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)

Guanylate cyclase in the guinea pig fundic mucosa occurred in two enzymatic forms: a "soluble" form and a particulate form. The mean basal activity of the soluble fraction measured in the presence of 300 micrometer guanosine-5'-triphosphate and 5 mM MnCl2 was 72.6 +/- 5.3 pmoles of cyclic GMP per mg of protein per min. Guanylate cyclase activity was dependent on Mn2+; it was increased by sodium azide (NaN3), CaCl2, cysteine, secretin, and cholecystokinin, but it was not influenced by gastrin, histamine, cholinergic esters, prostaglandins E1 and A1. NaN3 (1 mM) decreased the apparent Km for MnCl2 and potentiated the effects of MgCl2. The activity of the particulate fraction represented about 14% of that of the supernatant fraction. The guanylate cyclase activity of that fraction was not modified by NaN3, gastrin, cholinergic agents, secretin, or cholecystokinin. Cysteine inhibited its activity. These data do not support the hypothesis that cyclic GMP acts as a second messenger for the action of cholinergic agents and gastrin in the guinea pig gastric mucosa.
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PMID:Effect of Ca2+, Mg2+, NaN3, cholinergic agents, and gastrointestinal hormones on the guanylate cyclase from guinea pig gastric mucosa. 2 35

Purification of soluble guanylate cyclase activity from rat liver resulted in loss of enzyme responsiveness to N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), nitroprusside, nitrite, and NO. Responses were restored by addition of heat-treated hepatic supernatant fraction, implying a requirement for heat-stable soluble factor(s) in the optimal expression of the actions of the activators. Addition of free hematin, hemoglobin, methemoglobin, active or heat-inactivated catalase partially restores responsiveness of purified guanylate cyclase to MNNG, NO, nitrite, and nitroprusside. These responses were markedly potentiated by the presence of an appropriate concentration of reducing agent (dithiothreitol, ascorbate, cysteine, or glutathione), which maintains heme iron in the ferro form and favors formation of paramagnetic nitrosyl . heme complexes from the activators. High concentrations of heme or reducing agents were inhibitory, and heme was not required for the expression of the stimulatory effects of Mn2+ or Mg2+ on purified guanylate cyclase. Preformed nitrosyl hemoglobin (10 micron) increased activity of the purified enzyme 10- to 20-fold over basal with Mn2+ as the metal cofactor and 90- to 100-fold with Mg2+. Purified guanylate cyclase was more sensitive to preformed NO-hemoglobin (minimally effective concentration, 0.1 micron) than to MNNG (1 micron), nitroprusside (50 micron), or nitrite (1 mM). A reducing agent was not required for optimal stimulation of guanylate cyclase by NO-hemoglobin. Maximal NO-hemoglobin-responsive guanylate cyclase was not further increased by subsequent addition of NO, MNNG, nitrite, or nitroprusside. Activation by each agent resulted in analogous alterations in the Mn2+ and Mg2+ requirements of enzyme activity, and responses were inhibited by the thiol-blocking agents N-ethylmaleimide, arsenite, or iodoacetamide. The results suggest that NO-hemoglobin, MNNG, NO, nitrite, and nitroprusside activate guanylate cyclase through similar mechanisms. The stimulatory effects of preformed NO-hemoglobin combined with the clear requirements for heme plus a reducing agent in the optimal expression of the actions of MNNG, NO, and related agents are consistent with a role for the paramagnetic nitrosyl . heme complex in the activation of guanylate cyclase.
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PMID:Restoration of the responsiveness of purified guanylate cyclase to nitrosoguanidine, nitric oxide, and related activators by heme and hemeproteins. Evidence for involvement of the paramagnetic nitrosyl-heme complex in enzyme activation. 3 Jul 78

The mechanism of modulation of cyclic guanosine monophosphate (cGMP) accumulation by methylene blue (MB), a putative inhibitor of soluble guanylate cyclase, was investigated in cultured rabbit pulmonary arterial smooth muscle cells (RPASM). Control or MB-pretreated RPASM were stimulated with sodium nitroprusside (SNP), nitrosothiols or endothelium-derived relaxing factor (EDRF) released basally from bovine pulmonary arterial endothelial cells, in short-term co-cultures. The putative EDRF, S-nitroso-L-cysteine (CYSNO), a stable deaminated analog of CYSNO, S-nitroso-3-mercaptoproprionic acid (MPANO) and SNP produced concentration-dependent (1-100 microM) increase (1.5- to 12-fold) in RPASM cGMP levels. MB pretreatment inhibited CYSNO and SNP-induced cGMP accumulation by 51% to 100%, but MPANO-mediated responses were not altered by MB. The inhibition profile of MB on nitrovasodilator-induced cGMP accumulation was quantitatively reproduced by extracellular generation of superoxide anion with xanthine (100 microM) and xanthine oxidase (5 mU). Similarly to MB pretreatment, superoxide anion generation had no effects on base-line cGMP levels or cGMP responses elicited by MPANO. Furthermore, MB induced a dose- and time-dependent generation of superoxide anion from RPASM, as evidenced from spectrophotometric determination of cytochrome c reduction. Inhibition of cGMP accumulation in response to CYSNO and SNP by MB was completely prevented by superoxide dismutase but not catalase. Selective pretreatment of endothelial cells with MB before co-culture with untreated RPASM produced a reduction in RPASM cGMP levels of a magnitude comparable with that seen in co-cultures of MB-pretreated RPASM with untreated endothelial cells, and which was partially prevented by superoxide dismutase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Methylene blue inhibits nitrovasodilator- and endothelium-derived relaxing factor-induced cyclic GMP accumulation in cultured pulmonary arterial smooth muscle cells via generation of superoxide anion. 132 4

Intestinal guanylate cyclase mediates the action of the heat-stable enterotoxin to cause a decrease in intestinal fluid absorption and to increase chloride secretion, ultimately causing diarrhea. An endogenous ligand that acts on this guanylate cyclase has not previously been found. To search for a potential endogenous ligand, we utilized T84 cells, a human colon carcinoma-derived cell line, in culture as a bioassay. This cell line selectively responds to the toxin in a very sensitive manner with an increase in intracellular cyclic GMP. In the present study, we describe the purification and structure of a peptide from rat jejunum that activates this enzyme. This peptide, which we have termed guanylin, is composed of 15 amino acids and has the following amino acid sequence, PNTCEICAYAACTGC, as determined by automated Edman degradation sequence analysis and electrospray mass spectrometry. Analysis of the amino acid sequence of this peptide reveals a high degree of homology with heat-stable enterotoxins. Solid-phase synthesis of this peptide confirmed that it stimulates increases in T84 cyclic GMP levels. Guanylin required oxidation for expression of bioactivity and subsequent reduction of the oxidized peptide eliminated the effect on cyclic GMP, indicating a requirement for cysteine disulfide bond formation. Synthetic guanylin also displaces heat-stable enterotoxin binding to cultured T84 cells. Based on these data, we propose that guanylin is an activator of intestinal guanylate cyclase and that it stimulates this enzyme through the same receptor binding region as the heat-stable enterotoxins.
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PMID:Guanylin: an endogenous activator of intestinal guanylate cyclase. 134 55

Previous studies have demonstrated hepatic cytochrome P-450-dependent biotransformation of organic nitrates. We assessed whether this biotransformation resulted in the formation of an activator of guanylyl cyclase using the 100,000 x g supernatant of rat aorta as a source of crude enzyme. Incubation of aortic supernatant with rat hepatic microsomes and glyceryl trinitrate (GTN) resulted in concentration-dependent increases in guanylyl cyclase activity provided that the incubations were performed anaerobically and that reduced nicotinamide adenine phosphate was added. Cysteine-dependent activation of guanylyl cyclase by GTN was greater under anaerobic compared to aerobic conditions. Guanylyl cyclase activation by GTN was increased using hepatic microsomes from phenobarbital-treated but not beta-naphthoflavone (BNF)-treated rats and was decreased when microsomes from cimetidine-treated rats were used. The hepatic microsome-dependent activation of guanylyl cyclase by GTN was inhibited by in vitro treatment of microsomes with carbon monoxide, SKF 525A, metyrapone and cimetidine, but not by ranitidine. The sensitivity of isolated rat aorta to the relaxant effects of GTN was increased under low oxygen conditions or when aortae were obtained from phenobarbital- or beta-naphthoflavone-treated rats. Treatment of rats with cimetidine did not affect GTN-induced relaxation. The vascular biotransformation of GTN was increased greater than 3-fold when performed anaerobically, and this increase was prevented by pretreatment of the tissues with carbon monoxide. Together, these data provide strong evidence for the involvement of hepatic cytochromes P-450 in the formation from GTN of an activator of guanylyl cyclase (presumably NO or some closely related compound), and suggest that at least a portion of the vascular biotransformation of GTN is mediated by hemoproteins.
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PMID:Hepatic cytochrome P-450-mediated activation of rat aortic guanylyl cyclase by glyceryl trinitrate. 134 46

The effects of exogenous guanosine 5'-triphosphate (GTP), guanosine 5'-(gamma-thio)triphosphate (GTP gamma S), cysteine and Trolox C, a water soluble vitamin E analogue, were studied on basal and nitrovasodilator-induced cyclic GMP formation in isolated human lymphocytes. Incubation of lymphocytes in the presence of GTP (0.1 mM) and GTP gamma S (0.1 mM) increased cyclic GMP more than twofold. SIN-1 and sodium nitroprusside dose-dependently increased cyclic GMP, but nitroglycerin and sodium nitrite were ineffective. GTP and GTP gamma S potentiated SIN-1 and sodium nitroprusside-induced cyclic GMP formation. In the presence of GTP and GTP gamma S, nitroglycerin, but not sodium nitrite, was able to increase lymphocyte cyclic GMP. Cysteine (1 mM) enhanced cyclic GMP formation induced by sodium nitroprusside and nitroglycerin. Trolox C (0.1 mM) potentiated SIN-1-induced cyclic GMP formation. These results indicate that exogenous GTP and GTP gamma S enhance guanylate cyclase stimulation by spontaneous nitric oxide releasers and nitroglycerin in lymphocytes. Cysteine, a redox-compound and Trolox C, an antioxidant, have different effects on guanylate cyclase activation by nitric oxide releasers, SIN-1 and sodium nitroprusside.
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PMID:Exogenous modification of nitrovasodilator-induced cyclic GMP formation in human lymphocytes. 135 26

Guanosine 3',5'-cyclic monophosphate (cGMP) accumulation in single and cocultures of calf pulmonary arterial endothelial (CPAE) and rabbit pulmonary arterial smooth muscle cells (RPASM) was investigated to discover whether endothelial cGMP is involved in the feedback regulation of basally released endothelium-derived relaxing factor (EDRF). Endothelial cell-induced increases in smooth muscle cGMP levels were inhibited by competitive inhibitors of endothelial nitric oxide synthesis, NG-monomethyl-L-arginine and N omega-nitro-L-arginine, in both long-term cocultures and short-term bioassay. Such treatment had no effect on endothelial content of cGMP. Coculture cGMP accumulation was stimulated (twofold increases) by endothelium-dependent vasodilators, bradykinin and acetylcholine. Bradykinin and acetylcholine did not elicit cGMP accumulation in single cultures of either smooth muscle or endothelial cells. To investigate the underlying mechanism(s) of dissociation in cGMP accumulation between cocultures and single endothelial cell cultures, the distribution profile of guanylate cyclase isoforms was determined by stimulating CPAE and RPASM cells with vasodilators activating selectively the soluble or particulate isoenzymes. Both nitrovasodilators, sodium nitroprusside and a putative EDRF, S-nitroso-L-cysteine, produced a 20-fold increase in cGMP content of RPASM cells only, having no effect on endothelial cells. Conversely, atriopeptin II caused 80-fold increases in endothelial cells. Exposure of the short-term bioassay system to 100 nM atriopeptin II, which caused 60-fold increases in CPAE cGMP levels, did not affect basal EDRF-induced smooth muscle cell cGMP accumulation, suggesting that a cGMP-mediated negative feedback mechanism does not appear to be involved in the regulation of basally released EDRF in culture.
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PMID:Endothelial cGMP does not regulate basal release of endothelium-derived relaxing factor in culture. 137 1

Heat-stable enterotoxins (STa) are small, cysteine-rich peptides secreted by Escherichia coli that are able to induce diarrhea through the stimulation of an intestine-specific receptor-guanylyl cyclase known as STaR. A 15-amino acid peptide, guanylin, was recently purified from rat jejunum and proposed to be a potential endogenous activator of this receptor. We describe here the cloning and characterization of human and mouse cDNAs encoding precursor proteins of 115 and 116 amino acids, respectively, having guanylin present at their C termini. Expression of the human cDNA in mammalian cells leads to the secretion of proguanylin, an inactive 94-amino acid protein. Guanylin generated by either trypsin or acid treatment of proguanylin was purified and found to bind to, and activate, STaR. Northern blot and in situ hybridization show high-level expression of guanylin mRNA restricted to the intestine, with localization to Paneth cells at the base of the small intestinal crypts. These results demonstrate that guanylin is an endogenous activator of STaR.
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PMID:Precursor structure, expression, and tissue distribution of human guanylin. 140 6

It has been shown that endothelium-derived relaxing factor (EDRF) may inhibit platelet aggregation in vitro through activation of platelet-soluble guanylate cyclase. To assess whether EDRF may also affect platelet function in vivo, intravascular platelet aggregation was initiated by placing an external constrictor around endothelially injured rabbit carotid arteries. Carotid blood flow velocity was measured continuously by a Doppler flow probe placed proximal to the constrictor. After placement of the constrictor, cyclic flow reductions (CFRs), due to recurrent platelet aggregation, developed at the site of the stenosis. After CFRs were observed for 30 minutes, a solution of authentic nitric oxide (NO, n = 10) was infused into the carotid artery via a small catheter placed proximally to the stenosis. Before infusion of NO, CFR frequency averaged 18.3 +/- 2.9 cycles per hour, and CFR severity (lowest carotid blood flow as percentage of baseline values) was 6 +/- 1%. NO completely inhibited CFRs in all animals, as shown by the normal and constant pattern of carotid blood flow (CFR frequency, 0 cycles per hour, p < 0.001; carotid blood flow, 92 +/- 5%, p = NS versus baseline). These effects were transient; CFRs were restored spontaneously within 10 minutes after cessation of NO infusion. After CFRs returned, S-nitroso-cysteine (S-NO-cys), a proposed form of EDRF, was infused into the carotid artery. S-NO-cys also abolished CFRs in all animals but at a significantly lower dose than NO (0.3 +/- 0.1 versus 12 +/- 4 nmol/min). The role of endogenously released EDRF in modulating in vivo platelet function was then tested in additional experiments. In 10 animals, endogenous release of EDRF was stimulated by infusing acetylcholine into the aortic root during CFRs. Infusion of acetylcholine was also associated with a complete inhibition of CFRs, similar to that observed during exogenous infusion of NO or S-NO-cys. These antithrombotic effects of acetylcholine were completely lost when EDRF synthesis was prevented by administration of the L-arginine analogue NG-monomethyl L-arginine (L-NMMA). Furthermore, in six additional rabbits the basal release of EDRF was blocked by L-NMMA after CFRs had been previously abolished with aspirin or the combination of aspirin and ketanserin, a serotonin S2 receptor antagonist. L-NMMA caused restoration of CFRs in all animals, indicating that even the basal release of EDRF is important in modulating platelet reactivity in vivo. Taken together, the data of the present study demonstrate that endogenous EDRF might importantly contribute to the modulation of platelet function in vivo.
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PMID:Endothelium-derived relaxing factor modulates platelet aggregation in an in vivo model of recurrent platelet activation. 142 38

Several cellular constituents of the lung have the capacity to synthesize a factor capable of relaxing smooth muscle which has the physicochemical properties of nitric oxide (NO). In other systems, it has been shown that NO may be stabilized in the plasma and cellular milieu by reduced thiol in the form of an S-nitrosothiol (RS-NO). These compounds have half-lives that are significantly greater than that of NO, and also retain the vasorelaxant activity of NO, which is mediated by activating guanylate cyclase and raising cyclic GMP levels. The effects of RS-NO and their potential mechanism of action on airways, however, have not been previously investigated. In this study, we have examined the smooth muscle relaxant properties of several biological and synthetic RS-NO on guinea pig trachea. Our data reveal that RS-NO are generally potent airway smooth muscle relaxants with at least a partial effect through stimulation of cyclic GMP. Relaxations were attenuated significantly by the guanylate cyclase inhibitor methylene blue (P less than .05), and RS-NO-induced increases in cyclic GMP were demonstrated (P less than .0005). The IC50 values for S-nitroso-glutathione, S-nitroso-cysteine, S-nitroso-homocysteine, S-nitroso-N-acetylcysteine, S-nitroso-penicillamine and S-nitroso-captopril were 0.99 +/- 0.09, 3.2 +/- 0.2, 2.1 +/- 0.3, 2.1 +/- 0.8, 1.8 +/- 0.8 and 20 +/- 0.7 microM (mean +/- S.E.M.), respectively. In this system isoproterenol has an IC50 of 0.016 microM and theophylline an IC50 of 74 microM, making the relaxant properties of these NO derivatives of potential pharmacological and physiological relevance.
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PMID:The relaxant properties in guinea pig airways of S-nitrosothiols. 156 Mar 60


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