Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.6.1.2 (guanylate cyclase)
 8,497 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In order to obtain more insight into the possible role of cyclic AMP or cyclic GMP in modulating the initial cellular processes following activation of lymphocytes, we measured the effects of the T-cell mitogen concanavalin A and other substances including hormones on the cyclic nucleotide levels in human peripheral blood lymphocytes. The enzyme activities of the corresponding nucleotide cyclases, adenylate cyclase and guanylate cyclase were measured in both isolated plasma membranes or the cytosol of resting or concanavalin A stimulated rabbit thymocytes. Concanavalin A in a mitogenic concentration of about 5-10 micrograms/ml caused small, but consistent increases in cAMP but no changes in cGMP levels during the first hour of activation. Concomitantly, the specific activity of plasma membrane-bound adenylate cyclase was always increased at least 1.5-fold 30 min after stimulation of rabbit thymocytes with concanavalin A, but no effect could be detected on the specific activities of plasma membrane-bound or soluble guanylate cyclase. At high, supraoptimal concentrations of concanavalin A (more than 20 micrograms/ml) cAMP levels dramatically increased in human lymphocytes within minutes, but cGMP levels again were unaffected. Forskolin and beta-adrenergic hormones elevated cAMP in human lymphocytes, whereas cGMP levels were increased by the addition of sodium nitroprusside or alpha-adrenergic hormones. Sodium nitroprusside, in concentrations which elevated cGMP in human lymphocytes, had no influence on the incorporation of [3H]uridine into RNA of resting or concanavalin A stimulated human lymphocytes. Addition of forskolin resulted in an increase of cAMP levels and a dose-dependent decrease of [3H]uridine incorporation into RNA of concanavalin A-stimulated lymphocytes with no effect on resting lymphocytes. The data suggest that cGMP does not play a role in the initial phase of mitogenic activation of lymphocytes, whereas cAMP may be involved in the blast transformation process as an inhibitory signal.
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PMID:Are cyclic nucleotides involved in the initiation of mitogenic activation of human lymphocytes? 241 Dec 97

Pinacidil is a novel, clinically effective vasodilator used for the treatment of hypertension whose mechanism of action has not been precisely defined. In vitro, pinacidil (ED50 = 0.3 microM) was approximately 30-fold less potent than nitroglycerin and 700-fold more potent than minoxidil or hydralazine in relaxing rat aortic strip preparations. Aortic relaxations produced by nitroglycerin and acetylcholine were dramatically antagonized by methylene blue (10(-5) M), an inhibitor of soluble guanylate cyclase. In contrast, relaxation to hydralazine or minoxidil was unaffected and relaxation to pinacidil was only modestly inhibited (approximately threefold) by methylene blue (10(-5) M). Furthermore, aortic relaxation to pinacidil was similar in preparations with and without an intact endothelium. Relaxation induced by pinacidil (10(-7)-10(-4) M) was not associated with any elevation in either cyclic AMP (cAMP) or cyclic GMP (cGMP) levels in vitro, although nitroglycerin (10(-6) M) but not minoxidil (10(-3) M) or hydralazine (10(-3) M) significantly elevated cGMP levels. Thus, pinacidil was a potent relaxant agonist in vitro, in contrast to minoxidil and hydralazine, which were considerably weaker in this regard. Vascular relaxation produced by pinacidil was independent of an intact endothelium and was not associated with elevations in either cAMP or cGMP. These data are consistent with the proposal that the antihypertensive activity of pinacidil is due to nonspecific arterial vasodilation.
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PMID:Effects of pinacidil on serotonin-induced contractions and cyclic nucleotide levels in isolated rat aortae: comparison with nitroglycerin, minoxidil, and hydralazine. 243 46

Vascular relaxation by the organic (nitroglycerin) and inorganic (sodium nitroprusside) nitrovasodilators and the endothelium-dependent vasodilators (acetylcholine and histamine) has been associated with cyclic GMP accumulation. Tolerance to vasodilation by nitroglycerin commonly occurs following prolonged exposure to nitroglycerin. This study investigates the effects of in vivo nitroglycerin therapy on vascular relaxation and cyclic GMP accumulation induced by the nitrovasodilators and the endothelium-dependent vasodilators. Rats were injected with nitroglycerin or the propylene glycol diluent control for 4-7 days. Thoracic aortas from the nitroglycerin-treated rats were 750-fold less sensitive to the relaxant effects of nitroglycerin. In contrast, these aortas were only threefold less sensitive to the relaxant effects of sodium nitroprusside, while the maximum relaxation to acetylcholine and histamine was depressed by 50 and 41%, respectively. Desensitization to relaxation was associated with reduced cyclic GMP elevations to all the vasodilators. Relaxation to 8-bromo cyclic GMP, dibutyryl cyclic AMP, or diltiazem was unaffected by nitroglycerin therapy. Tolerance was also associated with an increased sensitivity to the contractile effects of low concentrations of norepinephrine. This increased sensitivity to norepinephrine was associated with a decrease in cyclic GMP levels. The present results suggest that: (1) desensitization to nitroglycerin, sodium nitroprusside, acetylcholine, and histamine by nitroglycerin therapy may be at the level of cyclic GMP accumulation; (2) cyclic GMP is the common mediator of relaxation induced by the nitro- and endothelium-dependent vasodilators; (3) the mechanisms involved in the activation of guanylate cyclase and relaxation by sodium nitroprusside, acetylcholine, and histamine are probably different than those of nitroglycerin; and (4) cyclic GMP may be acting as a physiological negative feedback signal in agonist-induced contraction.
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PMID:Effect of in vivo nitroglycerin therapy on endothelium-dependent and independent vascular relaxation and cyclic GMP accumulation in rat aorta. 244 89

Effect of a synthetic atrial natriuretic peptide, rat atriopeptin II (rAP-II) on the formation of cyclic nucleotides and progesterone production in Percoll-purified rat luteal cells was investigated. Incubation of luteal cells with varying concentrations of rAP-II resulted in a dose-related stimulation of intracellular cyclic GMP content; maximum stimulation being achieved with 10 nM rAP-II. The increase in cyclic GMP formation was extremely rapid and a 12-fold increase in the cyclic GMP content over basal level was attained within 5 min of incubation of the cells with 10 nM rAP-II. In the presence of phosphodiesterase inhibitor, 3-isobutyl-1-methyl-xanthine, both basal and rAP-II-stimulated levels of cyclic GMP were increased approximately 10 times, but the magnitude of stimulation remained similar in the presence or absence of the inhibitor. The atrial peptide at the concentration of 1-100 nM, however, had no effect on either basal or gonadotropin-stimulated progesterone production and cyclic AMP formation by the luteal cells. Furthermore, the increase in the level of cellular cyclic GMP content of rAP-II was demonstrated to result from a selective activation of particulate guanylate cyclase.
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PMID:Atrial natriuretic factor stimulates luteal guanylate cyclase. 244 51

The enzymatic properties of adenylate and guanylate cyclases were examined in sonicates of trypsinized guinea pig epidermal cells as enzyme source. Adenylate cyclase was found to be membrane-bound, while guanylate cyclase activity was detected in both membrane and cytosolic fractions. The maximal activities of the enzymes were obtained in the presence of Mn++ in the pH range 7.8-8.8. The apparent Km values of adenylate cyclase for Mn++- and Mg++-ATP were 20.5 and 38.6 microM, respectively, while the value of guanylate cyclase for Mn++-GTP was 500 microM. Examinations of cells separated by velocity sedimentation at unit gravity revealed that the basal activity of adenylate and guanylate cyclases was maximal in the germinative cells, falling gradually to the low level as cells differentiated. We assume that in the epidermis, the control and coordination of proliferation require higher concentrations of adenylate and guanylate cyclases as compared with events occurring during terminal differentiation.
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PMID:Adenylate and guanylate cyclase activities in isolated guinea pig epidermal cells at various stages of differentiation. 244 8

1. Depolarization of excitable cells of the central nervous system results in the formation of the second messengers cyclic AMP, cyclic GMP, inositol phosphates, and diacylglycerides. 2. Depolarization-evoked accumulation of cyclic AMP in brain preparations can be accounted for mainly by the release of adenosine, which subsequently interacts with stimulatory adenosine receptor linked to adenylate cyclase. 3. Depolarization-evoked formation of cyclic GMP in brain preparations is linked to activation of voltage-dependent calcium channels, presumably leading to activation of guanylate cyclase by calcium ions. 4. In brain slices depolarization-evoked stimulation of phosphoinositide breakdown and subsequent formation of inositol phosphates and diacylglycerides are linked to activation of voltage-dependent calcium channels, which are sensitive to dihydropyridines, presumably leading to activation of phospholipase(s) C by calcium ions. 5. In the synaptoneurosome preparation depolarization-evoked stimulation of phosphoinositide breakdown does not involve activation of dihydropyridine-sensitive calcium channels and, instead, appears to be regulated primarily by the intracellular concentration of sodium ions. Thus, agents that induce increases in intracellular sodium--such as toxins that open or delay inactivation of voltage-dependent sodium channels; ouabain, an inhibitor of Na+/K+ ATPase that transports sodium outward and a sodium ionophore--all stimulate phosphoinositide breakdown. Mechanistically, increases in intracellular sodium either might directly affect phospholipase(s) C or might lead to influx of calcium ions through Na+/Ca2+ transporters. 6. Depolarization-evoked stimulation of cyclic AMP formation and phosphoinositide breakdown can exhibit potentiative interactions with responses to receptor agonists, thereby providing mechanisms for modulation of receptor responses by neuronal activity. 7. Since all these second messengers can induce phosphorylation of ion channels through the activation of specific kinases, it is proposed that depolarization-evoked formation of second messengers represents a putative feedback mechanism to regulate ion fluxes in excitable cells.
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PMID:Formation of second messengers in response to activation of ion channels in excitable cells. 245 43

The molecular basis for the inhibitory action of the antiatopic drug, N-(3',4'-dimethoxycinnamoyl)anthranilic acid (Tranilast), on the thrombin-induced release of a lysosomal enzyme, beta-N-acetylglucosaminidase, from washed rabbit platelets was investigated. Tranilast dose dependently increased cyclic AMP and cyclic GMP levels in thrombin-stimulated platelets, parallel with the inhibition of beta-N-acetylglucosaminidase release. There was no significant effect of Tranilast on adenylate or guanylate cyclase activity. Tranilast inhibited the activity of cyclic AMP and cyclic GMP phosphodiesterases in a cell-free system. The data suggest that the inhibitory action of Tranilast on the release reaction in platelets was due at least in part to inhibition of cyclic nucleotide phosphodiesterases followed by an elevation of cyclic AMP and cyclic GMP levels.
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PMID:The mechanism for the inhibitory action of N-(3',4'-dimethoxycinnamoyl)anthranilic acid (tranilast) on the release reaction in platelets. 246 71

Bradykinin, which activates polymodal nociceptors, increased cyclic GMP (cGMP) in a capsaicin-sensitive population of cultured sensory neurones from rat dorsal root ganglia (DRG) by stimulating guanylate cyclase, but had no effect on cyclic AMP (cAMP). In nonneuronal cells from DRG, bradykinin increased cAMP, but not cGMP. The bradykinin-induced increase in cGMP in the neurones was completely blocked by removal of extracellular Ca2+, or by incubation of the cells with the calcium channel blockers nifedipine and verapamil. Pretreatment of the neurones with either dibutyryl cGMP or sodium nitroprusside (which elevates cGMP) inhibited bradykinin-induced formation of inositol phosphates. It is possible that cGMP could be involved in the regulation of polyphosphoinositide turnover in DRG neurones.
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PMID:Activation of guanylate cyclase by bradykinin in rat sensory neurones is mediated by calcium influx: possible role of the increase in cyclic GMP. 247 84

We studied the influence of endothelium-derived relaxing factor (EDRF) on sydnonimine (SIN-1)-induced vasodilatation and the accumulation of cyclic GMP in the rabbit femoral artery. The potency of SIN-1 to elicit vasodilatation in norepinephrine-contracted femoral arteries was significantly enhanced in the absence of the endothelium or following impairment of the synthesis of EDRF with gossypol or NG-nitro-L-arginine, whether the application of SIN-1 was intra- or extraluminal. The increase in cyclic GMP in the femoral segments by a combination of SIN-1 and endothelium-derived relaxant factor (released by the endothelium of either the rabbit thoracic aorta or the femoral artery) was significantly less than the sum of the increases in cyclic GMP induced by each agent alone. In contrast, stimulation of purified soluble guanylate cyclase by submaximal concentrations of SIN-1 was additive with the effect of EDRF, released from acetylcholine-stimulated rabbit aortas. This indicates the absence of a direct interaction between the factor and SIN-1 at the level of soluble guanylate cyclase. The interaction seems to be specific for cyclic GMP-mediated responses, since cyclic AMP-induced dilatations elicited by isoproterenol were not affected by the presence of the endothelium. The results indicate that the endothelium can modulate the vascular reactivity to SIN-1. This modulation may be mediated either by EDRF or by another endothelial substance that alters the metabolism or the action of cyclic GMP in vascular smooth muscle.
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PMID:Modulation of the vasodilator action of SIN-1 by the endothelium. 248 6

The purpose of the present investigations was to determine whether or not SIN-1, a metabolite of molsidomine that spontaneously releases nitric oxide, stimulates the production of adenosine-3',5'-cyclic monophosphate (cyclic AMP) and of guanosine-3',5'-cyclic monophosphate (cyclic GMP) in endothelial cells. All experiments were performed on first or second passage cultured porcine aortic endothelial cells. SIN-1 induced a time- and concentration-dependent accumulation of cyclic GMP but not of cyclic AMP. The production of cyclic GMP evoked by SIN-1 but not evoked by human alpha-natriuretic polypeptide was inhibited by treatment of the cells with either methylene blue (an inhibitor of soluble guanylate cyclase) and hemoglobin (a scavenger of nitric oxide). These data suggest that SIN-1 enhances the activity of soluble guanylate cyclase, which in turn induces the accumulation of cyclic GMP in endothelial cells. This response is probably due to the spontaneous release of nitric oxide, which is a potent activator of soluble guanylate cyclase.
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PMID:SIN-1 stimulates the production of cyclic GMP but not cyclic AMP in porcine aortic endothelial cells. 248 8


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