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)

Angiostensin II (Ang II) regulates the migration and proliferation of vascular smooth muscle cells. Recent studies indicate that intermediate-conductance Ca2+ -activated K+ (IKca) channels have an important role in cell migration and proliferation. It is not known, however, whether the action of Ang II is linked to IKca channel regulation. Here, we investigated the modulation of IKca channels by Ang II in artery smooth muscle cells. Functional IKca channel expression in cultured embryonic rat aorta smooth muscle (A10) cells was studied using the patch-clamp technique. These cells predominantly express IKca channels. In contrast, large-conductance Ca2+ -activated K+ (BKca) currents were rarely observed in excised patches. Ang II increased the IKca current in a contration-dependent manner. Losartan (1.0 microM), an AT1 selective antagonist, abolished the activation of IKca channels by Ang II. Pretreatment with 100 microM myristoylated protein kinase C inhibitor peptide 20-28 or 10 microM GF109203X completely abolished the AngII-induced activation of IKca currents, whereas the action of Ang II was not prevented in the presence of 100 microM Rp-cyclic 3', 5'-hydrogen phosphotiate adenosine triethylammonium, a protein kinase A inhibitor, or 1.0 microM KT-5823, a protein kinase G inhibitor. A membrane permeant analogue of diacylglycerol 1, 2-dioctanoyl-sn-glycerol (10 microM) induced the activation of IKca currents. These data suggest that Ang II activates IKca channels through the activation of protein kinase C, and the AT1 receptor is involved in the regulation of these channels.
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PMID:Angiotensin II activates intermediate-conductance Ca2+ -activated K+ channels in arterial smooth muscle cells. 1691 91

DNA is damaged in cells during cell replication, by infection, or by various environmental stresses. The damaged cells stop cell cycle, repair damaged DNA, and when repaired progress into the next cell cycle stage. But when the attempt to repair the damage fails, the cells undergo apoptosis. The most deleterious damage of all is double-strand DNA breaks (DSBs), where ATM (ataxia-telangiectasia-mutated) serves as a sensor. The ATM pathway culminates in DNA repair through nonhomologous end-joining or through homologous recombination. Upon DNA damage, the DNA repair protein Ku70/80 translocates into the nucleus, which may be mediated by ATM. Previously, we found that pancreatic acinar cells undergo apoptosis upon oxidative stress, and the cell death stems from nuclear loss of Ku70/80. This study aims to investigate whether ATM has a role in Ku activation and prevention of cell death induced by oxidative stress (hydrogen peroxide) using A-T fibroblasts stably transfected with human full-length ATM cDNA or empty vector. As a result, hydrogen peroxide-induced cell death was augmented in A-T cells transfected with empty vector while cell death was prevented in A-T fibroblasts stably transfected with human full-length ATM cDNA. Ku DNA-binding activity induced by hydrogen peroxide treatment was increased in the A-T fibroblasts stably transfected with human full-length ATM cDNA compared to that in A-T cells transfected with empty vector. The results suggest that ATM may be essential for Ku activation to repair DNA damage from oxidative stress and prevent cell death caused by oxidative stress.
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PMID:Ataxia-telangiectasia-mutated-dependent activation of Ku in human fibroblasts exposed to hydrogen peroxide. 1734 4

Angiotensin II plays a crucial role in the control of blood pressure, acting at AT1 or AT2 receptors, and can act as a potent vasoconstrictor of the peripheral vasculature inducing hypertrophy, hyperplasia, or both, in resistance arteries. The aim of the present study was to investigate whether the pattern of distribution of angiotensin AT1 and AT2 receptors on mesenteric artery sections differs in spontaneously hypertensive rats (SHR) versus their respective controls (Wistar-Kyoto [WKY] rats). Immunohistochemistry using anti-AT1 or anti-AT2 antibodies was performed on perfused-fixed/paraffin-embedded mesenteric arteries from SHR and WKY rats. 3,3'-Diaminobenzidine tetrahydrochloride (DAB; activated by hydrogen peroxide) staining revealed distinct AT1 and AT2 labeling of all artery layers (adventitia, media and intima) from WKY rats, whereas in SHR an abundant AT1 labeling was found in both intima and adventitia and a sparser labeling in the media. There was a vast reduction of AT2 labeling throughout all layers. These results suggest a crucial role for AT2 receptors in the pathogenesis of hypertension.
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PMID:Immunohistochemical localization of angiotensin II receptor types 1 and 2 in the mesenteric artery from spontaneously hypertensive rats. 1739 77

We describe a novel stress-induced gene, noxin, and a knockout mouse line with an inactivated noxin gene. The noxin gene does not have sequelogs in the genome and encodes a highly serine-rich protein with predicted phosphorylation sites for ATM, Akt, and DNA-dependent protein kinase kinases; nuclear localization signals; and a Zn finger domain. noxin mRNA and protein levels are under tight control by the cell cycle. noxin, identified as a nitric oxide-inducible gene, is strongly induced by a wide range of stress signals: gamma- and UV irradiation, hydrogen peroxide, adriamycin, and cytokines. This induction is dependent on p53. Noxin accumulates in the nucleus in response to stress and, when ectopically expressed, Noxin arrests the cell cycle at G1; although it also induces p53, the cell cycle arrest function of Noxin is independent of p53 activity. noxin knockout mice are viable and fertile; however, they have an enlarged heart, several altered hematopoietic parameters, and a decreased number of spermatids. Importantly, loss or downregulation of Noxin leads to increased cell death. Our results suggest that Noxin may be a component of the cell defense system: it is activated by various stress stimuli, helps cells to withdraw from cycling, and opposes apoptosis.
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PMID:noxin, a novel stress-induced gene involved in cell cycle and apoptosis. 1751 7

The induction of senescence, an irreversible growth arrest, in cancer cells is regarded as a mean to halt tumor progression. The phytoalexin resveratrol (RV) is known to possess a variety of cancer-preventive, -therapeutic, and -chemosensitizing properties. We report here that chronic treatment with RV in a subapoptotic concentration induces senescence-like growth arrest in tumor cells. In contrast to the widely accepted antioxidant property of RV, we demonstrate that one causative stimulus for senescence induction by chronic RV is an increased level of reactive oxygen species (ROS). The ROS formed upon RV exposure include hydrogen peroxide and superoxide and originate largely from mitochondria. Consistently, co-incubation with the antioxidant N-acetyl cysteine interfered with RV-mediated reactivation of the senescence program. Molecular mediators on the way from increased ROS levels to the observed growth arrest include p38 MAPK, p53, and p21. Moreover, we provide evidence that RV-initiated replication stress, apparent by activation of the ataxia telangiectasia-mutated kinase pathway, is associated with increased ROS levels and senescence induction. This is the first report linking cell cycle effects with a pro-oxidant and pro-senescent effect of RV in cancer cells.
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PMID:Chronic treatment with resveratrol induces redox stress- and ataxia telangiectasia-mutated (ATM)-dependent senescence in p53-positive cancer cells. 1762 9

The Ssk2p (MAPKKK) of Candida albicans was deleted and functions assigned based on phenotyping studies. SSK2 deletion was first attempted using the UAU1 disruption method. All transformants lacking one copy of SSK2 appeared to be triploids, suggesting that the SSK2 is essential for the organism. To verify this observation, a strain was constructed in which one allele was deleted using the SAT1 flipper disruption method. The second allele was then placed under control of the on/off tetracycline-regulatable (TetR) promoter. The transcription of SSK2 was measured by reverse transcriptase-PCR and although the promoter was somewhat leaky, transcript was significantly reduced in an ssk2/TetR-SSK2 transformant (AT2) in the presence of doxycycline. Strains AT1 and AT2 constructed using the SAT1 flipper and TetR promoter method, respectively, were studied phenotypically in different growth media to determine the role of Ssk2p in morphogenesis. The mutants were also compared under on/off conditions in the presence of 1.5 M NaCl and various types of oxidants. Strain AT2 demonstrated resistance to 1.5 M NaCl in the absence of doxycycline but was inhibited by 8 mM hydrogen peroxide.
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PMID:The SSK2 MAPKKK of Candida albicans is required for oxidant adaptation in vitro. 1809 32

The phosphatidylinositol 3-kinase/AKT pathway is activated frequently in human cancer, and it has been implicated in tumor cell proliferation, survival, and chemoresistance. In this study, we addressed the role of AKT in cellular responses to the therapeutic methylating agent temozolomide (TMZ), and we investigated the possible link between TMZ-induced modulation of AKT function and activation of ataxia-telangiectasia and Rad3-related (ATR)- and ataxia telangiectasia mutated (ATM)-dependent signaling pathways. We found that clinically relevant concentrations of TMZ caused activation of endogenous AKT in lymphoblastoid cells, and in colon and breast cancer cells, and that this molecular event required a functional mismatch repair system. Transfection of a dominant-negative kinase-dead form of AKT1 into breast cancer cells abrogated TMZ-induced activation of endogenous AKT, and it markedly enhanced cell sensitivity to the drug. Likewise, exposure of the MMR-proficient cell lines to the AKT inhibitor D-3-deoxy-2-O-methyl-myo inositol 1-[(R)-2-methoxy-3-(octadecyloxy)-propyl hydrogen phosphate] (SH-5) impaired AKT phosphorylation in response to TMZ, and it significantly increased cell chemosensitivity. Furthermore, small interfering RNA (siRNA)-mediated reduction of AKT1 expression in colon cancer cells potentiated the growth inhibitory effects of TMZ. Inhibition of ATM expression in colon cancer cells by siRNA did not impair TMZ-induced activation of AKT, whereas siRNA-mediated inhibition of ATR prevented AKT activation in response to the drug and increased cell chemosensitivity. These results strongly support the hypothesis that clinical benefit could be obtained by combining TMZ with inhibitors of the AKT pathway. Moreover, they provide the first evidence of a novel function of ATR as an upstream activator of AKT in response to DNA damage induced by O(6)-guanine-methylating agents.
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PMID:AKT is activated in an ataxia-telangiectasia and Rad3-related-dependent manner in response to temozolomide and confers protection against drug-induced cell growth inhibition. 1841 65

Minutes after DNA damage, the variant histone H2AX is phosphorylated by protein kinases of the phosphoinositide kinase family, including ATM, ATR or DNA-PK. Phosphorylated (gamma)-H2AX-which recruits molecules that sense or signal the presence of DNA breaks, activating the response that leads to repair-is the earliest known marker of chromosomal DNA breakage. Here we identify a dynamic change in chromatin that promotes H2AX phosphorylation in mammalian cells. DNA breaks swiftly mobilize heterochromatin protein 1 (HP1)-beta (also called CBX1), a chromatin factor bound to histone H3 methylated on lysine 9 (H3K9me). Local changes in histone-tail modifications are not apparent. Instead, phosphorylation of HP1-beta on amino acid Thr 51 accompanies mobilization, releasing HP1-beta from chromatin by disrupting hydrogen bonds that fold its chromodomain around H3K9me. Inhibition of casein kinase 2 (CK2), an enzyme implicated in DNA damage sensing and repair, suppresses Thr 51 phosphorylation and HP1-beta mobilization in living cells. CK2 inhibition, or a constitutively chromatin-bound HP1-beta mutant, diminishes H2AX phosphorylation. Our findings reveal an unrecognized signalling cascade that helps to initiate the DNA damage response, altering chromatin by modifying a histone-code mediator protein, HP1, but not the code itself.
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PMID:HP1-beta mobilization promotes chromatin changes that initiate the DNA damage response. 1843 99

Previously, we found that high intraluminal pressure leads to production of reactive oxygen species (ROS) and also upregulates several components of the renin-angiotensin system in the wall of small arteries. We hypothesized that acute exposure of arterioles to high intraluminal pressure in vitro via increasing ROS production enhances the functional availability of type 1 angiotensin II (Ang II) receptors (AT1 receptors), resulting in sustained constrictions. In arterioles ( approximately 180 mum) isolated from rat skeletal muscle, Ang II elicited dose-dependent constrictions, which decreased significantly by the second application [maximum (max.): from 59% +/- 4% to 26% +/- 5% at 10(-8) M; P < 0.05] in the presence of 80 mmHg of intraluminal pressure. In contrast, if the arterioles were exposed to high intraluminal pressure (160 mmHg for 30 min), Ang II-induced constrictions remained substantial on the second application (max.: 51% +/- 3% at 10(-8) M). In the presence of Tiron and polyethylene glycol (PEG)-catalase, known to reduce the level of superoxide anion and hydrogen peroxide (H(2)O(2)), second applications of Ang II evoked similarly reduced constrictions, even after high-pressure exposure (29% +/- 4% at 10(-8) M). Furthermore, when arterioles were exposed to H(2)O(2) (for 30 min, 10(-7) M, at normal 80 mmHg pressure), Ang II-induced constrictions remained substantial on second applications (59% +/- 5% at 10(-8) M). These findings suggest that high pressure, likely via inducing H(2)O(2) production, increases the functional availability of AT1 receptors and thus enhances Ang II-induced arteriolar constrictions. We propose that in hypertension-regardless of etiology-high intraluminal pressure, via oxidative stress, enhances the functional availability of AT1 receptors augmenting Ang II-induced constrictions.
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PMID:High intraluminal pressure via H2O2 upregulates arteriolar constrictions to angiotensin II by increasing the functional availability of AT1 receptors. 1856 10

Proton radiation (PR) therapy offers a number of potential advantages over conventional (photon) gamma-radiation (GR) therapy for cancer, due to a more localized delivery of the radiation dose. However, the pathophysiological effects following PR-exposure are less well characterized than those of GR-exposure and the molecular changes associated with the acute apoptotic effects in mice in vivo following PR have not been elucidated. Previous studies have estimated the RBE of protons for various in vivo and in vitro endpoints at between 1.1 and 1.3. We assumed an RBE of 1.1 for the endpoints to be evaluated in these studies. Based on this assumption, ICR mice were treated with whole-body doses of GR (1.1 and 7.0 Gy) and PR (1.0 and 6.4 Gy) that were expected to represent RBE-weighted doses. The bone marrow, thymus, spleen and GI-tract were isolated and processed for histology and immunohistochemistry. The apoptotic responses varied greatly between GR and PR in a tissue- and dose-dependent manner. Surprisingly,cell death in the splenic white pulp was consistently lower in PR-treated animals compared to animals treated with GR. This was in spite of an increased presence of damaged DNA following PR as determined by staining for gammaH2AX and phospho-ATM. Interestingly, both PR and GR triggered nuclear accumulation of p53 and no significant differences were found in the majority of the known pro-apoptotic p53-target genes in the spleens of treated mice. However, GR uniquely triggered a pro-apoptotic expression profile including expression of the pro-apoptotic, p53- and interferon stimulated target gene Bcl-G. In contrast to PR, GR may, in a cell type specific manner, trigger a more diverse non-random stress-response that mediates apoptosis partially independent of the extent of DNA damage.
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PMID:Gamma-radiation (GR) triggers a unique gene expression profile associated with cell death compared to proton radiation (PR) in mice in vivo. 1910 32

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