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)

Nitrovasodilators have been found to relax vascular smooth muscle by stimulating soluble guanylate cyclase and thus by increasing the formation of cyclic GMP (cGMP). This nucleotide is responsible for relaxation, most likely by decreasing cytosolic free Ca2+ by one or several mechanisms. Repeated administration of organic nitrates causes tolerance development characterized by a diminished relaxing effect and an attenuated rise in cGMP. Experiments in isolated circular strips from bovine coronary arteries were performed in order to study the mechanism of tolerance development. It was found that after nitroglycerin (NG) pretreatment the response of the coronary strips to NG was less sensitive with respect to relaxation and increases in cGMP. These strips were also cross-tolerant against isosorbide-5-mononitrate, which by itself caused only little tolerance. With NG, the degree of tolerance development depended on the time and the concentration of NG pre-exposure. NG was found to stimulate guanylate cyclase (GC) in coronary supernatant provided that cysteine was added to the incubation medium. As in the intact strips, activation of GC by NG was attenuated when supernatants were preincubated with NG. It was found that addition of cysteine during incubation lessened the degree of desensitization but did not prevent it completely. Similarly, in coronary strips, tolerance development was lower when N-acetylcysteine was present during pre-exposure of the strips with NG. Considerably more effective in preventing tolerance development by about 50% was L-2-oxothiazolidine-4-carboxylate (OTC), a substance that easily penetrates into the cell and is transformed into cysteine by 5-oxo-prolinase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mechanisms of nitrate-induced vasodilatation and tolerance. 197 61

The vasodilation effects of activators of guanylate cyclase, atrial natriuretic peptide (ANP), nitroglycerin (NTG), and acetylcholine (ACh), on the epicardial conductance arteries and the distal resistance coronary vessels were examined in chronically instrumented awake dogs and related serially to plasma guanosine 3',5'-cyclic monophosphate (cGMP) levels. Left atrial bolus injections of ANP (3 micrograms/kg; n = 7), NTG (13 micrograms/kg; n = 7), or ACh (0.13 micrograms/kg; n = 3) induced sustained increases in epicardial coronary dimension (ultrasonic crystals), 3.3, 5.7, and 6.7%, respectively, lasting greater than 40 min for ANP and NTG and greater than 3 min for ACh, and relatively brief increases in blood flow (resistance artery vasomotion) for each agent. Plasma samples withdrawn serially after injections of each agent demonstrated that only ANP increased cGMP level; the time course of ANP-induced epicardial vasodilation followed more closely the increase in cGMP than that of plasma ANP. These data demonstrated that these three activators of guanylate cyclase induced preferential sustained epicardial vasodilation and only brief distal coronary vasodilation with minor or no change in systemic hemodynamics. The prolonged increase in plasma cGMP after ANP injection suggested continuous cGMP production during ANP-induced proximal vasodilation. These data demonstrate a striking heterogeneity of vasomotor responses in the coronary arterial vasculature and suggest that cGMP-mediated vasodilation mechanisms are more predominant in proximal conductance arteries compared with distal resistance vessels.
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PMID:Preferential proximal coronary dilation by activators of guanylate cyclase in awake dogs. 197 38

The contractile response to neurally released norepinephrine (NE) from sympathetic nerve endings innervating vascular smooth muscle are inhibited by substances which raise either cyclic AMP and cyclic GMP concentrations in smooth muscle. However, cyclic AMP is believed to facilitate NE release from sympathetic nerves whereas the role of cyclic GMP in this process is undefined. We examined the effects of presumed modulation of the intraneuronal concentration of cyclic AMP and cyclic GMP on sympathetic neurotransmission to isolated canine mesenteric artery by measurement of the efflux of [2-14C]NE during transmural nerve stimulation (calcium dependent release of NE) and administration of tyramine (calcium independent release of NE) and measurement of the contractions to exogenous NE and tyramine. Stimulation of adenylate cyclase with forskolin, prostacyclin and iloprost, a stable prostacyclin analog, and inhibition of Type III cyclic AMP phosphodiesterase with neural specific rolipram, 'non-specific pelrinone and milrinone and isobutylmethylxanthine did not enhance the efflux of [2-14C]NE from sympathetic nerves innervating the blood vessels. Isoproterenol enhanced the efflux of [2-14C]NE. The effect was inhibited by propranolol but not affected by milrinone, amrinone or rolipram. Activators of guanylate cyclase (SIN-1a an active metabolic of molsidomine, nitroglycerin and sodium nitroprusside) and inhibitors of Type II cyclic GMP phosphodiesterase (M&B-22948 and verofyllin) inhibited the efflux of NE released by transmural nerve stimulation but not by tyramine. These data support the conclusion that cyclic GMP may be an inhibitory modulator of calcium and depolarization dependent NE release from sympathetic nerves, whereas neuronal cyclic AMP may not be a primary modulator of neurotransmission to vascular smooth muscle.
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PMID:Inhibition of sympathetic neurotransmitter release by modulators of cyclic GMP in canine vascular smooth muscle. 198 54

The responses of small (60-100 microns), medium (101-190 microns), and large (191-300 microns) porcine coronary microvessels to nitroglycerin were examined in vitro using a video-imaging apparatus. Large coronary microvessels, preconstricted with acetylcholine, relaxed by 90% in response to nitroglycerin, whereas small microvessels relaxed only 20% to nitroglycerin. Responses to putative metabolites of nitroglycerin, S-nitrosocysteine, and nitric oxide, were also examined. S-Nitrosocysteine produced equal relaxations in all sizes of coronary microvessels. Nitric oxide was 10 times more potent in large coronary arteries than in small but produced greater than 90% relaxation of all sizes of coronary microvessels at the highest concentrations. Bradykinin and the calcium ionophore A23187, which release endothelium-derived relaxing factor (EDRF), produced similar relaxation in small, medium, and large microvessels. The compound LY 83583 (which depletes vascular guanylate cyclase) reduced responses to nitroglycerin, nitric oxide, S-nitrosocysteine, bradykinin, and the calcium ionophore A23187 in microvessels of all sizes. Our data are compatible with the concept that nitroglycerin must undergo reductive processing to exert its vasodilator effect, likely through the formation of nitrosothiols. In small coronary microvessels, this biotransformation of nitroglycerin is diminished compared with larger coronary arteries. This may be caused by a relative deficiency of available sulfhydryl groups or a lack of enzymes necessary for conversion of nitroglycerin to its active metabolites in small coronary resistance vessels.
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PMID:Influence of vessel size on the sensitivity of porcine coronary microvessels to nitroglycerin. 210 98

The mechanism of modulation of cyclic GMP-associated vascular responses by methylene blue, an agent employed to inhibit the activation of soluble guanylate cyclase in tissues, was investigated in the cremaster muscle microcirculation of pentobarbital-anesthetized rats. The effect of topically applied agents on the diameter of third-order arterioles (15-20 microns diameter) was determined by in vivo television microscopy. Topical application (100 microliters) of acetylcholine (0.01 microgram) or nitric oxide (0.06-6 micrograms) caused vasodilator responses that were inhibited (P less than .05, n = 6-8) 64% and 30 to 100%, respectively, by suffusion of the preparation with 5 microM methylene blue. Agents that are thought to produce activation of guanylate cyclase via cellular metabolism to nitric oxide, nitroglycerin (0.5 ng-0.5 microgram) or nitroprusside (0.5 ng-0.5 microgram), also produced vasodilation. However, methylene blue suffusion did not inhibit these responses (n = 6-9). The inhibition of vasodilation to acetylcholine or nitric oxide by methylene blue was completely prevented by suffusion of superoxide dismutase, but not affected by suffusion of catalase. Based on the current conceptualization of the mechanism of action of these vasodilator agents in isolated larger blood vessels, methylene blue appears to inhibit responses in this skeletal muscle microcirculatory preparation through the extracellular generation of superoxide anion and not via a direct interaction with guanylate cyclase.
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PMID:Methylene blue inhibits vasodilation of skeletal muscle arterioles to acetylcholine and nitric oxide via the extracellular generation of superoxide anion. 216 87

1. Atrial natriuretic factor (ANF) relaxes vascular smooth muscle through activation of particulate guanylate cyclase and generation of cyclic GMP. 2. From other laboratories, there is some evidence from cultured vascular smooth muscle cell studies for homologous desensitization of ANF-induced cGMP production and down-regulation of ANF receptors. 3. This series of studies demonstrates that homologous desensitization of ANF-induced relaxation of rat aortic ring preparations also occurs. 4. Heterologous desensitization could not be demonstrated to the vasoactive peptides angiotensin II or vasopressin, nor to nitroglycerin which has previously been shown to exhibit heterologous desensitization with other nitrovasodilators and shares some common elements in the pathway to vascular smooth muscle relaxation with ANF.
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PMID:Studies of the desensitization of atrial natriuretic factor and nitroglycerin in rat aortic rings. 217 11

Stimulation of the endothelial lining of arteries with acetylcholine results in the release of a diffusible substance that relaxes and hyperpolarizes the underlying smooth muscle. Nitric oxide (NO) has been a candidate for this substance, termed endothelium-derived relaxing factor. But there are several observations that argue against the involvement of NO in acetylcholine-induced hyperpolarization. First, exogenous NO has no effect on the membrane potential of canine mesenteric arteries. Second, although haemoglobin (believed to bind and inactivate NO (refs 11-15)) and methylene blue (which prevents the stimulation of guanylate cyclase) inhibit relaxation, neither has an effect on hyperpolarization. Finally, nitroprusside, thought to generate NO in vascular smooth muscle, relaxes rat aorta without increasing rubidium efflux. Nevertheless, nitrovasodilators, nitroprusside and nitroglycerin cause hyperpolarization in some arteries. NO might therefore be responsible for at least part of the hyperpolarization induced by acetylcholine. We now report that hyperpolarization and relaxation evoked by acetylcholine are reduced by NG-monomethyl-L-arginine, an inhibitor of NO biosynthesis from L-arginine. Thus NO derived from the endothelium can cause hyperpolarization of vascular smooth muscle, which might also contribute to relaxation by closing voltage-dependent calcium channels. Our findings raise the possibility that hyperpolarization might be a component of NO signal transduction in neurons or inflammatory cells.
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PMID:Hyperpolarization and relaxation of arterial smooth muscle caused by nitric oxide derived from the endothelium. 236 64

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

Nicorandil (SG-75) is a new organic nitrate with pronounced vasodilator properties. We studied whether nicorandil, in analogy to other nitrovasodilatators, exerted its relaxing effects on vascular smooth muscle by stimulating guanylate cyclase, and whether this effect was susceptible to tolerance development. Dose-response curves for the relaxing and cyclic guanosine monophosphate (cGMP) increasing effects of nicorandil were obtained in isolated strips of bovine coronary arteries and compared with those of other nitrovasodilatators. It was found that nicorandil dose-dependently relaxed the strips precontracted with 26.7 mM K+ and that this effect was closely associated with increases in cGMP levels (measured by RIA under various conditions). The correlation between relaxation and rises in cGMP was steeper than with other nitrovasodilatators, suggesting that nicorandil, in addition to its cGMP-mediated effect, also relaxed vascular smooth muscle by a cGMP independent mechanism. In contrast to nitroglycerin (NG), nicorandil caused little development of tolerance or cross-tolerance toward ISDN or IS-5-MN when tested after preincubation of the strips toward the respective substance. Pretreatment with N-acetylcysteine during the preincubation period prevented tolerance towards nicorandil. The results indicate that the relaxant effects of nicorandil consist of a larger cGMP-mediated component and a smaller one which is independent of this nucleotide.
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PMID:Cyclic GMP in nicorandil-induced vasodilatation and tolerance development. 244 21


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