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)

Exposure of mammalian cells to ionizing radiation causes a delay in progression through the cycle at several checkpoints. Cells from patients with ataxia-telangiectasia (A-T) ignore these checkpoint controls postirradiation. The tumour suppressor gene product p53 plays a key role at the G1/S checkpoint preventing the progression of cells into S phase. The induction of p53 by radiation is reduced and/or delayed in A-T cells, which appears to account for the failure of delay at the G1/S checkpoint. We have investigated further this defect in radiation signal transduction in A-T. While the p53 response was defective after radiation, agents that interfered with cell cycle progression such as mimosine, aphidicolin and deprivation of serum led to a normal p53 response in A-T cells. None of these agents caused breaks in DNA, as determined by pulse-field gel electrophoresis, in order to elicit the response. Since this pathway is mediated by protein kinases, we investigated the activity of several of these enzymes in control and A-T cells. Ca+2-dependent and -independent protein kinase C activities were increased by radiation to the same extent in the two cell types, a variety of serine/threonine protein kinase activities were approximately the same and anti-tyrosine antibodies failed to reveal any differences in protein phosphorylation between A-T and control cells. It is not evident what is the nature of the defect in signal transduction in A-T cells. However, it is clear that the p53 response is normal in these cells after exposure to some agents and it is mediated through protein kinase C or another serine/threonine kinase.
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PMID:Defect in radiation signal transduction in ataxia-telangiectasia. 753 Jul 54

Angiotensin II (Ang II) is a potent regulator of proximal tubule functions, including transport, metabolism, and cell proliferation. The opossum kidney (OK) cell line is a useful model of renal proximal tubule. Mitogen-activated protein (MAP) kinases are rapidly phosphorylated and activated in response to various agonists. We investigated Ang II effects on serine/threonine kinase cascades in OK cells. The major findings of the present study are that Ang II stimulated MAP kinase kinase (MAPKK), MAP kinase (MAPK), and S6 kinase activities, and that it increased phosphorylation of Raf-1 kinase and p42 MAP kinase in OK cells. These stimulations of kinases were dose-dependent (from 10(-6) to 10(-11) M). The time course of activation was sequential; the peak stimulation was reached at 5 to 10 minutes for Raf-1 kinase, MAPKK and MAPK, and at 20 minutes for S6 kinase. The activation of MAPK was inhibited by approximately 70% with prolonged 24-hour PMA pretreatment or in the presence of calphostin C or H-7. Tyrosine kinase inhibitors (genistein and herbimycin) did not inhibit AngII-induced MAPK activity. This activation of MAPK was also inhibited via AT1 receptor antagonist, Dup753 and pertussis toxin. This evidence suggests that the activation of serine/threonine cascades by Ang II is largely dependent on PMA-sensitive PKC, and is not dependent on tyrosine kinase and pertussis toxin.
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PMID:Sequential activation of MAP kinase cascade by angiotensin II in opossum kidney cells. 858 39

DNA-dependent protein kinase (DNA-PK) is a nuclear protein serine/threonine kinase that is activated by DNA double strand breaks (DSBs). It is a component of the DNA DSB repair apparatus, and cells deficient in DNA-PK are hypersensitive to ionising radiation and radio-mimetic drugs. In addition, DNA-PK is required to generate the antigen binding sites of T-cell receptor and immunoglobulin molecules, and the phenotype of the severe combined immunodeficient (scid) mouse is due to a DNA-PK deficiency. Recent data suggest that DNA-PK may also have roles in controlling transcription, apoptosis, and the length of telomeric chromosomal ends. Finally, DNA-PK is related to other proteins involved in DNA damage detection, including the protein defective in the human neurodegenerative and cancer predisposition syndrome ataxia-telangiectasia. Studies on DNA-PK should provide a better understanding of degenerative disease and cancer, and may lead to improved therapies for these conditions.
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PMID:DNA-dependent protein kinase. 937 73

The DNA-dependent protein kinase (DNA-PK) is a nuclear protein serine/threonine kinase that must bind to DNA double-strand breaks to be active. We and others have shown that it is a multiprotein complex comprising an approx. 465 kDa catalytic subunit (DNA-PKcs) and a DNA-binding component, Ku. Notably, cells defective in DNA-PK are hypersensitive to ionizing radiation. Thus X-ray-sensitive hamster xrs-6 cells are mutated in Ku, and rodent V3 cells and cells of the severe combined immune-deficient (Scid) mouse lack a functional DNA-PKcs. Cloning of the DNA-PKcs cDNA revealed that it falls into the phosphatidylinositol (PI) 3-kinase family of proteins. However, biochemical assays indicate that DNA-PK contains no intrinsic lipid kinase activity, but is instead a serine/threonine kinase. We have also found that DNA-PK activity can be inhibited by the PI 3-kinase inhibitors wortmannin and LY294002. Consistent with its proposed role in genome surveillance and the detection of DNA damage, DNA-PKcs is most similar to a subset of proteins involved in cell-cycle checkpoint control and signalling of DNA damage. Furthermore, the recent cloning of the gene mutated in ataxia-telangiectasia (A-T) patients, named ATM (A-T mutated), has revealed that the product of this gene is also a PI 3-kinase family member and is related to DNA-PKcs. Although much is known about the clinical symptoms and cellular phenotypes that arise from disruption of the A-T gene, little is known about the biochemical action of ATM in response to DNA damage. Given its sequence similarity with DNA-PKcs, we speculate that ATM may function in a manner similar to DNA-PK.
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PMID:DNA-dependent protein kinase and related proteins. 1020 23

Angiotensin (A) II is a potent constrictor as well as growth stimulant of vascular smooth muscle cell caused by activation of AT1 receptor signal transduction systems. There are two major signal systems of AT1 receptor: one leads to an increase in cytosolic free calcium levels causing smooth muscle contraction which may result in high blood pressure, and the other leads to smooth muscle proliferation and inflammation which may result in atherosclerosis. AT1 receptor activation induces phosphinositide hydrolysis by phospholipase C and creates an inositol phosphate, which release calcium from cytosolic calcium pools. Cytosolic calcium can also be elevated by activation of calcium channel via a link between AT1 receptor and a G protein. Protein phosphorylation triggered by AT1 receptor is important for cell growth, in which tyrosine kinase, serine/threonine kinase and protein kinase C are involved. Free radicals are generated by NADH/NADPH oxidase in response to AT1 receptor activation, causing expression of genes leading to atherosclerosis. On the other hand, activation of AT2 receptor is shown to play a role of lowering blood pressure. Some phosphatases and NO/cyclic GMP would be involved in the mechanism. In renal vasculature, endothelium dependent epoxygenase products are synthesized by AT2 receptor stimulation causing vasorelaxation. In summary, AT1 receptor signals are vasopressive and evoke atherosclerosis, whereas AT2 receptor signals may possibly be vasodilatory.
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PMID:[Signal transduction systems of angiotensin II receptors]. 1036 37

Involvement of Akt/Protein kinase B (PKB), a serine/threonine kinase with a pleckstrin-homology domain, in angiotensin II (ANG II)-induced signal transduction was investigated in cultured vascular smooth muscle cells (VSMC). Stimulation of the cells with ANG II led to a marked increase in the kinase activity of Akt/PKB, which coincided with Ser-473 phosphorylation. ANG II-stimulated Akt/PKB activation was rapid, concentration dependent, and inhibited by the AT1-receptor antagonist CV-11974, but not by pertussis toxin. Akt/PKB activity was stimulated by the Ca2+ ionophore ionomycin, suggesting the possible involvement of Ca2+ in ANG II-stimulated Akt/PKB activation. However, blockade of Ca2+ mobilization by BAPTA-AM only partially inhibited ANG II-stimulated Akt/PKB activation. ANG II-stimulated Akt/PKB activation was inhibited by the tyrosine kinase inhibitors genistein and herbimycin A and by the phosphatidylinositol 3-kinase (PI3K) inhibitors wortmannin and LY-294002. These results indicate that ANG II stimulates Akt/PKB activity via AT1 receptors in VSMC and that the activities of tyrosine kinase and PI3K are required for this activation.
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PMID:Activation of Akt/protein kinase B after stimulation with angiotensin II in vascular smooth muscle cells. 1036 72

Nck is a small adaptor protein consisting exclusively of three SH3 domains and one SH2 domain. Nck is thought to have an important role in cell signalling by coupling receptor tyrosine kinases, via its SH2 domain, to downstream SH3-binding effectors. We report here that angiotensin II, working through the AT1 receptor subtype, stimulates the phosphorylation of Nck in rat aortic smooth muscle cells. Phosphopeptide mapping analysis revealed that Nck is phosphorylated on four peptides containing exclusively phosphoserine in quiescent cells. Treatment with angiotensin II resulted in increased phosphorylation of these four peptides, without the appearance of new phosphopeptides. We show that Nck, via its SH3 domains, specifically binds three major phosphoproteins of 95, 82 and 66 kDa both in vitro and in intact cells. Notably, the phosphorylation of these Nck-binding proteins was found to increase in parallel with that of Nck on stimulation by angiotensin II. One candidate for the 66 kDa phosphoprotein is the serine/threonine kinase p21-activated kinase 1 (Pak1), which was found to form a stable complex with Nck in aortic smooth muscle cells. We have also identified the gamma2 isoform of casein kinase I as another protein kinase that associates with Nck in these cells. These findings indicate that Nck is a target of G-protein-coupled receptors and suggest a role for Pak1 and casein kinase I-gamma2 in downstream signalling or regulation of the AT1 receptor.
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PMID:Angiotensin II stimulates serine phosphorylation of the adaptor protein Nck: physical association with the serine/threonine kinases Pak1 and casein kinase I. 1037 65

The tumor suppressor gene CHK2 encodes a versatile effector serine/threonine kinase involved in responses to DNA damage. Chk2 has an amino-terminal SQ/TQ cluster domain (SCD), followed by a forkhead-associated (FHA) domain and a carboxyl-terminal kinase catalytic domain. Mutations in the SCD or FHA domain impair Chk2 checkpoint function. We show here that autophosphorylation of Chk2 produced in a cell-free system requires trans phosphorylation by a wortmannin-sensitive kinase, probably ATM or ATR. Both SQ/TQ sites and non-SQ/TQ sites within the Chk2 SCD can be phosphorylated by active Chk2. Amino acid substitutions in the SCD and the FHA domain impair auto- and trans-kinase activities of Chk2. Chk2 forms oligomers that minimally require the FHA domain of one Chk2 molecule and the SCD within another Chk2 molecule. Chk2 oligomerization in vivo increases after DNA damage, and when damage is induced by gamma irradiation, this increase requires ATM. Chk2 oligomerization is phosphorylation dependent and can occur in the absence of other eukaryotic proteins. Chk2 can cross-phosphorylate another Chk2 molecule in an oligomeric complex. Induced oligomerization of a Chk2 chimera in vivo concomitant with limited DNA damage augments Chk2 kinase activity. These results suggest that Chk2 oligomerization regulates Chk2 activation, signal amplification, and transduction in DNA damage checkpoint pathways.
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PMID:Chk2 activation and phosphorylation-dependent oligomerization. 1202 51

Heart failure and hypertension are associated with increases in angiotensin II (ANG II) activity. One brain area where ANG II effects may be particularly important in these situations is the nucleus of the solitary tract (NTS). Located in the dorsomedial medulla, the NTS is the termination site of baroreceptor afferents and is essential for mediating the baroreflex. In hypertensive animals the baroreflex is impaired; this may be reversed by antagonizing ANG II AT1 receptors in the NTS. Recently, we showed that the baroreflex depressant action of ANG II in the NTS is mediated by activation of endothelial nitric oxide synthase (eNOS) and enhanced release of GABA. Using conventional pharmacological tools and a range of adenoviral-mediated expression of dominant negative proteins, we have determined the intracellular pathway(s) in the NTS by which ANG II activates eNOS. Our data indicate that ANG II acting in the NTS depresses the baroreflex via a Gq protein-mediated activation of phospholipase C, which through 1,4,5-inositol triphosphate causes release of calcium from the IP3-sensitive intracellular stores and calcium-calmodulin formation. In contrast, multiple site disruption of a pathway leading to eNOS activation via the serine/threonine kinase Akt was ineffective
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PMID:Genetic and pharmacological dissection of pathways involved in the angiotensin II-mediated depression of baroreflex function. 1237 82

The CHK2 gene codifies for a serine/threonine kinase that plays a central role in DNA damage response pathways. To determine the potential role of CHK2 alterations in the pathogenesis of lymphoid neoplasms we have examined the gene status, protein, and mRNA expression in a series of tumors and nonneoplastic lymphoid samples. A heterozygous Ile157Thr substitution, also present in the germ line of the patient, was detected in a blastoid mantle cell lymphoma (MCL). CHK2 protein and mRNA expression levels were similar in all types of lymphomas and reactive samples, and these levels were independent of the proliferative activity of the tumors. However, 5 tumors, one typical MCL, 2 blastoid MCLs, and 2 large cell lymphomas, showed marked loss of protein expression, including 2 samples with complete absence of CHK2 protein. These 2 lymphomas showed the highest number of chromosomal imbalances detected by comparative genomic hybridization in the whole series of cases. However, no mutations, deletions, or hypermethylation of the promoter region were identified in any of these tumors. mRNA levels were similar in cases with low and normal protein expression, suggesting a posttranscriptional regulation of the protein in these tumors. CHK2 gene and protein alterations were not related to p53 and ATM gene status. In conclusion, CHK2 alterations are uncommon in malignant lymphomas but occur in a subset of aggressive tumors independently of p53 or ATM alterations. The high number of chromosomal imbalances in tumors with complete absence of CHK2 protein suggests a role of this gene in chromosomal instability in human lymphomas.
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PMID:CHK2-decreased protein expression and infrequent genetic alterations mainly occur in aggressive types of non-Hodgkin lymphomas. 1239 93


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