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 influence of Zaprinast (M&B 22948), a guanosine 3',5'-cyclic monophosphate (cGMP)-specific phosphodiesterase inhibitor, was investigated in the pulmonary vascular bed of the cat under conditions of controlled blood flow and constant left atrial pressure. Under baseline conditions, injections of Zaprinast into the perfused lobar artery produced small decreases in lobar arterial pressure without altering systemic arterial or left atrial pressure. When tone was increased with U-46619, Zaprinast caused larger dose-dependent decreases in lobar arterial pressure without altering left atrial pressure. The decreases in lobar arterial pressure were reduced significantly by treatment with the nitric oxide (NO) synthesis inhibitor NG-nitro-L-arginine methyl ester (L-NAME) or the guanylate cyclase inhibitor methylene blue. Under elevated tone conditions, efferent vagal stimulation and intralobar injections of acetylcholine, substance P, NO solution, and the S-nitrosothiols [S-nitroso-N-acetylpenicillamine (SNAP) and S-nitroso-L-cysteine (CysNO)] decreased lobar arterial pressure in a frequency-dependent and dose-related manner. After treatment with Zaprinast, the decreases in lobar arterial pressure in response to efferent vagal stimulation, the endothelium-dependent vasodilators, and the nitrovasodilators were not changed, whereas the duration of the vasodilator responses as measured by the half times was increased significantly. Vasodilator responses to adenosine, albuterol, and pinacidil were not altered by Zaprinast. These data suggest that cGMP hydrolysis in the lung is rapid and that endothelium-derived NO is important in stimulating basal cGMP production and in regulating vascular tone.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Influence of Zaprinast on vascular tone and vasodilator responses in the cat pulmonary vascular bed. 839 Apr 41

The vasorelaxant properties of ITF 296, a new mononitrate ester, were studied in endothelium-denuded rabbit aortic rings and were compared to nitroglycerin (NTG) and isosorbide dinitrate (ISDN). In norepinephrine-contracted arteries, ITF 296, NTG, and ISDN elicited maximal and concentration-dependent vasodilation with pD2 values of 7.07, 7.95, and 7.2, respectively. The concentration-relaxation curves of ITF 296 were shifted markedly to the right (p < 0.01) in the presence of 10 microM methylene blue (MB) and 3 microM oxyhemoglobin (HbO2), whereas a significant shift to the left (p < 0.01) was observed in the presence of 10 microM M&B-22948 (a specific cGMP phosphodiesterase inhibitor). When KCl (60 mM) was used as contracting agent, a weak relaxation was observed with ITF 296, suggesting the absence of activity on the voltage-dependent Ca2+ channels. A time-dependent increase in cGMP content and a positive correlation between cGMP and vasodilation were observed in norepinephrine-contracted arteries after exposure to a single submaximal concentration of ITF 296 (1 microM). Similar results were obtained with NTG and ISDN, although NTG was found to be more active than ITF 296 or ISDN. The presence of either MB or HbO2 almost completely abolished the increase in cGMP induced by ITF 296, whereas a further increase in cGMP was observed in the presence of isobutylmethylxanthine. No changes in cAMP levels were observed after exposure of the tissues to a concentration of ITF 296 that induced significant elevation in the cGMP content. In the presence of L-cysteine, ITF 296 stimulated semipurified rat lung guanylate cyclase at higher concentrations than those of NTG or ISDN, probably because of its lower rate of nitric oxide (NO) release. These results suggest that, in common with the reference compounds NTG and ISDN, ITF 296-induced vasorelaxation in rabbit aortic rings is mediated by an NO-cGMP mechanism.
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PMID:Mechanism of ITF 296-induced vasorelaxation compared to nitroglycerin and isosorbide dinitrate: relationship between relaxation of rabbit aorta and tissue cGMP. 883 28

Nitrogen oxides (NO) such as nitric oxide have been suggested to potentiate neurotransmitter release in a variety of neuronal cells. In this study, we showed that NO donors stimulate the release of noradrenaline (NA) from rat hippocampus both in vivo and in vitro. Co-addition of NO donors (sodium nitroprusside [SNP] or S-nitroso-N-acetylpenicillamine [SNAP]) and thiol compounds (dithiothreitol [DTT] or L-cysteine) stimulated [3H]NA release from prelabeled hippocampal slices. Microdialysis in freely moving rats was used to ascertain the role of NO in control of NA release from the hippocampus in vivo. Co-addition of SNAP and L-cysteine stimulated endogenous NA release within 30 min. The concentration of NA peaked between 30-60 min to almost 3 times basal level. Another thiol compound, glutathione, had no effect on [3H]NA release in the presence of SNP or SNAP. In the presence of SNAP, the effect of L-cysteine was much higher than that of the D-isomer, although SNAP did not show stereospecificity. The effect of SNAP/L-cysteine was rapid and the maximal increase in [3H]NA release was attained 0-1 min after application, which was similar in time course to the effect of KCI. Unlike the release by KCI, SNAP/L-cysteine-stimulated NA release was independent of extracellular CaCl2. However, pretreatment with the calmodulin antagonists W-7 or trifluoperazine significantly reduced the SNAP/L-cysteine-stimulated [3H]NA release. Formation of nitric oxide and activation of guanylate cyclase by nitric oxide were not responsible for SNAP/L-cysteine-stimulated NA release. These findings suggest that NO donors stimulate NA release from the hippocampus in the presence of thiol compounds such as L-cysteine in vivo and in vitro in a calmodulin-dependent, Ca(2+)-and cyclic GMP-independent manner. The physiological roles of thiol compounds such as L-cysteine or glutathione as intermediates of NO are discussed.
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PMID:NO donors stimulate noradrenaline release from rat hippocampus in a calmodulin-dependent manner in the presence of L-cysteine. 884 25

In cultured rat hepatocytes, we have previously demonstrated that inhibition of interleukin-1 (IL-1)-mediated nitric oxide (NO) synthesis is associated with depletion of intracellular reduced glutathione (GSH) in toxin-mediated oxidative injury. To further examine NO's effects on GSH metabolism in rat hepatocytes, IL-1-mediated NO synthesis was examined in the context of 1) cysteine, cystine, and methionine uptake; 2) gene transcription and enzyme activities for gamma-glutamylcysteine synthetase, the rate-limiting enzyme in GSH synthesis, glutathione reductase, and glutathione peroxidase; and 3) GSH and oxidized glutathione (GSSG) levels. Inhibition of NO synthesis decreased the GSH content and GSH/GSSG ratio in a guanylyl cyclase-independent fashion. Enzyme activity and steady-state levels of mRNA for gamma-glutamylcysteine synthetase were also depressed. Nuclear run-on analysis demonstrated ablation of gamma-glutamylcysteine synthetase gene transcription. Hepatocellular uptake of cysteine, cystine, and methionine was not altered. Activity and steady-state mRNA levels for glutathione reductase and glutathione peroxidase were not affected. These results indicate that IL-1-mediated NO synthesis regulates hepatocyte GSH synthesis through a mechanism that is dependent on transcriptional regulation of the rate-limiting enzyme in GSH synthesis. In the setting of oxidative stress and IL-1 exposure, hepatocyte synthesis of NO may be protective through regulation of GSH synthesis.
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PMID:Interleukin-1-induced nitric oxide production modulates glutathione synthesis in cultured rat hepatocytes. 884 15

1. The role of nitric oxide (NO) in the regulation of uterine contractility has yet to be clearly defined. We evaluated the effect of NO (in the form of S-nitroso-cysteine, CysNO) upon uterine contractility and guanosine 3',5'-cyclic monophosphate (cyclic GMP) accumulation in pregnant and nonpregnant guinea-pig myometrium. 2. While CysNO had no effect upon spontaneous contractile activity in either pregnant or nonpregnant uterine tissues, addition of CysNO resulted in an immediate and reversible relaxation of oxytocin- or acetylcholine (ACh)-evoked contractions. 3. Relaxation of agonist-evoked contractions in response to CysNO was associated with significant elevations in intracellular cyclic GMP concentrations ([cyclic GMP]i). 4. Elevations in [cyclic GMP]i were not required for relaxation, as inhibition of guanylyl cyclase by methylene blue prevented [cyclic GMP]i accumulation while having no effect upon the ability of CysNO to relax agonist-evoked contractions. 5. Addition of the cyclic GMP-analogues, 8-Br-cyclic GMP and PET-cyclic GMP, only at high concentrations, produced partial relaxation of agonist-contracted tissues, suggesting the possibility that cyclic GMP may be sufficient but not necessary for myometrial relaxation. 6. Our studies not only provide evidence for a functional role for NO-modulation of agonist-evoked contractions in the pregnant and nonpregnant guinea-pig uterus, but also that these occur by a mechanism which is not dependent upon guanylyl cyclase activity.
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PMID:Cyclic GMP-independent effects of nitric oxide on guinea-pig uterine contractility. 890 49

1. The aim of this study was to assess whether or not vasoactive nitric oxide (NO) stores exist within vascular tissue after lipopolysaccharide (LPS)-treatment. 2. Rat thoracic aortic rings (for contraction experiments) or whole thoracic aortae (for electron paramagnetic resonance (e.p.r.) spectroscopy) were incubated for 18 h at 37 degrees C in the absence (control) or in the presence of LPS (10 micrograms ml-1), with or without L-arginine (L-Arg, 1 mM), the substrate of NO synthase (NOS) or N omega-nitro-L-arginine methyl ester (L-NAME, 1 mM), an inhibitor of NOS. 3. Incubation of rat aortic rings with LPS and L-Arg resulted in a significant decrease of the maximum contractile response to noradrenaline (NA, 3 microM). Addition of L-NAME (3 mM) enhanced contraction towards control values. After precontraction with NA and L-NAME, addition of N-acetyl-L-cysteine (NAC, 0.1 to 10 mM) evoked a concentration-dependent relaxation in rings incubated with LPS and L-Arg, but not in control rings, rings incubated with LPS in the absence of L-Arg or rings incubated with LPS in the presence of L-Arg and L-NAME. Removal of the endothelium did not significantly modify the relaxation induced by NAC. Methylene blue (3 microM), an inhibitor of the activation of guanylyl cyclase by NO, completely abolished the relaxing effect of NAC. 4. The presence of protein-bound dinitrosyl non-haem iron complexes (DNIC) was detected by e.p.r. spectroscopy in aortae incubated with LPS and L-Arg, but not in control aortae. Furthermore in LPS-treated aortae, addition of NAC (20 mM) gave rise to the appearance of an e.p.r. signal characteristic of low molecular weight DNIC. 5. These results provide evidence that, within vascular tissue, NO generated from L-Arg by LPS-induced NOS activity can be stored as protein-bound DNIC in non-endothelial cells. Upon addition of NAC, low molecular weight DNIC are released from these storage sites and induce vascular relaxation probably through guanylyl cyclase activation.
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PMID:Evidence for N-acetylcysteine-sensitive nitric oxide storage as dinitrosyl-iron complexes in lipopolysaccharide-treated rat aorta. 893 35

The endothelial-derived relaxing factor, nitric oxide (NO.) has been shown to depress force in smooth and cardiac muscles through the activation of guanylyl cyclase and an increase in cGMP. In fast skeletal muscle, NO (i.e. NO-related compounds) elicits a modest decrease in developed force, but in contracting muscles NO increases force by a mechanism independent of cGMP. We now demonstrate an alternative mechanism whereby NO triggers Ca2+ release from skeletal and cardiac sarcoplasmic reticulum (SR). NO delivered in the form of NO gas, NONOates (a class of sulfur-free compounds capable of releasing NO), or S-nitrosothiols (R-SNO) oxidized or transnitrosylated regulatory thiols on the release channel (or ryanodine receptor, RyR), resulting in channel opening and Ca2+ release from skeletal and cardiac SR. The process was reversed by sulfhydryl reducing agents which promoted channel closure and Ca2+ reuptake by ATP-driven Ca2+ pumps. NO did not directly alter Ca(2+)-ATPase activity but increased the open probability of RyRs reconstituted in planar bilayers and inhibited [3H]-ryanodine binding to RyRs. The formation of peroxynitrite or thiyl radicals did not account for the reversible R-SNO-dependent activation of RyRs. Ca2+ release induced by nitric oxide free radicals (NO.) was potentiated by cysteine providing compelling evidence that NO. in the presence of O2 formed nitrosylated cysteine followed by the transnitrosation of regulatory thiols on the RyR to activate the channel. These findings demonstrate direct interactions of NO derivatives with RyRs and a new fundamental mechanism to regulate force in striated muscle.
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PMID:Nitric oxide activates skeletal and cardiac ryanodine receptors. 905 74

Soluble guanylyl cyclase (sGC), a heme-containing heterodimeric enzyme, is stimulated by NO and catalyzes the formation of the intracellular signaling molecule cGMP. Cysteine residues of sGC have been considered to be important as they were thought to play a significant role in the regulation of the enzyme. The aim of this study was to investigate the possible function of conserved cysteine residues of sGC. Fifteen conserved cysteine residues on sGC were point-mutated to serine, using site-directed mutagenesis. All of the resulting recombinant enzymes were able to synthesize cGMP. Mutation of two cysteines located in the N-terminal, putative heme-binding region of the beta1 subunit yielded proteins that were insensitive to NO. Spectrophotometric analysis of the NO-insensitive mutants purified from Sf9 cells revealed a loss of the prosthetic heme group. Both mutants could be reconstituted with heme and, as a consequence, NO sensitivity of the mutants was restored. Our data show that mutation of two cysteines of the beta1 subunit (Cys-78 and Cys-214) reduces the affinity of sGC for heme. Mutation of the corresponding cysteines on the alpha1 subunit did not alter NO responsiveness, indicating that heme-binding is mainly a feature of the N-terminal domain of the beta1 subunit.
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PMID:Functions of conserved cysteines of soluble guanylyl cyclase. 906 67

A guanylyl cyclase (GC-D) was recently shown to be expressed in a subclass of neurons within the neuroepithelim of the rat, but given that only a single cyclase was discovered, whether it represents an odorant/pheromone receptor as has been suggested for the large family of seven-transmembrane receptors remains unclear. Through cloning and expression of cDNA we now demonstrate that at least 29 genomic or cDNA sequences found in Caenorhabditis elegans represent guanylyl cyclases. Many of the membrane forms retain cysteine residues conserved within the extracellular, ligand-binding domain of known cyclase receptors. Of eight orphan cyclase receptor::GFP (green fluroescence protein) fusion constructs for which signals were obtained, all were expressed in specific sensory neurons. Furthermore, a cyclase/GFP fusion protein (GCY-10/GFP) was principally expressed in the sensory cilium, suggesting these cyclases function as primary chemosensory receptors. For the first time, we also found that chemosensory neurons (ASE), known to be bilaterally symmetric, demonstrate absolute right or left sidedness with respect to the expression of three different cyclases. Thus, the guanylyl cyclases represent an unexpectedly large and new family of sensory neuron receptors that may complement the 7-transmembrane family of odorant/pheromone receptors.
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PMID:Guanylyl cyclase expression in specific sensory neurons: a new family of chemosensory receptors. 909 3

In this study we evaluated the role of nitric oxide (NO) on gallbladder motility in the normal prairie dog by 1) immunohistochemistry, 2) an enzymatic assay for NO synthase (NOS), and 3) an in vivo model to measure whole gallbladder tone and contractility. NOS was localized to gallbladder mucosal cells by NADPH-diaphorase and polyclonal antibodies to a constitutive brain NOS. Gallbladder mucosal homogenates demonstrated total NOS activity in the range of 578 +/- 115 pmol x mg protein(-1) x 30 min(-1). Blockade of NOS activity in vivo using N(omega)-nitro-L-arginine methyl ester resulted in an up to 80% increase in gallbladder tone from basal. A 40% increase in tone was seen with methylene blue, suggesting that tone was maintained by both NO activation of guanylate cyclase and possibly direct effects on Ca2+ channels. An exogenous nitrosothiol, S-nitroso-N-acetyl-cysteine, abolished cholecystokinin (CCK) octapeptide and bethanechol-stimulated gallbladder contraction. We conclude that the prairie dog gallbladder contains constitutive NOS and synthesizes NO, which is important for the maintenance of basal gallbladder tone and is an inhibitor of the contractile response of the gallbladder to agonists such as CCK and bethanechol.
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PMID:Nitric oxide and gallbladder motility in prairie dogs. 914 7

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