the p53 pathway or cyclin-dependent kinase 1/cyclin B1. 1568 59

Human replication protein A (RPA), the primary single-stranded DNA-binding protein, was previously found to be inhibited after heat shock by complex formation with nucleolin. Here we show that nucleolin-RPA complex formation is stimulated after genotoxic stresses such as treatment with camptothecin or exposure to ionizing radiation. Complex formation in vitro and in vivo requires a 63-residue glycine-arginine-rich (GAR) domain located at the extreme C terminus of nucleolin, with this domain sufficient to inhibit DNA replication in vitro. Fluorescence resonance energy transfer studies demonstrate that the nucleolin-RPA interaction after stress occurs both in the nucleoplasm and in the nucleolus. Expression of the GAR domain or a nucleolin mutant (TM) with a constitutive interaction with RPA is sufficient to inhibit entry into S phase. Increasing cellular RPA levels by overexpression of the RPA2 subunit minimizes the inhibitory effects of nucleolin GAR or TM expression on chromosomal DNA replication. The arrest is independent of p53 activation by ATM or ATR and does not involve heightened expression of p21. Our data reveal a novel cellular mechanism that represses genomic replication in response to genotoxic stress by inhibition of an essential DNA replication factor.
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PMID:Novel checkpoint response to genotoxic stress mediated by nucleolin-replication protein a complex formation. 1574 38

Hematopoietic cells are often exposed to transient hypoxia as they develop and migrate between blood and tissues. We tested the hypothesis that hypoxia-then-reoxygenation represent a stress for hematopoietic progenitor cells. Here we report that reoxygenation-generated oxidative stress induced senescence, tested as staining for SA-beta-galactosidase (SA-beta-gal), of bone marrow progenitor cells. Reoxygenation induced significant DNA damage and inhibited colony formation in lineage-depleted bone marrow cells enriched for progenitor cells. These reoxygenated cells exhibited a prolonged G(0)/G(1) accumulation without significant apoptosis after 24 h of treatments. Reoxygenated bone marrow progenitor cells expressed SA-beta-gal and senescence-associated proteins p53 and p21(WAF1). Reoxygenated Fancc-/- progenitor cells, which underwent significant apoptosis and senescence, tested as staining for SA-beta-gal, also expressed p16(INK4A). Suppression of apoptosis by the pan-caspase inhibitor benzyloxycarbonyl-VAD-fluoromethyl ketone dramatically increased senescent Fancc-/- progenitor cells. Senescence induction, tested as staining for SA-beta-gal, in reoxygenated progenitor cells was closely correlated with extent of DNA damage and phosphorylation of ATM at Ser-1981 and p53 at Ser-15. Moreover, inhibition of ATM signaling reduced SA-beta-gal positivity but increased apoptosis of reoxygenated progenitor cells. Thus, these results suggest that the ATM/p53/p21 pathway influences cell fate decision between apoptosis and senescence in reoxygenated hematopoietic progenitor cells.
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PMID:The ATM/p53/p21 pathway influences cell fate decision between apoptosis and senescence in reoxygenated hematopoietic progenitor cells. 1575 76

Epigenetic control provides a mechanism for the reversible silencing of telomerase expression that occurs as a natural consequence of differentiation. Significant overlap between indirect telomerase regulation pathways and cell cycle checkpoint pathways exist, suggesting that these discrete genetic elements (namely, p21, p53, and hTERT) synergistically cooperate to inhibit tumorigenesis. Mutations in these pathways have been known to contribute to cancer formation. However, the incorporation of epigenetic regulatory mechanisms provides another line of defense against these negative occurrences. These proteins are also implicated in the process of senescence, caused in eukaryotic cell lines by telomere shortening. Although the debate continues, there is significant evidence to classify the process of cellular senescence as an in vitro model for human aging. In addition, the study of stem cells gives information about the down-regulation of hTERT in the aging process. Diseases such as Werner S syndrome, ATM (ataxia telangiectasia mutated kinase), DKC (dyskeratosis congenita), and atherosclerosis have been linked to aberrant telomerase expression and other aging-related tissue malfunctions could be related to the presence of senescent cells changing the cellular microenvironment. Therefore, restoring telomerase activity as a putative therapeutic strategy necessitates further study to elucidate the intricacies linking genetic and epigenetic modulations of hTERT.
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PMID:Epigenetic control of telomerase and modes of telomere maintenance in aging and abnormal systems. 1576 67

We previously demonstrated that the nitroxide antioxidant tempol (4-hydroxy-2,2,6,6-tetramethylpiperidine-N-oxyl) increased latency to tumorigenesis and doubled (100%) the lifespan of Atm-deficient mice, a mouse model of ataxia telangiectasia, which displays accelerated oxidative damage and stress. Tempol treatment of cancer-prone p53-deficient mice resulted in a small but significant (25%) increase in lifespan by prolonging latency to tumorigenesis, demonstrating that existing oxidative stress and damage are not necessary for the chemopreventative effects of tempol. However, the relatively small effect on latency in p53-deficient mice and the finding that tempol-mediated resistance to oxidative insult was p53-dependent suggested a more direct role of p53 in the chemopreventative effects of tempol. Surprisingly, tempol treatment specifically increased serine 18 phosphorylation of p53 (but not gamma-H2AX) and p21 expression in primary thymocytes in vitro in a p53-dependent fashion. Inhibition of phosphoinositide 3-kinase (PI3K) family members suggested that SMG-1 was responsible for the tempol-mediated enhancement of p53 serine 18 phosphorylation. These data suggest that the chemopreventative effect of tempol is not solely due to the reduction of oxidative stress and damage but may also be related to redox-mediated signaling functions that include p53 pathway activation.
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PMID:Cancer chemoprevention by the antioxidant tempol acts partially via the p53 tumor suppressor. 1588 86

Rapamycin induces chromosome malsegregation in mammalian cell lines and yeast. Previous studies indicate that the function impaired in ataxia-telangiectasia (A-T) patients is necessary for both the growth inhibition and the chromosome malsegregation induced by rapamycin, and that treating the non-tumorigenic Chinese hamster cell line CHEF/18 with rapamycin results in supernumerary centrosomes and multipolar spindles. In this paper we report that lymphoblastoid cell lines established from A-T patients as well as hamster A-T-like cells are more resistant to rapamycin than the respective normal cell lines. Two cell lines derived from Nijmegen Breakage Syndrome (NBS) patients, who have clinical symptoms similar to those of A-T but a different molecular defect, were not resistant to rapamycin. Both A-T lymphoblastoid cells and A-T-like fibroblasts had giant centrosomes formed by more than two areas of gamma-tubulin-reacting material. Such giant centrosomes were also observed in CHEF/18 cells after prolonged treatment with rapamycin. Formation of giant centrosomes, possibly due to the coalescence of supernumerary centrosomes, was associated with increased aneuploidy in treated cells. Expression analysis of cell-cycle regulatory genes in rapamycin-treated human lymphoblastoid cells indicated that rapamycin decreased the expression of the tumor suppressor gene GADD45. The levels of RB, p21 and p53 mRNA were also decreased, although to a lesser extent. As rapamycin is often used as an immunosuppressant in pediatric transplant patients, these data indicate that caution should be taken, especially when the drug is given for prolonged periods of time.
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PMID:Altered centrosomes in ataxia-telangiectasia cells and rapamycin-treated Chinese hamster cells. 1592 Jul 52

Ataxia-telangiectasia mutated (ATM) and ATM- and Rad3-related (ATR) kinases, family members of the PI-3 kinase related proteins, play a key role in checkpoint activation and maintenance of genomic stability following DNA damage. We have used wild type (WT) and p38alpha-deficient mouse embryonic stem (ES) cells to investigate the role of ATR and ATM kinases during embryonic cell cycle. We have found that inhibition of ATR and ATM kinases with caffeine or Chk1 with UCN-01, results in activation of a p38-dependent intra-S-phase checkpoint and activation of apoptosis in ES cells. However, wortmannin at a concentration, that inhibits ATM kinase but not ATR kinase, did not affect cell cycle progression. Furthermore, the presence of caffeine results in activation of p38 kinase, accumulation of p21/Waf1 in a complex with Cdk2 and decrease of Cdk2 kinase activity. In contrast, caffeine-treated p38alpha-/- ES cells show less apoptosis, and fail to trigger an effective S-phase checkpoint and accumulation of p21/Waf1. We conclude that ATR kinase activity is essential for normal cell cycle progression of exponentially proliferating mouse ES cells even in the absence of exogenous DNA damage, and ATR deregulation triggers p38alpha-dependent cell-cycle checkpoint and apoptotic responses.
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PMID:Inhibition of the ATR/Chk1 pathway induces a p38-dependent S-phase delay in mouse embryonic stem cells. 1613 10

The phytochemical indole-3-carbinol (I3C), from cruciferous vegetables such as broccoli, has been shown to elicit a potent anti-proliferative response in human breast cancer cell lines. Treatment of the immortalized human mammary epithelial cell line MCF10A with I3C induced a G1 cell cycle arrest, elevated p53 tumor suppressor protein levels and stimulated expression of downstream transcriptional target, p21. I3C treatment also elevated p53 levels in several breast cancer cell lines that express mutant p53. I3C did not arrest MCF10A cells stably transfected with dominant-negative p53, establishing a functional requirement for p53. Cell fractionation and immunolocalization studies revealed a large fraction of stabilized p53 protein in the nucleus of I3C-treated MCF10A cells. With I3C treatment, phosphatidyl-inositol-3-kinase family member ataxia telangiectasia-mutated (ATM) was phosphorylated, as were its substrates p53, CHK2 and BRCA1. Phosphorylation of p53 at the N-terminus has previously been shown to disrupt the interaction between p53 and its ubiquitin ligase, MDM2, and therefore stabilizing p53. Coimmunoprecipitation analysis revealed that I3C reduced by 4-fold the level of MDM2 protein that associated with p53. The p53-MDM2 interaction and absence of p21 production were restored in cells treated with I3C and the ATM inhibitor wortmannin. Significantly, I3C does not increase the number of 53BP1 foci or H2AX phosphorylation, indicating that ATM is activated independent of DNA double-strand breaks. Taken together, our results demonstrate that I3C activates ATM signaling through a novel pathway to stimulate p53 phosphorylation and disruption of the p53-MDM2 interaction, which releases p53 to induce the p21 CDK inhibitor and a G1 cell cycle arrest.
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PMID:Indole-3-carbinol activates the ATM signaling pathway independent of DNA damage to stabilize p53 and induce G1 arrest of human mammary epithelial cells. 1615 27

The DNA damage checkpoint protein kinase mutated in ataxia telangiectasia (ATM) is involved in sensing and transducing DNA damage signals by phosphorylating and activating downstream target proteins that are implicated in the regulation of cell cycle progression and DNA repair. Atm-/- cells are defective in cellular proliferation mediated by the Arf/p53/p21 pathway. In this report, we show that increased expression of p21 (also known as Waf1 or CDKN1a) in Atm-/- cells serves as a cellular defense mechanism to suppress further chromosomal instability (CIN) and tumor development because Atm-/- p21-/- mice are predisposed to carcinomas and sarcomas with intratumoral heterogeneity. It was found that Atm-deficient cells are defective in metaphase-anaphase transition leading to abnormal karyokinesis. Moreover, Atm-/- p21-/- primary embryonic fibroblasts exhibit increased CIN compared with either Atm-/- or p21-/- cells. The increased CIN is manifested at the cellular level by increased chromatid breaks and elevated aneuploid genome in Atm-/- p21-/- cells. Finally, we showed that the role of p21 in a CIN background induced by loss of Atm is to suppress numerical CIN but not structural CIN. Our data suggest that the development of aneuploidy precedes tumor formation and implicates p21 as a major tumor suppressor in a genome instability background.
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PMID:ATM and p21 cooperate to suppress aneuploidy and subsequent tumor development. 1620 44

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