EC:4.6.1.2 - FACTA Search

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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)

1. Interactions between the synthesis of myo-inositol 1,4,5-trisphosphate (IP3) and guanosine 3':5'-cyclic monophosphate (cyclic GMP) in the smooth muscle cells of the rabbit aorta were investigated. 2. In the presence or absence of vascular endothelium, noradrenaline (NA; 5 microM) consistently reduced the amount of phosphatidylinositol 4,5-bisphosphate (PI-P2) and increased both phosphatidic acid (PA) and IP3. 3. In the presence or absence of endothelium, acetylcholine (ACh; 100 microM but not 5 microM) slightly increased the amount of IP3, but exposure to ACh (100 microM) 4 min after application of NA did not modify NA-induced synthesis of IP3. 4. ACh (100 microM) markedly enhanced the synthesis of cyclic GMP in the presence of endothelium but not in the endothelium-denuded tissues. 5. Prazosin (5 microM) but not dibutyryl cyclic GMP (db-cyclic GMP; 100 microM) blocked the hydrolysis of PI-P2 induced by 5 microM NA. Synthesis of IP3 induced by NA, as estimated with [3H]-inositol was not modified by application of 100 microM db-cyclic AMP or db-cyclic GMP. 6. alpha-Human atrial natriuretic peptide (alpha-hANP; 0.1 microM) increased cyclic GMP in the presence or absence of endothelium. alpha-hANP (0.1 microM) consistently inhibited the hydrolysis of PI-P2 induced by 5 microM NA. 7. The results indicate that synthesis of IP3 is inhibited neither by the synthesis of cyclic GMP in the cytosol nor by cyclic GMP itself. However, synthesis of IP3 through hydrolysis of PI-P2 may be inhibited by an interaction between some steps in the IP3 synthetic process and by the activation of the alpha-hANP-guanylate cyclase process at the sarcolemma.
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PMID:Inhibitory action of alpha-human atrial natriuretic peptide on noradrenaline-induced synthesis of myo-inositol 1,4,5-trisphosphate in the smooth muscle cells of rabbit aorta. 197 Apr 98

Transmural electrical stimulation was used to elicit frequency-dependent adrenergic neurogenic contractions in isolated carotid arteries from cholesterol-fed and control rabbits. In rings with endothelium, responses to adrenergic nerve stimulation were significantly greater in arteries from cholesterol-fed as compared with those from control rabbits. Responses to adrenergic nerve stimulation of rings without endothelium were not different between the two groups. Methylene blue, a guanylate cyclase inhibitor, increased contractions of rings with endothelium and abolished the difference between the responses of arteries from cholesterol-fed and control rabbits. Methylene blue had no significant effect on arteries without endothelium. The overflow of endogenous norepinephrine (NE) caused by transmural electrical stimulation was not different between segments of arteries from cholesterol-fed and control rabbits. In control rabbits, exogenously applied NE contracted arteries with endothelium less than arteries without endothelium, whereas in cholesterol-fed rabbits the contractions caused by NE were not different between arteries with and without endothelium. Acetylcholine-induced relaxations were not different between rings with endothelium from cholesterol-fed and control rabbits. These results suggest that hypercholesterolemia selectively impairs the inhibitory influence of the endothelium on adrenergic contractions.
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PMID:Augmented adrenergic contractions of carotid arteries from cholesterol-fed rabbits due to endothelial cell dysfunction. 248 75

The objective of this study was to characterize the role of membrane potential and cyclic nucleotides in endothelium-dependent dilation of cerebral arteries. Middle cerebral arteries isolated from cats were depolarized and constricted in response to serotonin or when subjected to transmural pressures greater than 50 mm Hg. Acetylcholine (ACh) and ADP caused vasodilation and a sustained, dose-dependent hyperpolarization of up to 20 mV in this artery. The membrane potential change preceded the vasodilation by approximately 6 s. Hyperpolarizations and dilations to ACh and ADP did not occur in preparations without endothelium. The hyperpolarizations were abolished by ouabain (10(-5) M), which also blocked the dilator response to ACh. However, dilations to ADP were unaffected by ouabain. Methylene blue (5 x 10(-5) M), a guanylate cyclase inhibitor, had no effect on the responses to ACh or ADP in the presence or absence of ouabain. Cyclic guanosine monophosphate (cGMP) levels were not altered in cerebral arteries exposed to ACh or ADP. However, ADP did increase cyclic adenosine monophosphate levels in these blood vessels. We conclude that although membrane hyperpolarizations may be adequate to cause vasodilation, at least one other pathway of endothelium-dependent vasodilation also is present in feline cerebral arteries. Cyclic GMP does not appear to be involved in this alternate pathway of dilation.
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PMID:Endothelium-dependent dilation of feline cerebral arteries: role of membrane potential and cyclic nucleotides. 254 Nov 45

1. Acetylcholine (ACh)-induced relaxation of aortic strips with endothelium and production of cyclic GMP between streptozotocin-induced diabetic and age-matched control rats were compared. 2. The concentration-response curve for ACh-induced relaxation was shifted to the right in diabetic rats. IC50 values for ACh were 4.57 +/- 0.67 x 10(-8) M and 1.00 +/- 0.87 x 10(-7) M in aortic strips from age-matched control and diabetic rats, respectively (n = 6, P less than 0.05). 3. Relaxations produced by atrial natriuretic peptide (ANP) in diabetic aortae were similar to those in age-matched vessels. 4. Relaxations produced by sodium nitroprusside (SNP) in diabetic aortae were similar to those in age-matched vessels. 5. Basal levels of cyclic GMP and ACh-induced production of cyclic GMP were significantly decreased in diabetic rats. 6. These results suggest that functional changes in endothelium but not in guanylate cyclase activity in the aorta may occur in diabetes, and thus, spontaneous and ACh-induced formation of cyclic GMP may be decreased. This decrease in production of cyclic GMP may be responsible for the decreased response of the aorta to the relaxant effect of ACh.
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PMID:Impairment of endothelium-dependent relaxation and changes in levels of cyclic GMP in aorta from streptozotocin-induced diabetic rats. 254 80

1. The aim of this study was to examine the possible role of the release of guanosine 3':5'-cyclic monophosphate (cyclic GMP) into the extracellular space in the regulation of rat aortic cyclic GMP content. 2. Rat aortic segments incubated in physiological solution released cyclic GMP into the medium in a time-dependent manner. This release was greatly enhanced when intact instead of tissues without endothelium were used. After 120 min of observation, a maximal 33 fold difference in extracellular cyclic GMP content was detected. 3. Treatment of rat aortic preparations with either a Ca2+-free solution or methylene blue, both conditions known to inhibit endothelium-derived relaxing factor (EDRF)-mediated responses, markedly reduced the extracellular accumulation of cyclic GMP from tissues with but not without endothelium. 4. Endothelium-dependent vasodilators such as acetylcholine (10 microM) and carbachol (10 microM) greatly increased tissue cyclic GMP content, in a time-dependent manner in rat aortic preparations with endothelium, but only slightly in tissues without. Maximal increases in intact tissues were obtained after about 1 min of agonist contact and amounted to about 35 and 15 fold respectively, thereafter tissue cyclic GMP content rapidly declined. Histamine (10 microM) elicited only minor effects on tissue cyclic GMP content of both intact preparations and those without endothelium. 5. Acetylcholine (10 microM), carbachol (10 microM) and histamine (10 microM) stimulated a time-dependent release of the cyclic nucleotide into the incubation medium from tissues with endothelium. After 120 min of observation, extracellular accumulation of cyclic GMP from intact tissues was increased by about 2.6, 6.6 and 1.7 fold respectively. Carbachol and histamine induced only minor effects on release from tissues without endothelium. 6. Sodium nitroprusside (0.3 and 10 microM), a direct activator of soluble guanylate cyclase, induced a concentration-dependent accumulation of cyclic GMP in tissues with and without endothelium that was associated with a concentration-dependent accumulation of cyclic GMP in the extracellular space. Peak tissue cyclic GMP content reached similar levels in preparations with and without endothelium, while extracellular cyclic GMP levels were about two times greater when experiments were performed with intact compared to endothelium-denuded tissues. 7. Atriopeptin II, an activator of particulate guanylate cyclase, increased tissue cyclic GMP content by about 8 and 18 fold respectively in tissues with and without endothelium. As was the case with sodium nitroprusside, atriopeptin II-stimulated release was markedly enhanced from intact tissues compared with those without endothelium. After 120 min of observation, there was a 16 fold difference in the amount of extracellular cyclic GMP.
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PMID:Effect of endothelium on basal and on stimulated accumulation and efflux of cyclic GMP in rat isolated aorta. 254 88

Elevation of cyclic GMP by muscarinic agonists has been suggested to be responsible for the negative inotropic effects of these agents in cardiac muscle, and for the endothelium-dependent relaxation caused by these agents in vascular smooth muscle. These relationships were studied by monitoring the effects of muscarinic agonists on tension and cyclic GMP levels in rabbit left atrial strips and aortic rings, in the presence and absence of the cyclic GMP lowering agent, LY83583. LY83583 completely blocked both the cyclic GMP increase and the relaxation caused by acetylcholine in rabbit aortic rings with intact endothelial cells. Acetylcholine-induced cyclic GMP elevation and relaxation in these preparations were also blocked by quinacrine and nordihydroguaiaretic acid (NDGA), but neither response was blocked by the 5-lipoxygenase inhibitor U-60257. In the experiments with rabbit left atrium, LY83583 blocked the acetylcholine-induced cyclic GMP elevation but did not block the negative inotropic effects of the drug. Quinacrine, NDGA, and a guanylate cyclase inhibitor, methylene blue, failed to block either the cyclic GMP increase or the decrease in contractile force caused by carbachol in atrial strips. These results support the suggestion that an increase in cyclic GMP may be responsible for the endothelium-dependent relaxation of rabbit aorta by muscarinic agonists, but not for the direct negative inotropic effects of these drugs in rabbit atrium. Muscarinic agents appear to increase cyclic GMP levels in rabbit atrium and aorta by different mechanisms. Although both are blocked by LY83583, they differ not only in their requirements for endothelial cells, but also in their susceptibility to other blocking agents.
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PMID:Effects of LY83583, nordihydroguaiaretic acid, and quinacrine on cyclic GMP elevation and inhibition of tension by muscarinic agonists in rabbit aorta and left atrium. 282 46

In dog mesenteric vein strips, contractions induced by histamine relative to those induced by 5 mM Ba++ were potentiated by removal of endothelium. The induced contractions were potentiated by AA861, a lipoxygenase inhibitor, and methylene blue, a guanylate cyclase inhibitor, to an appreciably greater extent in the strips with endothelium than in those with damaged endothelium. Indomethacin did not potentiate the contraction induced by histamine. Cimetidine potentiated the contraction in control strips and those without endothelium to a similar extent whereas chlorpheniramine suppressed the contraction. Contractile responses to acetylcholine, norepinephrine, serotonin and prostaglandin (PG) F2 alpha were not potentiated by removal of endothelium. It may be concluded that histamine activates histaminergic receptors, possibly H1 but not H2, in endothelial cells and results in a release of vasodilator substance produced by lipoxygenase, which accumulates cellular cyclic GMP and relaxes mesenteric veins. The H1 and H2 receptors in smooth muscle cells appear to be responsible for contractions and relaxations, respectively. Acetylcholine, norepinephrine, serotonin and PGF2 alpha do not seem to release vasodilator substances from endothelium in an amount sufficient to cause significant relaxations of venous smooth muscle.
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PMID:Endothelium-dependent changes in the response to vasoconstrictor substances of isolated dog mesenteric veins. 287 60

1. Acetylcholine, ionophore A23187 and melittin induced endothelium-dependent relaxations of preconstricted strips of rabbit aorta. These relaxations are likely to be mediated by endothelium-derived relaxing factor (EDRF). 2. Relaxations in response to acetylcholine (1 microM) were inhibited by the following lipoxygenase inhibitors, with the approximate IC50 values indicated in parentheses: gossypol (1.5 microM), nordihydroguairetic acid (NDGA, 5 microM), AA 861 (20 microM), phenidone (30 microM), quercetin (40 microM), BW 755C (300 microM), and piriprost (500 microM); with cirsiliol 50% inhibition was not achieved. Acetylcholine-induced relaxations were also blocked by the cytochrome P-450-mono-oxygenase inhibitors proadifen (SKF 525A, 4 microM), metyrapone (300 microM), and cimetidine (300 microM); 7,8 benzoflavone had no effect up to 100 microM. 3. The more potent inhibitors were also tested against relaxations induced by A23187 (0.1 microM) and melittin (1 microM) and produced partial inhibition of these relaxations. 4. The mechanism of action of the more potent inhibitors was investigated in a bioassay system. EDRF was produced in columns filled with cultured human endothelial cells. The factor was bioassayed with endothelium denuded segments of rabbit femoral artery. When added to effluent of the column, NDGA, AA861, proadifen and metyrapone inhibited the EDRF-induced vasodilatation, whereas gossypol had no effect. Gossypol, however, blocked EDRF production when infused through the column. 5. The more potent inhibitors were also tested to determine their effect on purified soluble guanylate cyclase. While gossypol, NDGA and proadifen had no appreciable effects, basal and nitroprusside (50 microM)-stimulated guanylate cyclase activity was inhibited by AA861 and metyrapone. 6. These data suggest that many of the above compounds inhibit EDRF by mechanisms other than lipoxygenase- or cytochrome P-450-mono-oxygenase inhibition.
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PMID:Mechanisms of action of lipoxygenase and cytochrome P-450-mono-oxygenase inhibitors in blocking endothelium-dependent vasodilatation. 289 18

The purpose of this study was to determine whether cyclic guanosine monophosphate inhibits contraction through inhibition of phosphatidylinositol hydrolysis. Sodium nitroprusside and atriopeptin II, agents which activate soluble and particulate guanylate cyclase, respectively, inhibited norepinephrine-induced contraction and accumulation of inositol monophosphate, a measure of phosphatidylinositol hydrolysis. Acetylcholine, an agent which elevates smooth muscle cyclic guanosine monophosphate levels through release of an endothelial-derived relaxing factor, induced similar inhibitory effects on contraction and inositol monophosphate accumulation in the presence but not absence of the endothelium. The cyclic nucleotide analogue 8-bromo cyclic guanosine monophosphate also inhibited contraction and inositol monophosphate accumulation. These results suggest that cyclic guanosine monophosphate may inhibit contraction through inhibition of phosphatidylinositol hydrolysis. Furthermore, the inhibition of phosphatidylinositol hydrolysis was independent of the mechanism by which cyclic guanosine monophosphate elevation occurred.
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PMID:Cyclic guanosine monophosphate inhibition of contraction may be mediated through inhibition of phosphatidylinositol hydrolysis in rat aorta. 301 61

cGMP appears to be the intracellular messenger involved in smooth muscle relaxant effects of three major groups of vasodilators, the ANFs, the nitrovasodilators (such as nitroglycerin, sodium nitroprusside, sodium nitrite, isosorbide dinitrate), and the endothelium-dependent vasodilators (such as ACh, histamine, bradykinin, adenosine triphosphate, A23187). The endothelium-dependent vasodilators apparently act by stimulating the release of EDRF from endothelial cells, which in turn activates soluble guanylate cyclase in vascular smooth muscle cells. Because of similarities between EDRF and the nitrovasodilators, EDRF has been termed the "endogenous nitrovasodilators." Very recent evidence suggests that EDRF may be identical with nitric oxide, the intermediate substance generated by the nitrovasodilators, thus further illustrating the similarities between nitrovasodilator-induced and endothelium-dependent vasodilation. Following the elevation of cGMP levels in smooth muscle, cGMP-kinase becomes activated and phosphorylates cellular protein or proteins involved in the regulation of cytosolic free Ca2+ concentrations. This mechanism vasoconstrictor. In the absence of vasoconstrictors, cGMP, even at basal levels, seems to be important for maintaining cytosolic Ca2+ at low concentrations and for keeping the vascular smooth muscle in a relatively relaxed state. Future experiments will need to clarify further the role of cGMP and cGMP-kinase in physiologic and pathophysiologic regulation of blood vessels. Of prime interest is the identity of functional substrates for cGMP-kinase in vascular smooth muscle.
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PMID:Molecular mechanisms of endothelium-mediated vasodilation. 305 34

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