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 principal objective of this study was to test the hypothesis that nitroprusside relaxes vascular smooth muscle via the reactive intermediate, nitric oxide (NO), and that the biologic action of NO is associated with the activation of guanylate cyclase. Nitroprusside, N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) and NO elicit concentration-dependent relaxation of precontraced helical strips of bovine coronary artery. Nitroprusside, MNNG and NO also markedly activate soluble guanylate cyclase from bovine coronary arterial smooth muscle and, thereby, stimulate the formation of cyclic GMP. Three heme proteins, hemoglobin, methemoglobin and myoglobin, and the oxidant, methylene blue, abolish the coronary arterial relaxation elicited by NO. Similarly, these heme proteins, methylene blue and another oxidant, ferricyanide, markedly inhibit the activation of coronary arterial guanylate cyclase by NO, nitroprusside and MNNG. The following findings support the view that certain nitroso-containing compounds liberate NO in tissue:heme proteins, which cannot permeate cells, inhibit coronary arterial relaxation elicited by NO, but not by nitroprusside or MNNG; the vital stain, methylene blue, inhibits relaxation by NO, nitroprusside and MNNG; heme proteins and oxidants inhibit guanylate cyclase activation by NO, nitroprusside and MNNG in cell-free mixtures. The findings that inhibitors of NO-induced relaxation of coronary artery also inhibit coronary arterial guanylate cyclase activation suggest that cyclic GMP formation may be associated with coronary arterial smooth muscle relaxation.
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PMID:Relaxation of bovine coronary artery and activation of coronary arterial guanylate cyclase by nitric oxide, nitroprusside and a carcinogenic nitrosoamine. 3 89

The channel-forming antibiotic alamethicin activated rat lung particulate guanylate cyclase (GTP pyrophosphate-lyase (cyclizing) EC 4.6.1.2), and the activated enzyme was further stimulated by sodium nitroprusside when a thiol such as 2-mercaptoethanol was present. Similar effects were seen with the antibiotic gramicidin S and with melittin, a polypeptide purified from bee venom. All of these agents are amphiphilic polypeptides. Nitroprusside was not able to stimulate both particulate and soluble enzyme treated with the nonionic amphiphile, Lubrol PX, suggesting that the membrane-active polypeptides had a different mechanism of action. These polypeptides are known to alter the membrane matrix by binding to phospholipid, and we suggest that this alteration allowed greater access of substrate and of nitroprusside to the enzyme. Lubrol PX, however, may interact preferentially with the enzyme, and thus block nitroprusside activation. The most potent of these agents was melittin, which stimulated nitroprusside activation at a concentration which had little effect by itself (7 microns), and at which others have demonstrated lytic effects on cells.
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PMID:Effect of alamethicin, gramicidin S and melittin upon the particulate guanylate cyclase from rat lung. 9 May 24

C-6 glial tumor cells treated with norepinephrine and sodium azide accumulated cyclic GMP to concentrations approximately 10-fold greater than the sum of the separate responses. Isoproterenol, but not phenylephrine, was an effective substitute for norepinephrine, and the response was blocked by propranolol and sotalol. Nitroprusside, but neither cyanide nor isobutyl-methylxanthine, replaced azide. The potentiation was not affected by removal of CA2+ OR Na+ from the extracellular medium and was not blocked by cocaine. The potentiative accumulation of cyclic GMP in C-6 cells differs from the recently described stimulation by catecholamines of soluble guanylate cyclase of renal cortex. The potentiative phenomenon is compared with the few known instances in which cyclic AMP augments cyclic GMP formation and may be associated with synergistic modifications of cellular functions.
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PMID:Potentiation of guanosine 3':5'-monophosphate accumulation in C-6 glial tumor cells. 22 Feb 87

Blood vessels show a heterogeneous response to the atrial natriuretic peptide (ANP). In our experiments thoracic aorta from the guinea pig relaxed in response to atriopeptin III (AP; rat ANP-103-126) and to sodium nitroprusside (SNP). In contrast, in perfused guinea pig hearts, AP III produced no change in coronary flow, while SNP increased flow. In smooth muscle cells cultured from the coronary system (CASM) and from the thoracic aorta (TASM), we compared receptor binding and the effects on guanosine 3',5'-cyclic monophosphate (cGMP) production of AP III. AP III bound specifically with equal affinity and with equivalent numbers of binding sites in both cell types. AP III produced a dose-dependent increase in cGMP in TASM (50% effective concentration approximately 3 nM) with a maximum 11-fold increase over basal at 1 microM AP III. In contrast, in CASM, AP III failed to increase cGMP. Nitroprusside increased cGMP in both cell types. Autoradiograms of 125I-labeled AP III linked to cell membranes showed bands at 70 kDa (ANP-C receptor) in both cell types. A second band at 140 kDa (ANP-B receptor) was only seen in TASM. These results suggest that smooth muscle cells of coronary resistance vessels of the guinea pig do not express the particulate guanylyl cyclase that is activated by ANP.
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PMID:Difference in effect of atrial natriuretic peptide on cGMP in aortic and coronary smooth muscle cells. 132 36

Endothelial relaxing factor has been identified as nitric oxide, formed from L-arginine by the soluble enzyme nitric oxide synthase. Nitric oxide inhibits platelet aggregation and adhesion by stimulating a soluble guanylate cyclase and increasing the intracellular concentration of cyclic GMP. Nitrovasodilators, such as sodium nitroprusside, release the active moiety, nitric oxide. In the present study, we have investigated the effect of sodium nitroprusside and of a permeable cGMP derivative on the aggregation and ATP secretion of human platelets stimulated with the protein kinase C activators 1-oleoyl-2-acetylglycerol or 4 beta-phorbol-12- myristate-13-acetate. Human platelets were treated with lysine acetylsalicylate, washed and resuspended in Tyrode-buffered solution. ATP secretion was evaluated by luciferin-luciferase luminescence. Nitroprusside (4-40 microM) or 8-Br-cGMP (0.1-2.4 mM) inhibited both platelet aggregation and ATP secretion evoked by 1-oleoyl-2-acetylglycerol (40 microM) or 4 beta-phorbol-12-myristate-13- acetate (4 nM) in a dose-dependent manner, in the presence of the selective inhibitor of cGMP phosphodiesterase, M&B 22948 (5 microM). The inhibitory effect of nitroprusside was reversed by hemoglobin, known to bind and inactivate nitric oxide. To study the calcium-dependent pathway, we treated platelets with the ionophore ionomycin. The ensuing aggregation and ATP secretion were rapid and were dependent on agonist concentration. Nitroprusside (4-40 microM) inhibited the aggregation evoked by ionomycin (0.4 microM) as well as ATP release, in a dose-dependent manner. We conclude that cGMP is able to inhibit both the protein kinase C-dependent and the calcium-dependent pathways leading to platelet activation.
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PMID:Nitrovasodilators and cGMP inhibit human platelet activation. 166 Mar 21

In the central nervous system, glutamate receptor activation and other stimuli can lead to the cellular production of nitric oxide (NO), an activator of the cyclic GMP-synthesising enzyme, soluble guanylate cyclase. Four 'nitrovasodilators' which yield NO were tested for their ability to elevate cGMP levels in rat cerebellar slices. Nitroprusside (NP), SIN-1, S-nitroso-N-penicillamine (SNAP) and hydroxylamine all caused very large (up to 300-fold) increments. Their threshold concentrations were between 1 and 30 microM. SNAP was the most potent (EC50 approximately 50 microM) followed by hydroxylamine (200 microM) and SIN-1 (1 mM), the latter compound having the highest efficacy. No maximal response to NP was evident at concentrations up to 10 mM. Slices could be challenged a second time with NP (300 microM) with no evidence of a change in sensitivity. The NO-donors are likely to be valuable for studying the functions of NO in brain tissue; however, the concentrations of NP, SNAP and SIN-1 required to elevate cGMP in the slices are orders of magnitude higher than those needed to stimulate guanylate cyclase activity in broken cell preparations, suggesting that rapid inactivation of NO takes place in the intact tissue.
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PMID:Comparative effects of some nitric oxide donors on cyclic GMP levels in rat cerebellar slices. 166 Sep 68

The present studies were performed in order to measure the effects of cyclic GMP (cGMP) on the regulation of free cytosolic calcium [( Ca2+]i) in the pancreatic acinar cell. In guinea pig dispersed pancreatic acini the findings demonstrated that the Ca2+ ionophore, Br A23187, caused a sustained increase in [Ca2+]i in the presence of 3 mM CaCl2 in the media and a transient 20 fold rise in cellular cGMP followed by a sustained 3-4 fold rise in cellular cGMP. Increasing cellular cGMP with nitroprusside, hydroxylamine or dibutyryl cGMP had no effect on resting [Ca2+]i. However, these agents attenuated the increase in [Ca2+]i resulting from Br A23187-induced Ca2+ influx. Nitroprusside also attenuated the carbachol-induced sustained rise in [Ca2+]i that resulted from Ca2+ influx. The nitroprusside effect on carbachol-stimulated acini occurred without decreasing Ca2+ influx across the plasma membrane or alteration in the mobilization of Ca2+ from the intracellular agonist-sensitive pool. Inhibition of the increase in cellular cGMP caused by Br A23187 by the guanylate cyclase inhibitor, 6-anilino-5,8-quinolinedione (LY83583), resulted in augmentation of the increase in [Ca2+]i. This augmentation was reversed with dibutyryl cGMP. These results indicated that cGMP regulated [Ca2+]i in the pancreatic acinar cell. The mechanism involves the removal of Ca2+ from the cytoplasm.
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PMID:Cyclic GMP regulates free cytosolic calcium in the pancreatic acinar cell. 198 Feb 34

The present studies were performed to determine the role of cyclic GMP in regulating agonist mediated calcium entry in the pancreatic acinar cell. In guinea pig-dispersed pancreatic acini the findings demonstrated that carbachol stimulated a transient 20-40-fold rise in cellular cyclic GMP followed by a sustained 3-4-fold rise in cellular cyclic GMP. The guanylate cyclase inhibitor, 6-anilino-5,8-quinolinedione (LY83583), caused a dose-dependent inhibition of carbachol-stimulated increases in cellular cyclic GMP both during the initial transient large increase in cyclic GMP and the sustained increase in cyclic GMP. LY83583 also inhibited cellular Ca2+ influx during carbachol stimulation and reloading of the agonist-sensitive pool of Ca2+ at the termination of carbachol stimulation with atropine. The effect of the inhibition on reloading of the agonist-sensitive pool was secondary to its effects on the plasma membrane C2+ entry. The addition of dibutyryl cyclic GMP to LY83583-treated acini restored Ca2+ influx across the plasma membrane. Nitroprusside increased both cellular cyclic GMP and the rate of Ca2+ influx. During periods when plasma membrane Ca2+ entry was activated, cellular cyclic GMP levels were increased. These results suggest that agonist-induced increases in cellular cyclic GMP are necessary and sufficient to mediate the effects of the agonist on the plasma membrane Ca2+ entry mechanism.
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PMID:Cyclic GMP mediates the agonist-stimulated increase in plasma membrane calcium entry in the pancreatic acinar cell. 216 87

As cyclic 3',5'-guanosine monophosphate (cGMP) is still discussed as a possible mediator of the negative inotropic effects of cholinergic agents, the influence of acetylcholine (ACh) on force of contraction and cGMP tissue levels was studied in isolated, electrically driven guinea pig auricles in the presence of methylene blue, an inhibitor of guanylate cyclase activation, as well as of M & B 22,948, an inhibitor of cGMP breakdown. Nitroprusside-Na (NP), a potent stimulator of guanylate cyclase, was tested for comparison under the same conditions. ACh at concentrations of 10(-7)-5 X 10(-6) M dose-dependently diminished force of contraction down to cardiac arrest, whereas NP only had a slight negative inotropic effect that was maximum at 10(-5) M and reduced force of contraction to 89% of control. Although ACh was much more effective in reducing force of contraction than NP, only NP significantly increased myocardial cGMP levels. The rise in cGMP produced by NP was attenuated by methylene blue (5 X 10(-5) M) and augmented by M & B 22,948 (3.7 X 10(-4) M), whereas the contractile effects (similar as those of ACh) remained unchanged. These results suggest that the negative inotropic action of ACh is not mediated by cGMP.
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PMID:Lack of second messenger function of cyclic GMP in acetylcholine-induced negative inotropism. 243 40

Nitroprusside (NP) and nitroglycerin (NG) are potent vasodilators that are used clinically on the basis of their abilities to cause relaxation of smooth muscle. In vitro, both agents cause activation of guanylate cyclase, resulting in increased intracellular cGMP. They also have effects on arachidonate metabolism. Despite apparent similarities in their mechanisms of action, the two drugs have different therapeutic applications based in part on differences in their effectiveness on the arterial and venous systems in vivo. To understand better their target tissue preference, slices of aorta and vena cava were incubated with the agents; cGMP and the vasodilatory prostanoid, prostacyclin, were quantified. NP was more effective in increasing the cGMP content of aorta than of vena cava; it was more active than NG in both tissues. Prostaglandin formation by vascular tissue was influenced by the preliminary equilibration period. Under optimal conditions, it appeared that NG enhanced prostacyclin formation in aorta more than did NP. This in vitro model for NP and NG action may be useful in studying the mechanisms of action of these and other vasoactive agents.
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PMID:Effects of nitroprusside and nitroglycerin on cGMP content and PGI2 formation in aorta and vena cava. 253 35

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