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)

Ever since the identification of two distinct Ang II receptor subtypes, the function of the AT2 receptor has been a subject of debate. As opposed to the AT1 subtype, this receptor does not interact with G-proteins in most cell lines and tissues. We show here that, in intact PC12W cells which express only AT2 receptors, Ang II significantly decreases basal and atrial natriuretic peptide (ANP)-stimulated cGMP concentration. This effect is mimicked by the AT2 selective agonist CGP 42112, and is not prevented by the AT1 selective antagonist losartan, indicating that this is an AT2 receptor mediated response. The lack of effect of the phosphodiesterase (PDE) inhibitor IBMX shows that this mechanism does not involve PDE stimulation. This is confirmed by the finding that neither Ang II or CGP 42112 affect the Ca++/calmodulin dependent cGMP PDE activity. Furthermore Ang II and CGP 42112 have no effect on nitroprusside-stimulated cGMP levels in these cells, thus ruling out interactions between the AT2 receptor and soluble guanylate cyclase. These data indicate that the AT2 receptor mediated decrease of cGMP is due to the selective inhibition of particulate guanylate cyclase (pGC) activity. In an accompanying paper we report that interaction of Ang II with the AT2 receptor in the same cells results in the stimulation of phosphotyrosine phosphatase (PTPase) activity. Interestingly, the PTPase inhibitors sodium orthovanadate and phenylarsine oxyde, but not the Ser/Thr phosphatase inhibitor okadiac acid, inhibitthe Ang II and CGP 42112 induced decreases in cellular cGMP concentration. These findings suggest that stimulation of PTPase activity may be involved in the regulation of pGC activity via AT2 receptors.
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PMID:Angiotensin AT2 receptor mediated inhibition of particulate guanylate cyclase: a link with protein tyrosine phosphatase stimulation? 752 2

Bovine fasciculata cells in culture (BAC) express both AT1 and AT2 angiotensin receptors. The role and signaling pathways of this latter receptor are still the subject of debate. We found that in BAC stimulation of cortisol (F) production by angiotensin II (A II) is accounted for by both receptor subtypes. We have investigated the potential AT2 signalling pathways involved in this response. As previously described in other cells, we found this receptor to mediate inhibition of ANP stimulated cGMP production through a phosphodiesterase independent pathway. This phenomenon does however not appear to be involved in cortisol production as this response was not affected by the addition of 8-Br-cGMP or ANP. It was however abolished after down-regulation of PKC by phorbol esters, but not by Gi inhibition with pertussis toxin. Moreover and as opposed to the AT1 mediated response, AT2 receptor stimulation potentiated K+ induced F production. In conclusion, these observations suggest that the AT2 pathway which mediates F production requires intact PKC and might involve a Gi independent stimulation of Ca++ or K+ channels.
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PMID:Stimulation of cortisol production through angiotensin AT2 receptors in bovine fasciculata cells. 758 79

1. The effect of systemic administration of the nitric oxide synthase inhibitor, N(G)-nitro-L-arginine methyl ester (L-NAME) on the antihypertensive effects of the angiotensin AT1 receptor antagonist, GR138950, the angiotensin-converting enzyme (ACE) inhibitor, enalapril, or hydralazine has been evaluated in unrestrained, conscious renal artery ligated hypertensive (RALH) rats. The effect of the phosphodiesterase type V inhibitor, zaprinast on the antihypertensive effect of GR138950 in RALH rats was also examined. The effect of GR138950 on blood pressure, and plasma and urine cyclic GMP levels was compared to that of zaprinast in conscious RALH rats. 2. GR138950, enalapril or hydralazine caused marked reductions in blood pressure associated with immediate tachycardia in conscious RALH rats. L-NAME pretreatment attenuated the antihypertensive effects of GR138950 or enalapril but not that of hydralazine in conscious RALH rats. The initial tachycardia caused by GR138950 or enalapril but not hydralazine was attenuated by L-NAME pretreatment. L-NAME alone caused a transient (20 min) pressor response and a prolonged (6 h) bradycardia in conscious RALH rats. 3. Pretreatment with indomethacin did not affect the cardiovascular effect of GR138950 in conscious RALH rats. Indomethacin alone did not significantly change basal blood pressure or heart rate in RALH rats. 4. Zaprinast pretreatment did not affect the antihypertensive effect of GR138950 in conscious RALH rats but potentiated the depressor response to sodium nitroprusside. Zaprinast alone caused a small reduction in basal blood pressure but did not change basal heart rate in RALH rats. 5. The antihypertensive effect of GR138950 was not associated with an increase in plasma or urine cyclic GMP levels in conscious RALH rats, whereas zaprinast caused a small fall in blood pressure associated with increases in plasma and urine cyclic GMP. 6. The ability of L-NAME to inhibit the antihypertensive action of GR138950 or enalapril suggests that these agents release nitric oxide (NO) and/or enhance the cardiovascular effects of NO as part of their mechanism of action. However, the inability of zaprinast to potentiate the antihypertensive effects of GR138950 and the finding that GR138950 did not increase urine and plasma cyclic GMP levels are not consistent with this view. Attenuation of the response to GR138950 or enalapril, but not hydralazine, suggests a selective interaction between L-NAME and inhibitors of the renin-angiotensin system, although the nature of this interaction is unknown.
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PMID:Investigation of the inhibitory effect of N(G)-nitro-L-arginine methyl ester on the antihypertensive effect of the angiotensin AT1 receptor antagonist, GR138950. 942 Dec 86

Ionizing radiation (IR) enhances double-strand-break (DSB)-repair fidelity in plasmids processed in normal lymphoblasts but not in lymphoblasts from ataxia telangiectasia (A-T) patients. Putatively, signal-transduction pathways mediate this DNA-repair induction. Because IR inhibition of DNA synthesis is defective in A-T cells and is mediated by a calmodulin (caM)-dependent pathway, we evaluated the involvement of caM-dependent pathways in DSB-repair induction. Human lymphoblasts were gamma-irradiated with or without treatment with caM antagonists and the cells' abilities to repair shuttle pZ189 carrying a single DSB (linDNA) were assessed. In untreated controls, IR enhanced DSB-rejoining fidelity if transfection occurred promptly but diminished fidelity if transfection was delayed. Treatment with two caM antagonists, W-7 and W-13, prior to irradiation blocked this IR-enhancement of DSB-rejoining fidelity. Vinpocetine, a caM-dependent phosphodiesterase inhibitor, and 8-bromo-cAMP also inhibited IR enhancement of repair fidelity, but caM-dependent protein kinase II inhibitor KN62 had no effect. Other protein kinase inhibitors, staurosporine and genistein, also did not inhibit IR enhancement of DSB repair fidelity. However, staurosporine blocked the twofold reduction in DSB-repair fidelity seen if linDNA transfection was delayed 2 h after irradiation. These findings point to the involvement of caM/cAMP-dependent pathway(s) in mediating IR-enhancement of DSB-rejoining fidelity in mammalian cells.
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PMID:Calmodulin antagonists and cAMP inhibit ionizing-radiation-enhancement of double-strand-break repair in human cells. 1085 32

Medical therapy for chronic heart failure has recently been extensively revised on the basis of a reduction of mortality in randomized trials. However, there are almost no available trials in children whose treatment for heart failure is adapted from what is known in adults. Digitalis play a role in heart rate variability but there is no evidence for an effect on mortality. Angiotensin-converting enzyme inhibitors lead to an improvement of left ventricular function and reduces mortality; in addition, they are well tolerated in children. Diuretics are useful in congestive heart failure but chronic administration may have deleterious effects. Beta-blocking agents reduce mortality and improve symptoms and the ejection fraction; however, they must be given cautiously and the up-titration phase must be very progressive. New promising drugs are emerging (calcium sensitizers, phosphodiesterase inhibitors, angiotensin receptor [AT1] blockers) but at the present time their use in chronic heart failure has not proven to be efficient.
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PMID:[Treatment of chronic heart failure in the child]. 1181 Oct 37

Cardiovascular diseases including heart failure represent a common disease in patients referred for anesthesia. In most cases, heart failure is caused by left ventricular dysfunction due to coronary heart disease. The aims of the treatment of chronic heart failure are the relief of symptoms, the improvement of prognosis and the prevention of the progression of heart failure. The first-line treatment involves the underlying heart disease such as myocardial revascularisation procedures in coronary heart disease or the correction of valve diseases. The pharmacological therapy depends on the stage of heart failure and symptoms of the patient. Heart failure therapy includes ACE-inhibitors, betablockers, diuretics und digitalis. Nitrates can be prescribed in patients with symptomatic heart failure despite adequate therapy but calcium antagonists are not recommended. Repeated or prolonged treatment with positive inotropic agents like phosphodiesterase inhibitors or beta-adrenergic drugs increases mortality but this is commonly used in acute stages of heart failure refractory to treatment. Interactions of ACE-inhibitors or AT1- antagonists with anesthetic agents can lead to severe hypotension especially in hypovolemic patients. Whether those drugs should be continued perioperatively or not has been controversially discussed. The use of betablockers has a positive impact on cardiac morbidity and mortality during and early after surgery. Chronic treatment with diuretics can be associated with hypovolemia and an imbalance of electrolytes leading to hypotension and arrhythmia during anesthesia but careful evaluation prior to anesthesia can avoid such complications. The continuation of digitalis during anesthesia has been controversially discussed due to the various interactions with anesthetics.
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PMID:[Current treatment of chronic heart failure]. 1289 47

Salmonella enterica serovar Typhimurium is capable of producing cellulose as the main exopolysaccharide compound of the biofilm matrix. It has been shown for Gluconacetobacter xylinum that cellulose biosynthesis is allosterically regulated by bis-(3',5') cyclic diguanylic acid, whose synthesis/degradation depends on diguanylate cyclase/phosphodiesterase enzymatic activities. A protein domain, named GGDEF, is present in all diguanylate cyclase/phosphodiesterase enzymes that have been studied to date. In this study, we analysed the molecular mechanisms responsible for the failure of Salmonella typhimurium strain SL1344 to form biofilms under different environmental conditions. Using a complementation assay, we were able to identify two genes, which can restore the biofilm defect of SL1344 when expressed from the plasmid pBR328. Based on the observation that one of the genes, STM1987, contains a GGDEF domain, and the other, mlrA, indirectly controls the expression of another GGDEF protein, AdrA, we proceeded on a mutational analysis of the additional GG[DE]EF motif containing proteins of S. typhimurium. Our results demonstrated that MlrA, and thus AdrA, is required for cellulose production and biofilm formation in LB complex medium whereas STM1987 (GGDEF domain containing protein A, gcpA) is critical for biofilm formation in the nutrient-deficient medium, ATM. Insertional inactivation of the other six members of the GGDEF family (gcpB-G) showed that only deletion of yciR (gcpE) affected cellulose production and biofilm formation. However, when provided on plasmid pBR328, most of the members of the GGDEF family showed a strong dominant phenotype able to bypass the need for AdrA and GcpA respectively. Altogether, these results indicate that most GGDEF proteins of S. typhimurium are functionally related, probably by controlling the levels of the same final product (cyclic di-GMP), which include among its regulatory targets the cellulose production and biofilm formation of S. typhimurium.
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PMID:Role of the GGDEF protein family in Salmonella cellulose biosynthesis and biofilm formation. 1545 21

Caffeine and other methylxanthines produce multiple physiologic effects throughout the human body, many of these effects could potentially modulate the activity of anticancer therapy. Caffeine may directly interfere with drug transport to tumor cells by formation of mixed stacking complexes with polyaromatic drugs. If formed in cells, these complexes may also prevent of intercalating drugs from DNA binding and, in this way, lower their antitumor activity. Since many of potent carcinogens are polyaromatic compounds, formation of stacking complexes with carcinogens could be associated with anti-genotoxic activity of caffeine and its use in cancer chemoprevention. Caffeine has also been reported to inhibit ATM and ATR kinases which leads to the disruption of multiple DNA damage-responsive cell cycle checkpoints and greatly sensitizes tumor cells to antitumor agents which induce genotoxic stress. Caffeine may inhibit repair of DNA lesions through a direct interference with DNA-PK activity and other repair enzymes. A number of in vitro and in vivo studies demonstrated that caffeine modulates both innate and adaptive immune responses via inhibition of cyclic adenosine monophosphate (cAMP)-phosphodiesterase. Finally, another group of effects induced by caffeine is mediated through its inhibitory action on adenosine receptors. This may modulate the stability of HIF1 alpha as well as VEGF and interleukin-8 expression in tumor cells, which could have a direct impact on neovascularization of human tumors. In this review, we present different molecular mechanisms by which caffeine and other methylxanthines may directly or indirectly modulate the effect of antitumor treatment in tumor cells and in cancer patients.
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PMID:Modulation of cellular response to anticancer treatment by caffeine: inhibition of cell cycle checkpoints, DNA repair and more. 1869 Oct 92

In humans, a mutation in the tyrosyl-DNA phosphodiesterase (Tdp1) is responsible for the recessively inherited syndrome spinocerebellar ataxia with axonal neuropathy (SCAN1). Tdp1 is a well-conserved DNA repair enzyme, which processes modified 3' phospho-DNA adducts in vitro. Here, we report that in the yeast Schizosaccharomyces pombe, tdp1 mutant cells progressively accumulate DNA damage and rapidly lose viability in a physiological G0/quiescent state. Remarkably, this effect is independent of topoisomerase I function. Moreover, we provide evidence that Tdp1, with the polynucleotide kinase (Pnk1), processes the same naturally occurring 3'-ends, produced from oxidative DNA damage in G0. We also found that one half of the dead cells lose their nuclear DNA. Nuclear DNA degradation is genetically programmed and mainly depends on the two DNA damage checkpoint responses, ATM/Tel1 and ATR/Rad3, reminiscent to programmed cell death. Diminishing the respiration rate or treating cells with a low concentration of antioxidants rescues the quiescent tdp1 mutant cells. These findings suggest that mitochondrial respiration causes neuronal cell death in the SCAN1 syndrome and in other neurological disorders.
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PMID:Tdp1 protects against oxidative DNA damage in non-dividing fission yeast. 1919 39

Programmed cell death is a term which refers to a genetic decision of self-killing or suicide of a cell. Programmed cell death is not restricted to multicellular organisms and was described in a wide range of unicellular eukaryotes, indicating phylogenetically conserved functions, that participate in an adaptive response to cellular stress. Here we review and discuss our observations recently published in the EMBO Journal,(1) that non-dividing fission yeast, Schizosaccharomyces pombe, exhibits a DNA damage response leading to cell death. We found that Tdp1 protects quiescent S. pombe cells against oxidative DNA damage. Tdp1 is a well-conserved tyrosyl-DNA phosphodiesterase required for single-strand break DNA repair, the mutation of Tdp1 is responsible for the recessively inherited syndrome spinocerebellar ataxia with axonal neuropathy (SCAN1) in humans. We found that tdp1 mutant yeast cells grow, as well as the wild-type cells, during the vegetative state, but progressively die in the quiescent state. We showed that, in the absence of Tdp1, the accumulation of unrepaired oxidative DNA damage triggers a genetic response, leading to checkpoint-dependent (ATM/ATR) nuclear DNA degradation, reminiscent of apoptosis. Our results indicate that the reactive oxygen species (ROS) produced during mitochondrial respiration are the main DNA damaging agents in the physiological quiescent state.
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PMID:Unrepaired oxidative DNA damage induces an ATR/ATM apoptotic-like response in quiescent fission yeast. 1957 71


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