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

Cyclic adenosine 3':5'-monophosphate (cyclic AMP) levels were determined in 103 samples of human semen and grouped according to the number of spermatozoa in the ejaculate. No correlation was found between cyclic AMP concentrations and the number, motility, and morphology of the spermatozoa or the fructose content, pH, and volume of the ejaculate. Similar findings were obtained with cyclic guanosine 3':5'-monophosphate levels in 24 samples of human semen. Therefore, cyclic nucleotide levels in human semen appear to be derived from sources other than spermatozoal adenylyl or guanylyl cyclase.
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PMID:Lack of relationship between cyclic nucleotide levels and spermatozoal function in human semen. 0 22

The effect of guanosine on insulin secretion, adenylyl and guanylyl cyclase activities of isolated rat islets of Langerhans was investigated. Guanosine (1-100 micron) inhibited glucose, tolbutamide, theophylline and prostaglandin E2-stimulated insulin secretion although it failed to affect glucagon stimulated secretion. Prostaglandin E2-stimulated adenylyl cyclase activity of islets was inhibited by guanosine although guanosine had no effect on basal, fluoride, glucagon or GTP-stimulated activity. Guanosine markedly decreased basal guanylyl cyclase activity of islets. These results suggest that guanosine may affect insulin release by inhibiting adenylyl and guanylyl cyclase activities in the beta-cell thereby decreasing the intracellular concentrations of cyclic nucleotides. This effect may be important in modulating the secretory response of the islets to a variety of hormonal agents.
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PMID:Effects of guanosine on insulin secretion and adenylyl and guanylyl cyclase activities of isolated rat islets of Langerhans. 1 8

The mechanism of cholinergic stimulation of alanine and glutamine formation and release from skeletal muscle was studied using rat epitrochlaris preparations. The increased alanine and glutamine release produced by carbamylcholine (10(-6) M) was reproduced by tetramethylammonium (10(-6) M) but not by pilocarpine (10(-6) M) and was blocked by hexamethonium (10(-4) M) but not by atropine (10(-7) M). This increased alanine and glutamine release was not associated with altered muscle cAMP levels. However, carbamylcholine (10(-6) M) and tetramethylammonium (10(-6) M) did not increase levels of cGMP, 134% and 101%, respectively, and these increments in cGMP were blocked by hexamethonium but not by atropine. Carbamylcholine produced a concentration-dependent increase in cGMP levels. Methylisobutylxanthine and theophylline augmented the increased amino acid release and increased cGMP levels produced by carbamylcholine. Neither xanthine derivative alone altered alanine and glutamine release or cyclic nucleotide levels. Added cGMP increased amino acid release and the uptake of [U-14C]alanine and alpha-amino[14C]isobutyric acid. Carbamylcholine did not alter muscle phosphorylase a activity, glycogen levels, or basal adenylate cyclase activity. These data indicate that cholinergic stimulation of muscle alanine and glutamine formation and release involves a nicotinic cholinergic receptor and may be mediated by increased levels of cGMP, which in turn may result from a cholinergic stimulation of muscle guanylyl cyclase.
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PMID:Cholinergic stimulation of skeletal muscle alanine and glutamine formation and release. Evidence for mediation by a nicotinic cholinergic receptor and guanosine 3':5'-monophosphate. 8 Dec 8

Changes in cyclic nucleotide metabolism similar to those characteristic of the chronic forms of hypertension were observed in an acute neurogenic form of hypertension in rats produced by electrolytic lesions of the nucleus tractus solitarii. These changes that were evident 2 hr after the lesions were made included decreased cyclic AMP levels in the heart, increased cGMP:cAMP ratio, cAMP phosphodiesterase (3':5'-cAMP 5'-nucleotidohydrolase, EC 3.1.4.17) and guanylyl cyclase (GTP pyrophosphate-lyase (cyclizing), EC 4.6.1.2) activities in the aorta and decreased snesitivity of adenylyl cyclase (ATP pyrophosphate-lyase (cyclizing), EC 4.6.1.1) in both the aorta and heart to stimulation by the beta-adrenergic stimulant isoproterenol. These changes appear to depend on catecholamine release and are not due to mechanical distortion secondary to the increased arterial pressure. These studies provide biochemical support to the concept that the sympathetic nervous system may play a critical role in the initiation of the hypertensive syndrome and that chronic hypertension could result from the fixation of the biochemical effects of increased sympathetic activity.
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PMID:Changes in cyclic nucleotide metabolism in aorta and heart of neurogenically hypertensive rats: possible trigger mechanism of hypertension. 23 70

Nitric oxide (NO) acts as a messenger molecule in the CNS by activating soluble guanylyl cyclase. Rat brain synaptosomal NO synthase was stimulated by Ca2+ in a concentration-dependent manner with half-maximal effects observed at 0.3 microM and 0.2 microM when its activity was assayed as formation of NO and L-citrulline, respectively. Cyclic GMP formation was apparently inhibited, however, at Ca2+ concentrations required for the activation of NO synthase, indicating a down-regulation of the signal in NO-producing cells. Purified synaptosomal guanylyl cyclase was not inhibited directly by Ca2+, and the effect was not mediated by a protein binding to guanylyl cyclase at low or high Ca2+ concentrations. In cytosolic fractions, the breakdown of cyclic GMP, but not that of cyclic AMP, was highly stimulated by Ca2+, and 3-isobutyl-1-methylxanthine did not block this reaction effectively. The effects of Ca2+ on cyclic GMP hydrolysis and on apparent guanylyl cyclase activities were abolished almost completely in the presence of the calmodulin antagonist calmidazolium, whose effect was attenuated by added calmodulin. Thus, a Ca2+/calmodulin-dependent cyclic GMP phosphodiesterase is highly active in synaptic areas of the brain and may prevent elevations of intracellular cyclic GMP levels in activated, NO-producing neurons.
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PMID:Regulation of neuronal nitric oxide and cyclic GMP formation by Ca2+. 127 21

Nicorandil relaxes coronary vascular smooth muscle by stimulating guanylyl cyclase and increasing cyclic GMP (cGMP) levels (as shown first in our laboratory) as well as by a second mechanism resulting in activation of K+ channels and hyperpolarization. Therefore, we studied the relative contributions of either mechanism to the overall response in bovine circular strips of coronary arteries by simultaneously measuring changes in length and in cGMP levels through radioimmunoassay. Blockade by 10 microM methylene blue of the cGMP increases in strips precontracted by 1 microM of the thromboxane A2 analogue U46619 reduced nicorandil-induced relaxation to 30-50%, and there were no significant changes in cGMP levels. Suppression of the hyperpolarizing component of nicorandil by 80.4 mM K+ or 1 microM glibenclamide in precontracted strips reduced nicorandil relaxation to 50% (K+) or shifted the dose response to the right by a factor of two (glibenclamide) without alteration of increases in cGMP. A quantitative separation of both mechanisms of action was obtained by comparing the correlation between increases in cGMP and relaxation under conditions of inhibited versus noninhibited hyperpolarization. The results indicate that cGMP contributes to the total relaxing effect of nicorandil by 30-40% at low concentrations and 80-90% at high concentrations of nicorandil. From the experiments with glibenclamide, it can be concluded that the probable mechanism by which nicorandil hyperpolarizes is opening glibenclamide-sensitive K+ channels in coronary vascular smooth muscle and that this latter effect mimics those of other K+ channel openers such as cromakalim or pinacidil.
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PMID:Molecular mechanism of action of nicorandil. 128 68

In this study we used HS-142-1, a novel non-peptide antagonist for the atrial natriuretic peptide (ANP) receptor, to clarify the possible physiological significance of ANP in acute hypervolemia. Substantial volume expansion in anesthetized rats induced a strong diuresis and natriuresis. These renal responses were significantly blocked by HS-142-1 at a dose of 3.0 mgkg-1 i.v. This observation suggests that ANP and its guanylyl cyclase-coupled receptor are, under the present conditions, physiologically involved that appears to be responsible for the renal responses in the volume homeostasis.
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PMID:Effects of HS-142-1, a novel non-peptide ANP antagonist, on diuresis and natriuresis induced by acute volume expansion in anesthetized rats. 131 Mar 97

We report here the molecular characterization of a recombinant cell line (293-STaR) expressing the heat-stable enterotoxin receptor (STaR) from human intestine. We have compared the 293-STaR cell line with the human colonic cell line T84 that endogenously expresses STa binding sites. Scatchard analysis of displacement binding studies revealed a single STa binding site with an affinity (Ki) of 97 pM in 293-STaR compared with 55 pM in T84 cells. Saturation isotherms of STa binding gave a Kd of 94 pM for the cloned receptor expressed in 293 cells and 166 pM for the receptor present in T84 cells. Kinetic measurements of STa binding to 293-STaR gave an association rate constant, K1, of 2.4 x 10(8) M-1 min-1 and a dissociation rate constant, K2, of 0.016 min-1. The half-time of dissociation was 43 min, and the Kd calculated from the ratio of the kinetic constants was 67 pM. The pH profile of STa binding showed that the number of STa binding sites is increased 3-fold at pH 4.0 compared with pH 7.0, with no effect on binding affinity. A polyclonal antibody directed against the extracellular domain of STaR immunoprecipitated two proteins of approximately 140 and 160 kDa from both 293-STaR and T84 cells. Cross-linking of 125I-STa to 293-STaR cells resulted in the labeling of proteins with a molecular mass of approximately 153, 133, 81, 68, 56, and 49 kDa, the two smallest being the more abundant. Similar results have been reported for the STaR present on rat brush border membranes. These data suggest that the STaR-guanylyl cyclase identified by molecular cloning is the only receptor for STa present in T84 cells.
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PMID:Characterization of the recombinant human receptor for Escherichia coli heat-stable enterotoxin. 131 5

Human cytomegalovirus (HCMV) is a major pathogen in immunosuppressed individuals, including patients with acquired immune deficiency syndrome. The nucleoside analogue ganciclovir (9-(1,3-dihydroxy-2-propoxymethyl)-guanine) is one of the few drugs available to treat HCMV infections, but resistant virus is a growing problem in the clinic and there is a critical need for new drugs. The study of ganciclovir-resistant mutants has indicated that the selective action of ganciclovir depends largely on virus-controlled phosphorylation in HCMV-infected cells. The enzyme(s) responsible have not been identified. Here we report that the HCMV gene UL97, whose predicted product shares regions of homology with protein kinases, guanylyl cyclase and bacterial phosphotransferases, controls phosphorylation of ganciclovir in HCMV-infected cells. A four-amino-acid deletion of UL97 in a conserved region, which in cyclic AMP-dependent protein kinase participates in substrate recognition, causes impaired ganciclovir phosphorylation. The implications of these results for antiviral drug development and drug resistance are discussed.
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PMID:A protein kinase homologue controls phosphorylation of ganciclovir in human cytomegalovirus-infected cells. 132 83

The relaxant effect of the vasodilator drug, nicorandil, was studied in circular strips of bovine coronary arteries. To differentiate between relaxation caused by cyclic GMP (cGMP) and by hyperpolarization, the influence of cGMP was blocked with methylene blue and that of hyperpolarization with the inhibitor of ATP-dependent K+ channels, glibenclamide. Methylene blue and glibenclamide inhibited nicorandil-induced relaxation to similar extents. Cromakalim-induced relaxation but not that due to sodium nitroprusside (nitroprusside-Na) was inhibited by glibenclamide. Methylene blue inhibited the relaxation caused by nitroprusside-Na but not that due to cromakalim. The different modes of action of the two components of relaxation caused by nicorandil were studied in agonist-agonist interaction experiments. The interaction between nicorandil and nitroprusside-Na or 3-morpholino-sydnonimine (SIN-1) was overadditive in the absence of glibenclamide but additive, i.e. competitive, in the presence of glibenclamide. The interaction of nicorandil with cromakalim or pinacidil was overadditive in the absence of methylene blue but additive, i.e. competitive, in the presence of methylene blue. The results show that nicorandil relaxes smooth muscle through two independent mechanisms: ATP-dependent activation of K+ channels and stimulation of guanylyl cyclase resulting in increases in cGMP.
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PMID:Pharmacological interaction experiments differentiate between glibenclamide-sensitive K+ channels and cyclic GMP as components of vasodilation by nicorandil. 132 62


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