EC:4.6.1.2 - FACTA Search

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)

The development of unstable angina pectoris and acute myocardial infarction is a process of platelet aggregation and thrombus formation associated with local coronary vasoconstriction. Regional deficiencies in endothelial vasodilator function, due to reduced formation of endothelium-derived relaxing factor (EDRF), may predispose to platelet aggregation and coronary vasoconstriction. Nitroglycerin (NTG), frequently utilized in the management of unstable angina pectoris and acute myocardial infarction, undergoes bioconversion, via a sulfhydryl-dependent process, to nitric oxide, which is identical or closely related to EDRF. Other products of the nitrate bioconversion "cascade" are various S-nitrosothiols, which, like nitric oxide, activate soluble guanylate cyclase, inducing increased formation of cyclic guanosine monophosphate. NTG potentially may act to correct a localized deficiency of EDRF effect, at both the vasculature and platelet levels. In patients with unstable angina, hemodynamic effects and therapeutic efficacy of intravenously infused NTG may be attenuated within hours. Combined therapy with NTG and intravenously infused N-acetylcysteine (NAC) results in potentiation of hemodynamic responses to NTG, markedly augments the effects of NTG on platelet aggregation, and reduces the incidence of acute myocardial infarction in patients with severe unstable angina pectoris. The combination of NTG with intermittent NAC infusion may increase the risk of hypotensive episodes in such patients, whereas continuous coinfusion of the drugs is better tolerated. The combination of NTG with thiol-containing agents, such as NAC, may be of therapeutic value in unstable angina pectoris and in evolving acute myocardial infarction. This is currently under investigation.
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PMID:Thiol-containing agents in the management of unstable angina pectoris and acute myocardial infarction. 192 1

Vascular smooth muscle relaxation elicited by various endogenous substances results from their interaction with vascular endothelial cells to triger the formation of endothelium-derived relaxing factor (EDRF). EDRF from pulmonary and peripheral arteries and veins and from cultured and freshly harvested aortic endothelial cells has been identified pharmacologically and chemically as nitric oxide (NO) or a labile nitroso compound. Endothelium-derived NO (EDNO) and authentic NO activate the cytoplasmic form of guanylate cyclase by heme-dependent mechanism and thereby stimulate intracellular cyclic GMP accumulation in cells including vascular smooth muscle and platelets. Cyclic GMP functions as a second messenger to cause vascular muscle relaxation and inhibition of platelet aggregation and adhesion to vascular endothelial surfaces. EDNO is synthesized from L-arginine and perhaps arginine-containing peptides by an unidentified calcium-requiring process coupled to the occupation of extracellular endothelial receptors. The biological actions of EDNO are terminated by spontaneous oxidation to NO2- and NO3-. The biological half-life of the very lipophilic EDNO is only 3-5 sec and this allows EDNO to function locally as an autacoid. Nitroglycerin and other organic nitrate esters elicit endothelium-independent relaxation after entering vascular smooth muscle cells and undergoing denitration and formation of NO. The pharmacological actions of nitroglycerin are therefore essentially the same as those of EDNO, and the endogenous NO receptor is the heme group bound to soluble guanylate cyclase. EDNO may serve a biological role to modulate local blood flow and platelet function.
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PMID:Endothelium-derived nitric oxide: pharmacology and relationship to the actions of organic nitrate esters. 251 Jan 39

We studied the effects of organic nitrates and human atrial natriuretic polypeptide (hANP) on relaxation and tissue cyclic guanosine monophosphate (cGMP) levels using isolated canine coronary arteries with and without endothelial injury. Glyceryl trinitrate (GTN), isosorbide dinitrate (ISDN), pentaerythritol tetranitrate (PETN), and hANP relaxed both the injured and control coronary arteries, and they increased tissue cGMP levels in a dose-dependent fashion without changing tissue adenosine 3':5'-cyclic phosphate (cAMP) levels. The extent of relaxation was larger and the increase in cGMP was greater in the injured coronary artery than in the control artery. Methylene blue inhibited relaxation induced by GTN and hANP, and decreased tissue cGMP levels in both the injured and control groups. M&B 22,948 enhanced relaxation induced by GTN and hANP and increased tissue cGMP levels in both groups. The results suggest that organic nitrates and hANP relax the coronary artery by directly activating the guanylate cyclase in coronary smooth muscle and that such activation is independent of the endothelium-dependent vasodilator system.
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PMID:Effects of atrial natriuretic polypeptide and organic nitrates on levels of relaxation and cyclic nucleotide of canine coronary artery with and without endothelial injury. 284 5

The effects of nitrates on a Ca+2 increase and the content of cyclic nucleotides in human platelets were studied. Nitroglycerin (GTN), isosorbide dinitrate (ISDN) and sodium nitroprusside (NP) were found to inhibit dose-dependently the intracellular Ca+2 increase induced by the platelet activating factor (PAF). The inhibiting effect of NP was at lower concentrations than those of GTN and ISDN. GTN calcium blocking action did not change significantly regardless of vasopressin, serotonin or PAF used as inducers of the intracellular Ca+2 increase. GTN suppressed the PAF provoked Mn+2 entering into the cells. NP and GTN induced increase of the cGMP content correlated with their calcium blocking activity. They did not augment the level of cAMP. Methylene blue (MB), a guanylate cyclase and glutathione reductase inhibitor, decreased the calcium blocking effect of GTN and its influence on the cGMP content but failed to suppress the inhibitory effect of NP. Ascorbic acid increased the calcium blocking effect of NP but did not influence the inhibitory effect of GTN. An increase in Ca+2 content induced by PAF in platelets from patients with chronic congestive heart failure was significantly higher in the group with dilatation cardiomyopathy. The effect of 10 mg of ISDN sublingually on forearm venous tone was higher in patients with initially elevated venous tone. There was a direct statistical correlation between the IC50 of GTN calcium blocking effects in platelets and the elevation of a forearm venous tone reaction from a statistic mean reaction to ISDN.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[New approaches to the study of the mechanism of action of nitrates]. 285 8

The effects of organic nitrates on tone and tissue cyclic nucleotide levels were studied, using canine coronary, mesenteric and renal arteries, and femoral veins. Glyceryl trinitrate (GTN) relaxed all vascular tissues examined and increased tissue cyclic GMP (cGMP) levels in a concentration-dependent manner, but GTN induced no significant changes in cyclic AMP (cAMP) levels. An increase in cGMP levels induced by 10 microM of GTN in coronary arteries was observed before the onset of relaxation. Methylene blue, an inhibitor of guanylate cyclase, inhibited the relaxant effect of GTN and decreased cGMP levels. In contrast, M & B 22,948, an inhibitor of cGMP phosphodiesterase, not only enhanced relaxation by GTN, but also increased cGMP levels. Other organic nitrates, pentaerythritol tetranitrate (PETN), nicorandil (NIC), and isosorbide dinitrate (ISDN), also relaxed coronary arteries and increased cGMP levels in a concentration-dependent manner. A significant correlation was observed between percentage increases in cGMP levels and percentage relaxation by 10 microM of GTN, PETN, NIC, and ISDN (r = 0.952, p less than 0.001). Plasma concentrations of 4 organic nitrates inversely correlated with percentage increases in cGMP levels by 10 microM of these agents in coronary arteries (r = -0.845, p less than 0.001). These results suggest that an increase in cGMP is responsible for relaxation in vascular smooth muscles by organic nitrates, and that therapeutic plasma concentrations may be estimated by the degree of increase in cGMP levels induced by their administration.
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PMID:Role of cyclic GMP of canine vascular smooth muscle in relaxation by organic nitrates. 302 46

The effects of nitrates on Ca2+ increase and cyclic nucleotide content in human platelets were studied. Nitroglycerin, isosorbide dinitrate and sodium nitroprusside were found to inhibit the intracellular Ca2+ increase induced by the platelet activating factor, ADP and a stable thromboxane A2 analog--U46619. The inhibiting effect of sodium nitroprusside manifested itself at lower concentrations than those of nitroglycerin and isosorbide dinitrate. Nitroglycerin suppressed the Mn2+ entry into the cells and caused a 2-fold increase of the cGMP content which correlates with the calcium blocking activity. Methylene blue, a guanylate cyclase and glutathione reductase inhibitor, decreased the calcium blocking effect of nitroglycerin and its influence on the cyclic nucleotide content but failed to suppress the inhibitory effect of sodium nitroprusside. The data obtained suggest that the effects of nitrates on platelets are mediated by their influence on guanylate cyclase which leads to a cyclic nucleotide content increase and to a calcium blocking effect.
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PMID:[Calcium-blocking effect of nitro compounds in human platelets: correlation with changes in the cyclic guanosine monophosphate level]. 303 39

Previous studies have suggested that (1) nitroglycerin causes vasodilatation by interacting with sulfhydryl groups in vascular smooth muscle, thereby activating guanylate cyclase and increasing the intracellular concentration of cyclic GMP, and (2) N-acetylcysteine, a source of sulfhydryl groups, potentiates the peripheral vasodilatory effect of nitroglycerin. This study was performed to explore the influence of N-acetylcysteine on nitroglycerin-induced coronary dilatation. In 18 patients (13 men and five women, 30 to 76 years old), coronary sinus blood flow (by thermodilution) was measured before and during intracoronary administration of nitroglycerin, 25 micrograms, both before and 5 min after a 15 min intravenous infusion of (1) 5% dextrose in water (n = 8, control) or (2) 100 mg/kg N-acetylcysteine (n = 10). Nitroglycerin caused no change in heart rate or systemic arterial pressure. In the control patients, coronary sinus blood flow behaved similarly during the two injections: it was 134 +/- 36 ml/min (mean +/- SD) before and 183 +/- 50 ml/min during injection No. 1 (average increase, 49 +/- 25 ml/min; average percent increase, 38 +/- 21%); and it was 131 +/- 34 ml/min before and 178 +/- 45 ml/min during injection No. 2 (average increase, 47 +/- 23 ml/min; average percent increase, 37 +/- 20%) (NS compared with injection 1). In the patients who received N-acetylcysteine, coronary sinus blood flow was 149 +/- 48 ml/min before and 191 +/- 54 ml/min during injection 1 (average increase, 42 +/- 15 ml/min; average percent increase, 30 +/- 12%) (NS compared with eight control values).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Potentiation of nitroglycerin-induced coronary dilatation by N-acetylcysteine. 307 76

The aim of the present study was to exclude a potential role of hemoglobin in the formation of nitric oxide (NO) from several nitrovasodilators. NO was measured with a chemiluminescence technique after purging with argon from the aqueous solution. Nitric oxide generation occurred in the absence of hemoglobin or non-heme iron. Sodium nitroprusside and SIN-1 released NO spontaneously. Nitroglycerin produced NO only in the presence of those thiols which are effective co-stimulators of guanylate cyclase. All other thiols degraded nitroglycerin only into nitrite ions without formation of NO. Our results support the role of nitric oxide as terminal activator of guanylate cyclase stimulation by nitrovasodilators.
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PMID:Nitric oxide (NO) formation from nitrovasodilators occurs independently of hemoglobin or non-heme iron. 312 57

Tolerance and cross-tolerance to the relaxant effects of S-nitroso-N-acetylpenicillamine (SNAP) and nitroglycerin were examined in rat aortic rings. Nitroglycerin-tolerant rings remained fully responsive to SNAP and sodium nitroprusside. Thus, reduced metabolic activation of nitroglycerin, rather than impaired guanylate cyclase activity, appeared to be the operating mechanism for nitrate tolerance in this preparation. Under similar conditions, SNAP incubation induced less tolerance than nitroglycerin. S-nitrosothiols, therefore, appear to be less tolerance-producing than nitroglycerin.
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PMID:Tolerance to relaxation in rat aorta: comparison of an S-nitrosothiol with nitroglycerin. 312 76

Nitroglycerin has maintained its position in the treatment of angina pectoris for more than a century. Efficacy of oral nitrates has been established and compares well with that of other anti-anginal drugs. New delivery systems are being developed for sustained systemic nitrate action. Beneficial action of nitrates in congestive heart failure and their crucial role in unstable angina and acute myocardial infarction has further widened their therapeutic use. A plausible hypothesis of the mechanism of nitrate-induced vasodilation has been presented, involving production of nitrosothiols and activation of guanylate cyclase in the vascular smooth muscle. Recent developments suggest that the rate degradation of nitrates and formation of nitrosothiols in the vascular smooth muscle are linked, offering an explanation to the relatively rapidly developing, but partial vascular tolerance during high-dose nitrate therapy.
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PMID:Efficacy of different forms of nitrates in angina pectoris. 392 83

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