Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0004135 (ATM)
13,001 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have isolated from a genomic library using PCR amplification an 1171 base sequence containing a putative ovine AT1-R protein coding sequence of 1080 bases. As expected the protein coding sequence is of greater than 99% homology to the partial protein coding sequence reported by Robillard et al, with only one base difference. Relative to other species, highest homology at the level of the cDNA protein coding sequence is to bovine (97.6%) and lowest homology to rat Type 1a (83.3%). The predicted protein amino acid sequence in turn encodes a protein with the properties of a seven alpha-helix transmembrane receptor (by TMPred) sharing closest homology (98.6%) to the bovine receptor and lowest to the rat Type 1a (90.2%). As expected from such a high degree of interspecies homology, amino acids identified by site-directed mutagenesis of the human or rat AT1A-R as involved in binding and action of AII are very highly conserved in the ovine sequence. In addition, both bovine and ovine AT1-R are known to exhibit lower affinity for DuP753 than human AT1-R, and in bovine AT1-R this has been suggested to coincide with the amino acid substitutions Ala->Thr (163) and Leu->Met (262) relative to the human sequence. Our ovine AT1-R cDNA sequence shares these same bovine substitutions.
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PMID:Isolation of an ovine genomic sequence containing the full-length angiotensin II type-1 receptor. 988 11

Angiotensin II (AngII) initiates cellular responses by activation of type I (AT1) and type 2 (AT2) angiotensin receptors. Both AT1 and AT1 receptors have seven transmembrane structures characteristic of G protein-coupled receptors, but only the AT1 receptor undergoes rapid internalization upon agonist binding. In addition to the agonist hormone, the peptide antagonist [Sar1,Ile8]AngII can also induce internalization of the AT1a receptor expressed in mammalian cell lines, but the nonpeptide AT1 receptor blocker losartan does not internalize. AT1 receptor internalization occurs via clathrin-coated pits, but there is evidence that, in contrast to the internalization of other G protein-coupled receptors, the internalization of the AT1 receptor is independent of dynamin and beta-arrestin. Mutagenesis studies demonstrated that AT1 receptor internalization requires two regions in the cytoplasmic tail of the receptor, but it is independent of G protein activation. The dependence of AT1 receptor internalization on the presence of a serine-threonine-rich region suggests that phosphorylation of the receptor tail may regulate the internalization process. The possible role of AT1 receptor internalization in sustained signal generation has been suggested, but its relationship to nuclear AngII receptors is not completely understood.
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PMID:Molecular mechanisms of angiotensin II receptor internalization. 989 40

Abundance and activity of p53 are predominantly regulated posttranslationally. Structural disturbance in transcribed genes induced by radiation, e.g. DNA damage, or by transcriptional inhibitors cause p53 protein stabilization by a yet unknown mechanism. Using stable and transient transfections for the analysis of p53 mutant proteins, we have ruled out a role in stabilization by UV, gamma irradiation or actinomycin C for the following putative phosphorylation sites in the p53 protein: serines 6, 9, 15, 33, 315 and 392, and threonine 18. By double mutation combinations of phosphorylations were also ruled out; 6,9; 15,18; 15,37. These mutations eliminate modifications by casein kinases I and II, DNA-PK, ATM, CDK and JNK. Also the 30 carboxyterminal amino acids are not required for induced p53 stabilization. Thus neither phosphorylations of individual amino acids nor interactions of the carboxyterminus of p53 with cellular macromolecules appear to play a role in the stabilization process. The only single prerequisite for induced stabilization of p53 is its prior destabilization by Mdm2. However, the level of active Mdm2 must be controlled carefully: overexpression of Mdm2 inhibits UV induced p53 stabilization.
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PMID:DNA damage induced p53 stabilization: no indication for an involvement of p53 phosphorylation. 1020 33

The receptors for angiotensin (Ang) II are classified into two subtypes (AT1-R and AT2-R) by the discovery of non-peptidic ligands and AT1-R mediates most of the cardiovascular actions of Ang II. AT2-R is expressed at very high levels in the developing fetus, whereas in the adult its expression in the cardiovascular system is very low. Cardiac myocyte- or vascular smooth muscle-specific overexpression mice of AT2-R display an inhibitory effect on Ang II-induced chronotropic or pressor actions, suggesting the role of AT2-R on the activity of cardiac pacemaker cells or maintenance of vascular resistance. AT2-R also activates the kinin/nitric oxide/cGMP system in the cardiovascular and renal system, resulting in the AT2-R-mediated cardioprotection, vasodilation and pressure natriuresis. These effects transmitted by AT2-R are mainly exerted by stimulation of protein tyrosine or serine/threonine phosphatases in Gi-protein dependent manner. The expression level of AT2-R is much higher in human hearts than in those of rodents, and the AT2-R-mediated actions are likely enhanced, especially by clinical application of AT1-R antagonists.
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PMID:[Angiotensin II receptor-mediated function unmasked by gene-engineered animals]. 1036 39

Recent evidence indicates that arrest of mammalian cells at the G(2)/M checkpoint involves inactivation and translocation of Cdc25C, which is mediated by phosphorylation of Cdc25C on serine 216. Data obtained with a phospho-specific antibody against serine 216 suggest that activation of the DNA damage checkpoint is accompanied by an increase in serine 216 phosphorylated Cdc25C in the nucleus after exposure of cells to gamma-radiation. Prior treatment of cells with 2 mM caffeine inhibits such a change and markedly reduces radiation-induced ataxia-telangiectasia-mutated (ATM)-dependent Chk2/Cds1 activation and phosphorylation. Chk2/Cds1 is known to localize in the nucleus and to phosphorylate Cdc25C at serine 216 in vitro. Caffeine does not inhibit Chk2/Cds1 activity directly, but rather, blocks the activation of Chk2/Cds1 by inhibiting ATM kinase activity. In vitro, ATM phosphorylates Chk2/Cds1 at threonine 68 close to the N terminus, and caffeine inhibits this phosphorylation with an IC(50) of approximately 200 microM. Using a phospho-specific antibody against threonine 68, we demonstrate that radiation-induced, ATM-dependent phosphorylation of Chk2/Cds1 at this site is caffeine-sensitive. From these results, we propose a model wherein caffeine abrogates the G(2)/M checkpoint by targeting the ATM-Chk2/Cds1 pathway; by inhibiting ATM, it prevents the serine 216 phosphorylation of Cdc25C in the nucleus. Inhibition of ATM provides a molecular explanation for the increased radiosensitivity of caffeine-treated cells.
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PMID:Caffeine abolishes the mammalian G(2)/M DNA damage checkpoint by inhibiting ataxia-telangiectasia-mutated kinase activity. 1074 22

The protein kinase Chk2, the mammalian homolog of the budding yeast Rad53 and fission yeast Cds1 checkpoint kinases, is phosphorylated and activated in response to DNA damage by ionizing radiation (IR), UV irradiation, and replication blocks by hydroxyurea (HU). Phosphorylation and activation of Chk2 are ataxia telangiectasia-mutated (ATM) dependent in response to IR, whereas Chk2 phosphorylation is ATM-independent when cells are exposed to UV or HU. Here we show that in vitro, ATM phosphorylates the Ser-Gln/Thr-Gln (SQ/TQ) cluster domain (SCD) on Chk2, which contains seven SQ/TQ motifs, and Thr68 is the major in vitro phosphorylation site by ATM. ATM- and Rad3-related also phosphorylates Thr68 in addition to Thr26 and Ser50, which are not phosphorylated to a significant extent by ATM in vitro. In vivo, Thr68 is phosphorylated in an ATM-dependent manner in response to IR, but not in response to UV or HU. Substitution of Thr68 with Ala reduced the extent of phosphorylation and activation of Chk2 in response to IR, and mutation of all seven SQ/TQ motifs blocked all phosphorylation and activation of Chk2 after IR. These results suggest that in vivo, Chk2 is directly phosphorylated by ATM in response to IR and that Chk2 is regulated by phosphorylation of the SCD.
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PMID:Ataxia telangiectasia-mutated phosphorylates Chk2 in vivo and in vitro. 1097 90

In response to DNA damage, eukaryotic cells use a system of checkpoint controls to delay cell-cycle progression. Checkpoint delays provide time for repair of damaged DNA before its replication in S phase and before segregation of chromatids in M phase. The Cds1 (Chk2) tumour-suppressor protein has been implicated in certain checkpoint responses in mammalian cells. It directly phosphorylates and inactivates the mitosis-inducing phosphatase Cdc25 in vitro and is required to maintain the G2 arrest that is observed in response to gamma-irradiation. Cds1 also directly phosphorylates p53 in vitro at a site that is implicated in its stabilization, and is required for stabilization of p53 and induction of p53-dependent transcripts in vivo upon gamma-ionizing radiation. Thus, Cds1 functions in both the G1 and G2 checkpoint responses. Like Cds1, the checkpoint protein kinase ATM (ataxia-telangiectasia-mutated) is required for correct operation of both the G1 and G2 damage checkpoints. ATM is necessary for phosphorylation and activation of Cds1 in vivo and can phosphorylate Cds1 in vitro, although evidence that the sites that are phosphorylated by ATM are required for activation is lacking. Here we show that threonine 68 of Cds1 is the preferred site of phosphorylation by ATM in vitro, and is the principal irradiation-induced site of phosphorylation in vivo. The importance of this phosphorylation site is demonstrated by the failure of a mutant, non-phosphorylatable form of Cds1 to be fully activated, and by its reduced ability to induce G1 arrest in response to ionising radiation.
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PMID:Threonine 68 is required for radiation-induced phosphorylation and activation of Cds1. 1102 70

The integrity of the DNA damage response pathway is essential for prevention of neoplastic transformation. Several proteins involved in this pathway including p53, BRCA1, and ATM are frequently mutated in human cancer. Checkpoint kinase 2 (Chk2) is a DNA damage-activated protein kinase that lies downstream of ATM in this pathway. Recently, heterozygous germline mutations in Chk2 have been identified in a subset of patients with Li-Fraumeni syndrome, a highly penetrant familial cancer phenotype, suggesting that Chk2 is a tumor suppressor gene. In this study, we have reported the biochemical characterization of the four tumor-associated Chk2 mutants. Two of the reported Chk2 mutations identified in Li-Fraumeni syndrome result in loss of Chk2 kinase activity. Whereas one mutation within the Chk2 forkhead homology-associated (FHA) domain, R145W, retains some basal kinase activity, this mutant cannot be phosphorylated at an ATM-dependent phosphorylation site (Thr-68) and cannot be activated following gamma radiation. Wild-type Chk2 exists mainly in a protein complex of M(r) approximately 200,000 whereas the R145W mutant forms a larger, presumably inactive complex in the cell. The other FHA domain mutant, I157T, behaves as wild-type Chk2 in all the assays used here. Because the FHA domain is involved in protein-protein interactions, this mutation may affect associations of Chk2 with other proteins. Additionally, we have shown that Chk2 can also be inactivated by down-regulation of its expression in cancer cells. Thus, Chk2 may be inactivated by multiple mechanisms in the cell.
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PMID:Characterization of tumor-associated Chk2 mutations. 1105 50

Genistein is an isoflavenoid that is abundant in soy beans. Genistein has been reported to have a wide range of biological activities and to play a role in the diminished incidence of breast cancer in populations that consume a soy-rich diet. Genistein was originally identified as an inhibitor of tyrosine kinases; however, it also inhibits topoisomerase II by stabilizing the covalent DNA cleavage complex, an event predicted to cause DNA damage. The topoisomerase II inhibitor etoposide acts in a similar manner. Here we show that genistein induces the up-regulation of p53 protein, phosphorylation of p53 at serine 15, activation of the sequence-specific DNA binding properties of p53, and phosphorylation of the hCds1/Chk2 protein kinase at threonine 68. Phosphorylation and activation of p53 and phosphorylation of Chk2 were not observed in ATM-deficient cells. In contrast, the topoisomerase II inhibitor etoposide induced phosphorylation of p53 and Chk2 in ATM-positive and ATM-deficient cells. In addition, genistein-treated ATM-deficient cells were significantly more susceptible to genistein-induced killing than were ATM-positive cells. Together our data suggest that ATM is required for activation of a DNA damage-induced pathway that activates p53 and Chk2 in response to genistein.
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PMID:The plant isoflavenoid genistein activates p53 and Chk2 in an ATM-dependent manner. 1109 68

The BRCA1 gene encodes a tumor suppressor that is mutated in 50% of familial breast cancers. The BRCA1 protein has been implicated in the DNA damage response, as DNA damage induces the phosphorylation of BRCA1 and causes its recruitment into nuclear foci that contain DNA repair proteins. The ataxia-telangiectasia-mutated (ATM) gene product controls overall BRCA1 phosphorylation in response to gamma-irradiation (IR). In this study, we show that BRCA1 phosphorylation is only partially ATM dependent in response to IR and ATM independent in response to treatment with UV light, or the DNA replication inhibitors hydroxyurea (HU) and aphidicolin (APH). We provide evidence that the kinase responsible for this phosphorylation is the ATM-related kinase, ATR. ATR phosphorylates BRCA1 on six Ser/Thr residues, including Ser 1423, in vitro. Increased expression of ATR enhanced the phosphorylation of BRCA1 on Ser 1423 following cellular exposure to HU or UV light, whereas doxycycline-induced expression of a kinase-inactive ATR mutant protein inhibited HU- or UV light-induced Ser 1423 phosphorylation in GM847 fibroblasts, and partially suppressed the phosphorylation of this site in response to IR. Thus, ATR, like ATM, controls BRCA1 phosphorylation in vivo. Although ATR isolated from DNA-damaged cells does not show enhanced kinase activity in vitro, we found that ATR responds to DNA damage and replication blocks by forming distinct nuclear foci at the sites of stalled replication forks. Furthermore, ATR nuclear foci overlap with the nuclear foci formed by BRCA1. The dramatic relocalization of ATR in response to DNA damage points to a possible mechanism for its ability to enhance the phosphorylation of substrates in response to DNA damage. Together, these results demonstrate that ATR and BRCA1 are components of the same genotoxic stress-responsive pathway, and that ATR directly phosphorylates BRCA1 in response to damaged DNA or stalled DNA replication.
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PMID:Functional interactions between BRCA1 and the checkpoint kinase ATR during genotoxic stress. 1111 88


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