Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 role of C-type natriuretic peptide (CNP) and its guanylyl cyclase-linked receptors in mediating salt secretion by the rectal gland of the spiny dogfish shark (Squalus acanthias) was investigated using HS-142-1, a competitive inhibitor of the binding of natriuretic peptides to their guanylyl cyclase receptors. CNP binds to receptors and activates guanylyl cyclase in rectal gland membranes in a way that is inhibited by HS-142-1. Guanylyl cyclase activation in rectal gland membranes is far more sensitive to CNP than to atrial natriuretic peptide, whereas the reverse is true for membranes derived from mammalian (rabbit) renal collecting duct cells. HS-142-1 inhibited the stimulatory effect of CNP on ouabain-inhibitable oxygen consumption by rectal gland tubules. In explanted rectal glands continuously perfused with blood from intact donor sharks, HS-142-1 inhibited the increase in salt secretion normally provoked by infusing isotonic saline solutions into the donor animal. These results strongly support the view that CNP released into the systemic circulation in response to volume expansion mediates the secretion of chloride by the rectal gland via receptors linked to guanylyl cyclase.
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PMID:Role of guanylyl cyclase receptors for CNP in salt secretion by shark rectal gland. 936 5

In arteries, adrenomedullin (ADM) causes relaxations of rings with and without endothelium by stimulating accumulation of cyclic nucleotides resulting from activation of the ADM and calcitonin gene-related peptide (CGRP) receptors. Experiments were designed to determine the mechanism(s) of relaxation to ADM in veins. Rings of canine femoral vein with and without endothelium were suspended in organ chambers for measurement of isometric force. Rings were contracted with prostaglandin F2alpha (2 x 10(-6) M), and cumulative dose-responses to ADM (10(-11) to 10(-7) M) were obtained in the absence or presence of indomethacin (10(-5) M), indomethacin + N(G)-monomethyl-L-arginine (10(-4) M), methylene blue (10(-5) M), particulate guanylate cyclase inhibitor HS-142-1 (10(-5) M), tetraethylammonium (TEA, 10(-2) M), CGRP-receptor antagonist (CGRP 8-37, 10(-6) M), ADM-receptor antagonist (ADM 26-52, 10(-6) M), diphenhydramine (10(-6) M), 8-phenyltheophylline (3 x 10(-6) M), or superoxide dismutase (150 U/ml) plus catalase (1,200 U/ml). ADM produced concentration-dependent relaxations only in veins with endothelium. Relaxations to ADM in rings with endothelium were significantly inhibited only by methylene blue and HS-142-1. In separate experiments, incubation of rings with ADM (10(-8) M) and 3-isobutyl-1-methyl-xanthine (10(-4) M) for 3 min did not significantly affect the accumulation of cyclic guanosine monophosphate (cGMP) and cyclic adenosine monophosphate (cAMP). These data suggest that ADM-mediated relaxation in veins is endothelium dependent and is not associated with activation of CGRP receptors or currently defined ADM receptors. Further, relaxations are not mediated by nitric oxide, indomethacin-sensitive prostanoids, TEA-sensitive hyperpolarizing factors, oxygen free radicals, or accumulation of cyclic nucleotides.
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PMID:Adrenomedullin-mediated relaxations in veins are endothelium-dependent and distinct from arteries. 938 54

Nitric oxide is produced by nitric oxide synthase enzymes, which cleave the amino acid L-arginine to form nitric oxide and the amino acid L-citrulline. Many of the biologic actions of nitric oxide occur because nitric oxide activates guanylate cyclase, which in turn synthesizes a second-messenger molecule, cyclic guanosine 3',5'-monophosphate (cGMP). The increased concentration of cGMP activates cGMP-dependent protein kinase, reducing intracellular concentrations of calcium and relaxing smooth muscle. Nitric oxide also has many important effects that may not be mediated through increases of pulmonary cGMP activity. These include the ability to scavenge oxygen free radicals, reduce oxygen toxicity, and inhibit platelet and leukocyte aggregation. Nitric oxide is metabolized and excreted via a number of diverse pathways that may modify the toxicity of the molecule.
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PMID:The biologic basis for inhaled nitric oxide. 939 Sep 16

Decreased oxygen delivery to cells (hypoxia) is prevalent in a number of important diseases. Little is known about mechanisms of oxygen sensing at the cellular level or about whether functional correlates of oxygen sensing exist. In this study, we examined the impact of hypoxia on stimulated epithelial ion transport function. T84 cells, a model of intestinal epithelia, were grown on permeable supports, exposed to hypoxia (range 1-21% O2) for periods of time between 0 and 72 h and assessed for stimulated ion transport. Hypoxia evoked a specific decrease in cyclic nucleotide-stimulated (cAMP and cGMP) but not Ca++-stimulated ion transport. 86Rb (K+ tracer) uptake and 125I (Cl- tracer) efflux were reduced in hypoxic cells by >50% and >40%, respectively, fluid movement was reduced by hypoxia (>50% decrease) and reoxygenation resulted in partial recovery of the ion transport responses. Stimulated and basal levels of both cAMP and cGMP were decreased in response to hypoxia, although intracellular ATP levels were unaltered under similar conditions. Exogenous addition of cobalt, nickel or manganese, all of which compete for oxygen binding on heme-containing proteins, mimicked hypoxia. Because guanylate cyclase is a heme protein, we measured the influence of cobalt on activity of guanylate cyclase in purified plasma membrane preparations and found cobalt to inhibit stimulated cGMP levels in this cell-free system. Finally, pharmacological lowering of intracellular cGMP (using LY83583) resulted in decreased cAMP-stimulated Cl- secretion, and direct elevation of cGMP (using 8-bromo-cGMP or dibutyryl-cGMP) restored this hypoxia-induced activity. We conclude that a potential oxygen-sensing mechanism of epithelial cells involves the cooperation of heme-containing proteins such as guanylate cyclase and that biochemical cross-talk between cAMP- and cGMP-stimulated pathways may be important in such responses.
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PMID:Hypoxia inhibits cyclic nucleotide-stimulated epithelial ion transport: role for nucleotide cyclases as oxygen sensors. 945 99

Considerable controversy exists in the literature with regard to the nature of the agent mediating the biological effects of nitroxyl (NO-) donors. Here it is demonstrated that Angeli's salt (AS), a generator of NO-, enhanced human neutrophil migration. Under aerobic conditions, AS was converted to peroxynitrite to a small extent. However, using methionine, a scavenger of peroxynitrite, it was shown that peroxynitrite was not involved in AS-induced migration. AS equally enhanced human neutrophil migration under aerobic and anaerobic conditions, which strongly suggests that extracellular conversion of NO- to .NO by oxygen was not required. Furthermore, metHb and L-cysteine, which react more readily with NO- than with .NO, inhibited AS-induced migration, whereas the response towards gaseous .NO remained unaffected. AS induced an increase in the intracellular level of cGMP, although the curves for migration and cGMP level appeared to be slightly different in their concentration dependence. An inhibitor of soluble guanylate cyclase and antagonists of cGMP-dependent protein kinase had a more pronounced inhibitory effect on .NO-induced migration than on AS-induced migration. This suggests that the cGMP signalling cascade is partially, but not solely, responsible for AS-induced migration. As it has been demonstrated that soluble guanylate cyclase can only be activated by .NO, and not by NO-, these data indicate that NO- is at least partly converted intracellularly to .NO.
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PMID:Intracellular but not extracellular conversion of nitroxyl anion into nitric oxide leads to stimulation of human neutrophil migration. 948 Aug 81

The generation of nitric oxide by the vascular endothelium maintains a continuous vasodilator tone that is essential for the regulation of blood flow and blood pressure. Nitric oxide also contributes to the control of platelet aggregation and has important antiatherogenic effects. These properties are mediated by the action of constitutive nitric oxide synthase and subsequent activation by nitric oxide of soluble guanylate cyclase. Impaired release of nitric oxide occurs in most animal and human models of hypertension, contributing to the increased peripheral resistance and most likely to the development of cardiovascular complications. Antihypertensive medications (angiotensin-converting enzyme [ACE] inhibitors and calcium channel blockers) appear to prevent the impairment of nitric oxide-mediated vasodilation in experimental hypertension, though in humans the data are not as clear. Reduced nitric oxide release appears therefore to be a consequence rather than a cause of high blood pressure, and the reduction in blood pressure per se is most important. In hyperlipidaemia, endothelium-dependent relaxations are reduced probably due to the inhibitory action of oxidized low-density lipoproteins on endothelium-dependent relaxations. Lipid-lowering strategies and, more recently, ACE inhibition have been demonstrated to improve nitric oxide dependent coronary vasodilation in hypercholesterolaemic patients with and without atheromatous coronary disease. Nitric oxide dependent vasodilation is also impaired in insulin- and non-insulin-dependent diabetes as well as in healthy aging. Endothelial dysfunction may be improved in non-insulin-dependent diabetes by administration of the antioxidants, supporting the hypothesis that nitric oxide inactivation by oxygen-derived free radicals contributes to abnormal vascular reactivity in diabetes.
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PMID:Impairment and restoration of nitric oxide-dependent vasodilation in cardiovascular disease. 948 1

1 The haeme-containing soluble guanylyl cyclase (alpha1beta1-heterodimer) is a major intracellular receptor and effector for nitric oxide (NO) and carbon monoxide (CO) and mediates many of their biological actions by increasing cyclic GMP. We have synthesized new oxadiazolo-benz-oxazins and have assessed their inhibitory actions on guanylyl cyclase activity in vitro, on the formation of cyclic GMP in cultured cells and on the NO-dependent relaxation of vascular and non-vascular smooth muscle. 2 Soluble guanylyl cyclase, purified to homogeneity from bovine lung, was inhibited by 4H-8-bromo-1,2,4-oxadiazolo(3,4-d)benz(b)(1,4)oxazin-1-one (NS 2028) in a concentration-dependent and irreversible manner (IC50 30 nM for basal and 200 nM for NO-stimulated enzyme activity). Evaluation of the inhibition kinetics according to Kitz & Wilson yielded a value of 8 nM for Ki, the equilibrium constant describing the initial reversible reaction between inhibitor and enzyme, and 0.2 min(-1) for the rate constant k3 of the subsequent irreversible inhibition. Inhibition was accompanied by a shift in the soret absorption maximum of the enzyme's haem cofactor from 430 to 390 nm. 3 S-nitroso-glutathione-enhanced soluble guanylyl cyclase activity in homogenates of mouse cerebellum was inhibited by NS 2028 (IC50 17 nM) and by 17 structural analogues in a similar manner, albeit with different potency, depending on the type of substitution at positions 1, 7 and 8 of the benzoxazin structure. Small electronegative ligands such as Br and Cl at position 7 or 8 increased and substitution of the oxygen at position 1 by -S-,- NH- or -CH2- decreased the inhibition. 4 In tissue slices prepared from mouse cerebellum, neuronal NO synthase-dependent activation of soluble guanylyl cyclase by the glutamate receptor agonist N-methyl-D-aspartate was inhibited by NS 2028 (IC50 20 nM) and by two of its analogues. Similarly, 3-morpholino-sydnonimine (SIN-1)-elicited formation of cyclic GMP in human cultured umbilical vein endothelial cells was inhibited by NS 2028 (IC50 30 nM). 5 In prostaglandin F2alpha-constricted, endothelium-intact porcine coronary arteries NS 2028 elicited a concentration-dependent increase (65%) in contractile tone (EC50 170 nM), which was abolished by removal of the endothelium. NS 2028 (1 microM) suppressed the relaxant response to nitroglycerin from 88.3+/-2.1 to 26.8+/-6.4% and induced a 9 fold rightward shift (EC50 15 microM) of the concentration-relaxation response curve to nitroglycerin. It abolished the relaxation to sodium nitroprusside (1 microM), but did not affect the vasorelaxation to the KATP channel opener cromakalim. Approximately 50% of the relaxant response to sodium nitroprusside was recovered after 2 h washout of NS 2028. 6 In phenylephrine-preconstricted, endothelium-denuded aorta of the rabbit NS 2028 (1 microM) did not affect relaxant responses to atrial natriuretic factor, an activator of particulate guanylyl cyclase, or forskolin, an activator of adenylyl cyclase. 7 NO-dependent relaxant responses in non-vascular smooth muscle were also inhibited by NS 2028. The nitroglycerin-induced relaxation of guinea-pig trachea preconstricted by histamine was fully inhibited by NS 2028 (1 microM), whereas the relaxations to terbutaline, theophylline and vasoactive intestinal polypeptide (VIP) were not affected. The relaxant responses to electrical field stimulation of non-adrenergic, non-cholinergic nerves in the same tissue were attenuated by 50% in the presence of NS 2028 (1 microM). 8 NS 2028 and its analogues, one of which is the previously characterized 1H-[1,2,4]oxadiazolo[4,3,-a]quinoxalin-1-one (ODQ), appear to be potent and specific inhibitors of soluble guanylyl cyclase present in various cell types. Oxidation and/or a change in the coordination of the haeme-iron of guanylyl cyclase is a likely inhibitory mechanism.
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PMID:Characterization of NS 2028 as a specific inhibitor of soluble guanylyl cyclase. 948 19

In our study we have examined the importance of cyclic guanylate monophosphate (cGMP) in NO-mediated intestinal cellular damage. Epithelial cells were harvested from a 20-cm segment of rat proximal small intestine by dispersion using citrate and ethylenediaminetetraacetic acid. Cell viability was assessed by trypan blue dye exclusion. Incubation of cells with the nitric oxide donors, S-nitroso-N-acetyl penicillamine (SNAP) or sodium nitroprusside (SNP) (10-1000 microM) produced a concentration-dependent increase in cell injury and an increase in cellular cGMP formation as determined by immunoassay. In addition, cell injury was also increased by treatment of cells with the cell permeable analogue, dibutryryl cGMP (db cGMP; 0.1-2.0 mM). Suppression of cellular cGMP production by incubating cells with the guanylate cyclase inhibitor LY83583 (5-20 microM) attenuated the damaging actions of SNAP or SNP. However, LY83583 treatment did not reduce ethanol-mediated (10% v/v) cell injury. Furthermore the cytotoxic actions of SNAP or SNP were enhanced by preincubation of cells with the selective cGMP phosphodiesterase inhibitor, zaprinast (10 mM). The damaging actions of SNAP, SNP and db cGMP were reduced by treating cells with superoxide dismutase (100 U/ml). Similarly SNAP, SNP and db cGMP treatments resulted in an increase in the in vitro production of reactive oxygen metabolites as assessed by the fluorescent probe 2'7' dichlorofluoresein diacetate. These findings indicate that cGMP mediates intestinal cell injury in response to high levels of nitric oxide as produced by the nitric oxide donors, SNAP and SNP. Furthermore these data suggest that the cGMP-induced damage to intestinal epithelial cells involves the generation of reactive oxidants.
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PMID:The role of cyclic guanylate monophosphate in nitric oxide-induced injury to rat small intestinal epithelial cells. 949 51

Accumulating evidence indicates that protein kinase C (PKC)-dependent, Ca2+-independent smooth muscle contraction plays the central role in the occurrence of chronic vasospasm following aneurysmal subarachnoid hemorrhage. As far as we know, the nitric oxide/ cyclic guanosine monophosphate (cGMP)/protein kinase G (PKG) system comprises the most efficacious inhibitory mechanism against the PKC-dependent contractile mechanism, and the myogenic tonus of normal cerebral arteries is thought to be maintained on the balance between these systems. Recent studies indicate that in spastic cerebral arteries, the rise in the intracellular diacylglycerol level causes PKC activation presumably owing to the overexpression of endothelin (ET)-1 as well as the generation of free radicals, whereas the cGMP level is inversely reduced owing to the inactivation of soluble guanylate cyclase through some as yet unknown mechanism. The resultant loss of balance between the two systems is considered to culminate in the occurrence of chronic vasospasm lasting for nearly 2 weeks. Based on the above concept, recent papers concerning the effects of reactive oxygen species on the arterial smooth muscle, alterations of various membrane ion channels, particularly of adenosine triphospate (ATP)-activated potassium channels in spastic arteries, the preventive effects of ET antagonists on vasospasm, and the causative role of ET-1 were reviewed in the present article. The roles of the above spasmogenic factors or mechanisms may be more clearly understood on the basis of the antagonistic interrelation between the PKC and the PKG systems, which exert diverse influences on the force-generating system as well as on its multifarious regulatory mechanisms in smooth muscle cells.
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PMID:Various pathogenetic factors revolving around the central role of protein kinase C activation in the occurrence of cerebral vasospasm 957 13

We tested the hypothesis that increasing cyclic GMP with nitric oxide (NO) would reduce cardiac myocyte metabolism less than other forms of guanylate cyclase stimulation. The steady state O2 consumption (VO2) of a suspension of ventricular myocytes in 2.0 mM Ca2+ isolated from hearts of New Zealand white rabbits was measured in a glass chamber using Clark-type oxygen electrode. The cellular cyclic GMP levels, determined by radioimmunoassay, were increased by (1) adding 3-morpholinosydnonimine (SIN-1, 10(-8)-10(-5) M) and nitroprusside (10(-8)-10(-5) M), NO donors-soluble guanylate cyclase stimulators; (2) carbon monoxide (CO, 1.5 x 10(-8)-1.5 x 10(-6) M), soluble guanylate cyclase stimulator and (3) guanylin (10(-8)-10(-5) M), particulate guanylate cyclase stimulator. The baseline myocyte cyclic GMP level was 86 +/- 13 fmol/10(5) myocytes with a corresponding VO2 of 268 +/- 21 nl O2/min per 10(5) myocytes. An inverse relationship between cellular cyclic GMP levels and VO2 existed in these myocytes. The regression equations for the four treatments were: VO2 = -0.45 x [cyclic GMP] + 294.4, r = 0.94 for SIN-1; VO2 = -1.46 x [cyclic GMP] + 444.7, r = 0.96 for CO; VO2 = -1.25 x [cyclic GMP] + 389.1, r = 0.84 for guanylin and VO2 = -0.55 x [cyclic GMP] + 322.8. r = 0.79 for nitroprusside. The regression lines of the two NO donors were parallel. A similar result was also evident for the regressions of CO and guanylin. However, the slopes of both the SIN-1 and nitroprusside regression line were significantly less steep than that of either the CO or guanylin lines. Therefore, VO2 is reduced less for a similar increase in cyclic GMP with NO donors compared to direct stimulation with CO or guanylin. These results suggest that NO has metabolic effects on myocytes in addition to its stimulatory effects on cellular cyclic GMP.
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PMID:Exogenous nitric oxide reduces oxygen consumption of isolated ventricular myocytes less than other forms of guanylate cyclase stimulation. 960 Jun 66


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