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)

We have examined the properties of soluble guanylate cyclase activity in the human neutrophil. The enzyme showed complex regulation by metal ions. A 10-fold higher activity was observed in the presence of Mn2+ than Mg2+, while Ca2+ caused an increase in activity only in the presence of Mg2+ ion. Sodium nitroprusside (SNP), azide and hydrogen peroxide were activators of the enzyme. Dithiothreitol blocked the activation by SNP, suggesting the involvement of thiol groups in the activation process. Carbachol acting through the muscarinic cholinergic receptor caused a dose-dependent activation, which was blocked by atropine. Higher concns of carbachol were required to activate guanylate cyclase than were required for the modulation of enzyme release elicited by N-formyl-L-methionyl-L-leucyl-L-phenylalanine. Nordihydroguaracetic acid inhibited carbachol stimulation of guanylate cyclase. By contrast, trifluoperazine (TFP), a calmodulin antagonist, caused a biphasic modulation of basal activity in the presence or absence of carbachol. Our results indicate that: allosteric interactions of metal ions are important to the regulation of the enzyme, the free radical nitroxide as well as hydrogen peroxide enhances enzyme activity, agonist occupancy of the muscarinic cholinergic receptor activates neutrophil guanylate cyclase probably through a mechanism involving calcium influx and the activation of the lipoxygenase pathway, and a TFP-sensitive site (possibly calmodulin) is involved in the selective regulation of basal enzyme activity.
Mol Immunol 1985 Jul
PMID:Regulation of human neutrophil guanylate cyclase by metal ions, free radicals and the muscarinic cholinergic receptor. 286 50

According to our present understanding organic nitrates like glycerine trinitrate mediate their pharmacological effect by an intracellular stimulation of the enzyme guanylate cyclase (E.C. 4.6.1.2.) [1, 10]. The exact molecular mechanism underlying the process of enzyme activation is still a matter of controversial discussion. But there is general agreement in literature about the fact that organic nitrate compounds are able to activate the enzyme guanylate cyclase only in the presence or by the interaction of the amino acid cysteine [3, 5]. The stimulatory activity of nitric oxide-containing compounds may be due, at least in part, to the formation of active, unstable intermediate S-nitrosothiols, i.e. S-nitrosocysteine in case of the organic nitrates [7]. According to Craven and DeRubertis [2], the active intermediates of guanylate cyclase stimulation are represented by nitric oxide-heme complexes. There is, however, substantial evidence that the organic nitrates have to be cleaved before they become biologically active. During the transformation which takes place in the presence of cysteine or by means of enzymatic catalysis, nitric oxide radicals are reductively split off the molecule from which (via the intermediate formation of salpetric acid) the nitric oxide is liberated as the essential stimulatory agent. In this study we examined the transformation of glycerine trinitrate and other organic nitrates under the influence of different thiols and a purified soluble rat liver guanylate cyclase preparation. At the same time the stimulation of guanylate cyclase in the presence of the thiols mentioned was quantitatively estimated. Only in case of cysteine did we find a strict correlation between the liberation of nitric oxide from different organic nitrates and the degree of enzyme activation. Several other thiols were also able to liberate nitric oxide, but surprisingly enough, there was no equivalent stimulation of guanylate cyclase.(ABSTRACT TRUNCATED AT 250 WORDS)
J Mol Cell Cardiol 1985 Sep
PMID:Evidence for a correlation between nitric oxide formation by cleavage of organic nitrates and activation of guanylate cyclase. 286 57

Adenylate and guanylate cyclase activities were demonstrated in R3230AC rat mammary adenocarcinomas by electron microscopic cytochemistry. Adenylate (AC) and guanylate (GC) cyclases were detected on plasma membrane of tumor epithelial cells, but not on fibroblasts and endothelial cells in the perivascular space. Both AC and GC activities were enriched in tumor epithelial cells at the periphery of the tumor lobular parenchyma rather than in cells in central core of the lobular parenchyma. Furthermore, the tumor cell plasma membranes facing the connective tissue stroma were in paucity or devoid of either enzyme activity. These heterogeneous distributions of both AC and GC among tumor epithelia suggest that R3230AC epithelial cells in different parts of the tumor mass may vary significantly in their regulation of cellular physiology.
Virchows Arch B Cell Pathol Incl Mol Pathol 1985
PMID:Heterogeneous localization of adenylate and guanylate cyclases in R3230AC rat mammary adenocarcinoma cells. 286 31

Cell fractionation studies have been performed, in order to obtain insight into the subcellular distribution of Dictyostelium adenylate cyclase and guanylate cyclase and also to provide a starting point for further study and isolation of these enzymes and their regulatory components. Adenylate cyclase and cAMP receptors were found in the same membrane fractions, but were distributed different from the plasma membrane marker alkaline phosphatase. Guanylate cyclase was partially soluble, partially particulate. In isopycnic gradients, particulate guanylate cyclase was present in other fractions than cAMP receptors and adenylate cyclase, but in similar ones to alkaline phosphatase. These observations are consistent with the hypothesis that cell-surface cAMP receptors and adenylate cyclase interact via a membrane-bound G-protein, whereas the receptors activate guanylate cyclase via a cytosolic factor. The adenylate cyclase activity in membranes obtained by sucrose gradient centrifugation was retained in the presence of various detergents, while with the same detergents the activity of particulate guanylate cyclase was lost. This adenylate cyclase was solubilized as assessed by gel filtration and centrifugation experiments, and it behaved heterogeneous in fractionation studies. In gel filtration, the major component eluted at a position corresponding to a Stokes radius of 4-7 nm. A purification of about 70-fold as compared to the cell homogenate was obtained by affinity chromatography of adenylate cyclase on ATP-Sepharose. We conclude that cell fractionation provides useful starting material for isolation and further study of Dictyostelium adenylate cyclase.
Mol Cell Biochem 1987 Jul
PMID:Cell fractionation, detergent sensitivity and solubilization of Dictyostelium adenylate cyclase and guanylate cyclase. 288 13

Carbon monoxide (CO) inhibits human platelet aggregation triggered with threshold levels of agonists like arachidonate, ADP, collagen, thrombin, or the prostaglandin endoperoxide analogue U46619. This inhibition is counteracted by illumination with light above 400 nm indicating the involvement of a ferrous hemoprotein. An earlier suggestion that the mechanism of CO inhibition involves the cytochrome P450 protein thromboxane A2 synthase was ruled out as well as the involvement of the iron containing enzymes like cyclooxygenase or 12-lipoxygenase. In the presence of CO, no arachidonate was released from phospholipids, no increase of intracellular calcium levels was observed, and phospholipase C was not activated suggesting that the transducing mechanisms from the receptors to phospholipase C was effected in the presence of CO. cAMP levels were also unchanged but cGMP levels showed an increase of about 30%. By comparison with the guanylate cyclase stimulator nitroprusside, it was shown that such levels could block aggregation. In a 10,000 X g supernatant, CO enhanced guanylate cyclase activity 4-fold, supporting the view that CO acts by increasing platelet cGMP levels. With respect to the mechanism of guanylate cyclase action, the binding of CO to the regulatory subunit of guanylate cyclase must be responsible for the observed activation. It is concluded that cGMP is an important feedback regulator of the Pl response and that already a 25% increase in its steady state levels can cause inhibition of platelet aggregation.
Mol Pharmacol 1987 Oct
PMID:Inhibition of platelet aggregation by carbon monoxide is mediated by activation of guanylate cyclase. 289 93

The present study examined changes in the levels of plasma catecholamines and myocardial histamine, guanylate cyclase activity, cyclic nucleotides, calcium, calmodulin, and norepinephrine following chronic administration of doxorubicin (DXR). In addition, changes in myocardial alpha 1-adrenergic receptor density and dissociation constant were measured. Rats received DXR (2 mg/kg) or vehicle weekly by the SC route for 2, 4, 8, and 13 weeks. Rats were sacrificed one week after their last dose. One group of rats treated for 13 weeks was sacrificed at 19 weeks, six weeks after the last dose. Heart histamine was unchanged at 3, 5, 9, and 19 weeks, yet at 14 weeks it was significantly elevated in DXR-treated rats over controls. Cardiac calcium, norepinephrine, and cyclic GMP levels were unchanged throughout the course of the study. Cardiac cAMP and calmodulin levels were unchanged at 3, 5, 9, and 14 weeks. At 19 weeks in DXR-treated rats, cAMP was depressed while calmodulin was elevated. Plasma catecholamines and myocardial guanylate cyclase activity examined at 14 weeks were unchanged. In contrast, alpha 1 receptor density examined at 14 weeks in DXR-treated rats was significantly depressed while the dissociation constant was unchanged. Changes in cAMP and calmodulin are suggestive of a redistribution of calcium, although total levels of calcium were unchanged. The depression of cAMP indicates damage to the membrane bound enzyme, adenylate cyclase, and that the membrane interaction of doxorubicin appears to be an integral part of the biochemical mechanism of its toxicity.
Virchows Arch B Cell Pathol Incl Mol Pathol 1987
PMID:Effects of chronic administration of doxorubicin on myocardial alpha-adrenergic receptors, histamine, cyclic nucleotides, calcium, norepinephrine, calmodulin, and guanylate cyclase activity, and plasma catecholamines in rats. 289 92

HeLa cells cultured in a biotin-deficient medium showed reduced rates of protein synthesis, DNA synthesis and growth. Continuous synthesis is required for the increase in DNA synthesis observed upon addition of biotin to cells cultured in biotin-deficient medium. The addition of biotin to the biotin-deficient culture medium increased the activity of guanylate cyclase in both HeLa cells and fibroblasts. Both cell types cultured in biotin deficient medium showed reduced activity of RNA Polymerase II. The exogenous addition of biotin to the biotin-deficient cell cultures also resulted in increased activity of RNA Polymerase II in HeLa cells and fibroblasts. The maximal response was observed in 4 hours. Significant increase in enzyme activity was observed at 10(-8) M biotin in the culture medium. The growth promoting effect of biotin seems to involve stimulations of cellular guanylate cyclase and RNA Polymerase II activity.
Mol Cell Biochem 1988 Jan
PMID:Stimulation of guanylate cyclase and RNA polymerase II activities in HeLa cells and fibroblasts by biotin. 289 22

Nitrovasodilators relax vascular smooth muscle by stimulating guanylate cyclase. Ignarro et al. (1981) proposed a mechanistic scheme according to which organic nitrates release nitrite in the presence of thiols. The corresponding nitrous acid would decay leading to nitric oxide, which then would react with another thiol to nitrosothiol. Dose-response relations with regard to guanylate cyclase stimulation of organic nitrates and sodium nitrite were compared in the presence of cysteine and its closely related methylester. Nitrite formation from ED95 concentrations of organic nitrates was also measured and compared with that present under an equi-effective concentration of sodium nitrite. In addition, the proposed formation of nitrosothiol from nitric oxide was re-examined. In the presence of cysteine, organic nitrates as well as sodium nitrite stimulated guanylate cyclase, but nitrite formation under ED95 concentrations of organic nitrates was 1000-fold smaller than that present under an equi-effective concentration of sodium nitrite. In the presence of cysteinemethylester, liberation of nitrite from organic nitrates was similar but no stimulation of guanylate cyclase was obtained. Sodium nitrite, however, showed a stimulating activity similar to that in the presence of cysteine. These results clearly demonstrate that guanylate cyclase stimulation by organic nitrates is not mediated by nitrite and subsequent formation of nitrosothiol. Since nitrous acid did not decay to nitric oxide in the pH range studied, the formation of nitrosothiol is apparently due to a direct reaction of nitrous acid with thiol.
J Mol Cell Cardiol 1988 May
PMID:Guanylate cyclase activation by organic nitrates is not mediated via nitrite. 290 90

Apart from the generally known functions, the heart has also an endocrine function. Atrial cardiocytes, being typical secretory cells, release peptide hormones into the blood stream: atrial natriuretic peptide containing 28 amino acids and cardiodilatin. The structure of atrial peptides was determined. It was shown that both peptides were derived from their common precursor, a protein containing 151 amino acids. The presence of specific receptors is demonstrated on plasmatic membranes of cells of kidney epithelium, arterial smooth muscle, arterial endothelium, kidney cortex and hypophysis. The interaction of atrial peptides with these receptors activates the guanylate cyclase system. The biological action of atrial peptides manifests itself in the quick, massive and instantaneous increase of diuresis and electrolyte excretion, elevated clearance of creatinine, decrease of kidney vascular resistance, intensification of glomerular filtration, inhibition of stimulated secretion of aldosterone, relaxation of blood vessels, elimination of arterial and intestinal spasm induced by various endogenous and exogenous vasoconstrictors and in correction of kidney hypertension. Various radioimmunoassays for the presence of atrial peptides in human plasma were developed; it was shown that in patients with congestive heart failure the content of atrial peptides is increased.
Mol Biol (Mosk)
PMID:[Endocrine function of the heart. Structure and biological properties of peptides secreted by the heart atrium]. 295 15

The effects of nitroprusside (NP), glyceryl trinitrate (GTN), and the 8-bromo analog of cyclic GMP (8-Br-cGMP) on norepinephrine (NE)-stimulated phosphorylase a formation and myosin light chain (MLC) phosphorylation were examined in the rat aorta. NE produced a time-dependent increase in tension, phosphorylase a formation, and MLC phosphorylation. The formation of phosphorylase a and phosphorylation of MLC were transient, since both processes declined to basal levels within 30 min after the addition of NE even though tension remained elevated. NP and GTN inhibited tension, phosphorylase a formation, and MLC phosphorylation although inhibition of phosphorylase was greater when strips were treated with submaximal (i.e., 0.01 microM) NE concentrations. GTN was a more effective inhibitor of phosphorylase a formation than NP in NE-treated strips, although both agents and 8-Br-cGMP inhibited MLC phosphorylation. The guanylate cyclase inhibitor methylene blue (10 microM) effectively prevented the effects of NP and GTN. The results suggest that NP, GTN, and 8-Br-cGMP inhibit phosphorylase kinase and MLC kinase activation by lowering Ca2+ in the cell. This hypothesis is supported by the observations that 8-Br-cGMP inhibited the Ca2+-dependent, KCl-induced phosphorylase a formation most markedly at reduced concentrations of extra-cellular Ca2+. In addition, neither NP, GTN, nor 8-Br-cGMP inhibited phosphorylase a formation in forskolin-treated tissues, which occurred in response to cAMP-dependent phosphorylation of phosphorylase b kinase.
Mol Pharmacol 1985 Mar
PMID:Effects of nitroprusside, glyceryl trinitrate, and 8-bromo cyclic GMP on phosphorylase a formation and myosin light chain phosphorylation in rat aorta. 298 83


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