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)

It has been previously shown that trypsin treatment of rat liver plasma membranes causes the solubilization of a guanylate cyclase of Mr = 140,000 (Lacombe, M. L., Haguenauer-Tsapis, R., Stengel, D., Ben Salah, A., and Hanoune, J. (1980) FEBS Lett. 116, 79-84). In this study, we observed that addition of Mn-GTP during this step greatly protected the enzyme from proteolytic degradation. This effect was specific for guanine nucleotides, being weaker for other nucleotides triphosphate and GDP, and absent for cyclic GMP and GMP. Metal-GTP complex was required with a strict specificity for Mn2+. In addition to the Mr = 140,000 enzyme, trypsin solubilization in the presence of Mn-GTP led to the formation of a small and active form of guanylate cyclase. Based on its behavior on Ultrogel AcA 34 and sucrose gradients, its apparent Mr was calculated to be 68,000. Both forms could be well separated by high performance liquid chromatography and were shown to be sequentially solubilized (the larger appearing before the smaller species). Mr = 140,000 species, but not the cytosolic enzyme, was able to generate the Mr = 68,000 enzyme upon tryptic treatment in the presence of Mn-GTP. The Mr = 140,000 and 68,000 enzymes exhibited Michaelis-Menten kinetics (Hill coefficient = 1) with Km for Mn-GTP of 130 and 70 microM, respectively. The proteolytically solubilized enzymes were strickingly heat labile and highly protected by Mn-GTP. These results support the hypothesis that the rat liver membrane-bound guanylate cyclase has a dimeric structure similar to that of the cytosolic enzyme. They also suggest a possible role for GTP in limiting the degradation rate of membrane guanylate cyclase in vivo and, thus, in regulating the active enzyme concentration.
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PMID:Guanine nucleotides allow the trypsin solubilization of an active Mr = 68,000 guanylate cyclase. 613 89

Trifluoperazine was shown previously to inhibit the activation of Tetrahymena guanylate cyclase activity by calmodulin [S. Nagao, S. Kudo and Y Nozawa, Biochem. Pharmac. 19, 2709 (1981)]. The present paper reports that N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide (W-7), another representative calmodulin inhibitor, inhibited the calmodulin-induced activation of the guanylate cyclase, and that trifluoperazine and W-7 also inhibited Tetrahymena adenylate cyclase. The adenylate cyclase activity was found to be present in a membrane-bound form and not to be influenced by calmodulin. The inhibitions of the adenylate cyclase activity by these agents were dose-dependent and not Ca2+-dependent. These findings suggest that the inhibitory actions of these drugs may not necessarily be specific for calmodulin-dependent enzymes in T. pyriformis.
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PMID:Inhibitory effects of calmodulin antagonists on plasma membrane cyclases in Tetrahymena: calmodulin-dependent guanylate cyclase and calmodulin-independent adenylate cyclase. 613 22

In the presence of Mg-GTP, the rat liver guanylate cyclase, in either intact membranes or trypsin solubilized form, was stimulated by protoporphyrin IX 6 to 10-fold. However, when Mn-GTP was the substrate, protoporphyrin IX activated the membrane-bound guanylate cyclase only 50%, in contrast to the marked activation reported for the cytosolic enzyme. Meso- and deuteroporphyrin IX, hematoporphyrin and coproporphyrin III also activated membrane guanylate cyclase while uroporphyrin III, and hemin had no effect. Basal, Mg2+-dependent activity exhibited two classes of catalytic sites with apparent Km values of 2 mM and 0.12 mM. Activation by protoporphyrin resulted in the disappearance of the low affinity sites. The activated enzyme exhibited Michaelis-Menten kinetics and no alteration in its requirement for excess Mg2+. These data indicate that, in the presence of Mg2+, a heme-like structure can interact with the membrane-bound guanylate cyclase and regulate its activity.
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PMID:Protoporphyrin IX activates the Mg dependent guanylate cyclase from rat liver plasma membranes. 613 10

A highly purified preparation of Tetrahymena calmodulin activated a membrane-bound guanylate cyclase by more than 40-fold. This activation of guanylate cyclase by calmodulin was inhibited completely by local anesthetics such as dibucaine, tetracaine, lidocaine and procaine at concentrations that had no appreciable effect on the activities of basal guanylate cyclase (without calmodulin) and adenylate cyclase. The inhibition by dibucaine of calmodulin-mediated activation of the enzyme activity was not reversed by calcium but was partially overcome by increasing the concentration of calmodulin. Kinetic analysis of local anesthetic-induced inhibition of activation of guanylate cyclase demonstrated a mixed type of antagonism. These results suggest the possibility that the inhibition of calmodulin-dependent guanylate cyclase resulted, in part, from interaction of the drugs with calmodulin.
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PMID:Effects of local anesthetics on calmodulin-dependent guanylate cyclase in the plasma membrane of Tetrahymena pyriformis. 614 14

The mechanism of activation of intestinal guanylate cyclase by Escherichia coli heat-stable enterotoxin (STa) has been studied by using isolated rat intestinal epithelial cells and purified brush border membrane (BBM) preparations. Inhibitors of prostaglandin biosynthesis, quinacrine and 5,8,11,14-eicosatetraynoic acid (ETYA), significantly reduced intracellular levels of cyclic guanosine 3', 5'-monophosphate in isolated cells treated with STa. Although these data suggested that activation of phospholipase A2 and metabolism of arachidonic acid are involved in the mechanism of action of STa, other data ruled out such a mechanism. (i) The rate of release of [3H]arachidonic acid by prelabeled intestinal cells incubated with STa was the same as control cells not treated with STa. (ii) Thin-layer chromatography of lipid extracts of intestinal cells treated with STa and untreated cells did not reveal any quantitative or qualitative differences in free fatty acids, neutral lipids, and phospholipids. (iii) Amounts of prostaglandin PGE2, prostaglandin PGF2 alpha, and thromboxane B2 in intestinal cells and BBM incubated with STa did not increase compared with controls not incubated with STa. When purified BBM preparations were incubated with phospholipase A2 inhibitors (p-bromophenacyl bromide and quinacrine) or cyclooxygenase inhibitors (ETYA and indomethacin), basal and STa-induced guanylate cyclase activities were significantly reduced. Inhibitors of calcium-calmodulin-mediated reactions (EGTA [ethylene glycol-bis(beta-aminoethyl ether)-N,N-tetraacetic acid], trifluoperazine, and chlorpromazine) and calcium channel blockers (verapamil and nifedipine) also nonspecifically inhibited both basal and STa-stimulated guanylate cyclase in BBM preparations. Lanthanum, a competitive inhibitor of membrane-bound calcium, did not affect either basal or STa-stimulated guanylate cyclase of BBM preparations.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization of the mechanism of action of Escherichia coli heat-stable enterotoxin. 614 30

The role of cyclic nucleotides in the regulation of lymphocyte growth and differentiation remains controversial, as an adequate characterization of the key enzymes, adenylate cyclase and guanylate cyclase, in the plasma membrane of lymphocytes is still lacking. In this study, calf thymus lymphocytes were disrupted by nitrogen cavitation and various cellular fractions were isolated by differential centrifugation and subsequent sucrose density ultracentrifugation. As revealed by the chemical composition and the activities of some marker enzymes, the plasma membrane fraction proved to be highly purified. Nucleotide cyclases were present in the plasma membranes in high specific activities, basal activities of adenylate cyclase being 13.7 pmol/mg protein per min and 34.0 pmol/mg protein per min for the guanylate cyclase, respectively. Adenylate cyclase could be stimulated by various effectors added directly to the enzyme assay, including NaF, GTP, 5'-guanylyl imidodiphosphate, Mn2+ and molybdate. Addition of beta-adrenergic agonists only showed small stimulating effects on the enzyme activity in isolated plasma membranes. Basal activity of adenylate cyclase as well as activities stimulated by NaF or 5'-guanylyl imidodiphosphate exhibited regular Michaelis-Menten kinetics. Activation by both agents only marginally affected the Km values, but largely increased Vmax. The activity of the plasma membrane-bound guanylate cyclase was about 10-fold enhanced by the nonionic detergent Triton X-100 and high concentrations of lysophosphatidylcholine, but was slightly decreased upon addition of the alpha-cholinergic agonist carbachol. Basal guanylate cyclase indicated to be an allosteric enzyme, as analyzed by the Hill equation with an apparent Hill coefficient close to 2. In contrast, Triton X-100 solubilized enzyme showed regular substrate kinetics with increasing Vmax but unaffected Km values. Thus the lymphocyte plasma membrane contains both adenylate cyclase and guanylate cyclase at high specific activities, with properties characteristic for hormonally stimulated enzymes.
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PMID:Characterization and subcellular localization of nucleotide cyclases in calf thymus lymphocytes. 614 2

Addition of cGMP to cytosol of human endometrium or to cells of the endometrial cancer line HEC-1 produced severalfold increases in specific estrogen binding (EB) levels. This effect was maximal with 1 microM cGMP in the presence of 0.1 mM isobutylmethylxanthine (a phosphodiesterase inhibitor) during incubations with [3H]estradiol. In contrast, cAMP decreased EB levels under similar conditions. The effects of cyclic nucleotides on EB levels were complete in less than 15 min in the presence of Mg2+, Mn2+, or Ca2+. The EB sites generated by the addition of cGMP during labeling of cytosol with 10 nM [3H]estradiol were found to sediment in the 8S and 4S regions of low-salt glycerol gradients. No changes in EB levels were observed when cyclic nucleotides were added to cytosol depleted of ATP by preincubation at 4 degrees C for 3 hr, but responsiveness was restored by addition of exogenous ATP. The ATP requirement and the pattern of dependence of cyclic nucleotide actions on divalent cation concentrations suggest that cGMP and cAMP effects may be mediated by kinases and may involve phosphorylations. Another possibility is that the cyclic nucleotides interact allosterically with the binder in the presence of ATP. Addition of sodium molybdate, ATP, and GTP to homogenates of endometrial tissue or HEC-1 cells produces increases in EB levels similar to those obtained by the addition of cGMP. However, these compounds are much less active when added to cytoplasm or cytosol. On the basis of these and other observations, it is hypothesized that molybdate, ATP, and GTP affect EB levels primarily by increasing cGMP concentrations through processes involving a plasma membrane-bound guanylate cyclase.
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PMID:Rapid changes in specific estrogen binding elicited by cGMP or cAMP in cytosol from human endometrial cells. 630 87

Guanosine 5'-cyclic monophosphate (cGMP) is an important modulator of fluid balance in many epithelia. We examined its metabolism in primary cultures of human airway epithelia. Sodium nitroprusside increased cGMP levels 30-fold, suggesting that the respiratory epithelium expresses a soluble guanylate cyclase; however, endogenous nitric oxide production was not detected. cGMP levels could also be increased by C-type natriuretic peptide (CNP), but not by atrial natriuretic peptide, brain natriuretic peptide, or Escherichia coli heat-stable enterotoxin, indicating expression of a CNP-specific membrane-bound guanylate cyclase. The one-half effective concentration for CNP was 40 nM and the maximal velocity was 56.7 pmol cGMP.mg protein-1.h-1. After CNP stimulation, approximately 60% of the total synthesized cGMP was preferentially exported from the polarized epithelial cells across the basolateral membrane by a probenecid-sensitive process. Isoproterenol-stimulated adenosine 3',5'-cyclic monophosphate (cAMP) export revealed a similar export pattern and probenecid sensitivity, although a lower efficiency of export (27% of total cAMP was exported). Consistent with previous reports, export of neither cyclic nucleotide was saturable at the concentrations tested. We conclude that the respiratory epithelium expresses a soluble guanylate cyclase, a CNP-specific receptor, and a novel vectorial cyclic nucleotide export mechanism.
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PMID:Synthesis and vectorial export of cGMP in airway epithelium: expression of soluble and CNP-specific guanylate cyclases. 750 95

Endothelium-derived relaxing factor/nitric oxide (EDRF/NO) is produced by the vascular wall and is a key modulator of vascular tone and blood pressure. Since reduced EDRF/NO release from the endothelium is a major key event in the development of atherosclerosis, we investigated the effect of cholesterol on endothelial cell particulate (membrane-bound) NO synthase activity. Low concentrations (up to 0.2 mM) of liposomal cholesterol progressively activated plasma membrane-bound NO synthase. Increasing cholesterol concentration above that which maximally stimulated enzyme activity produced a progressive inhibition with respect to the control value. In time course experiments using endothelial cell plasma membranes enriched with cholesterol, changes in NO production were followed by analogous changes in soluble guanylate cyclase activity (sGC). N-Monomethyl-L-arginine (L-NMMA) (1 mM) inhibited particulate NO synthase activity at all cholesterol concentrations used with subsequent decreases in cGMP production. Egg lecithin liposomes (free of cholesterol) had no effect on NO synthase activity. A three-fold increase in superoxide (O2-) and a 2.5-fold increase in NO formation followed by an eight-fold increase in peroxynitrite (ONOO-) production by cholesterol-treated microsomes isolated from endothelial cells was observed, one which rose further up to eight-fold in the presence of superoxide dismutase (SOD) (10 U/mL). Cholesterol had no effect on Lubrol-PX solubilized membrane-bound NO synthase or on cytosolic (soluble) NO synthase activities of endothelial cells. Cholesterol modulated lipid fluidity of plasma membranes labelled with 1,6-diphenyl-1,3,5-hexatriene (DPH) as indicated by the steady state fluorescence anisotropy [(ro/r)-1]-1. Arrhenius plots of [(ro/r)-1]-1 indicated that the lipid phase separation of the membranes at 26.2 +/- 1.5 degrees was elevated to 34.4 +/- 1.9 degrees in cholesterol-enriched membranes, consistent with a general decrease in membrane fluidity. Cholesterol-enriched plasma membranes treated with egg lecithin liposomes showed a lipid phase separation at 27.5 +/- 1.6 degrees, indicating the reversible effect of cholesterol on membrane lipid fluidity. Arrhenius plots of NO synthase activity exhibited break point at 26.9 +/- 1.8 degrees which rose to 35.6 +/- 2.1 degrees in 0.5 mM cholesterol-treated plasma membranes and decreased to 21.5 +/- 1.4 degrees in plasma membranes treated with 0.2 mM cholesterol. The allosteric properties of plasma membrane-bound NO synthase inhibited by Mn2+ (as reflected by changes in the Hill coefficient) were changed by cholesterol, consistent with modulations of the fluidity of the lipid microenvironment of the enzyme.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Modulation of particulate nitric oxide synthase activity and peroxynitrite synthesis in cholesterol enriched endothelial cell membranes. 754 Mar 91

The majority of the data on nitric oxide (NO) in the central nervous system (CNS) relies on histochemical and immunohistochemical evidence concerning the distribution of the nitric oxide synthase (NOS), its inhibition by specific antagonists and its co-localization with the receptor enzyme guanylate cyclase (GC) in the same functional region. All three isoforms, endothelial (eNOS), neural (nNOS) and macrophage type inducible (iNOS), are of importance to the normal and pathological function of the CNS. In nNOS gene deleted mice eNOS seems to contribute to the maintenance of neuronal function. NO may contribute to synaptic plasticity as a retrograde mediator that is released by postsynaptic NMDA-receptor activation. Microglia contains membrane-bound inducible iNOS that may be important in host defence function. Glia and pericytes surrounding the blood vessels contain GC that is stimulated by NO released from endothelium and nerve endings. Excessive production of highly reactive NO may be responsible for the neurotoxicity mediated by NMDA receptors that contributes to the symptomatology of strokes and neurodegenerative diseases. Moreover, after initial stimulation by cytokines, large amounts of NO produced by iNOS in the microglia (brain-based macrophages) may cause cellular damage.
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PMID:Nitric oxide in the central nervous system. 754 27


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