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)

Tetrahymena calmodulin radioiodinated with a lactoperoxidase method retained full ability to activate Tetrahymena guanylate cyclase. Binding of [125I]calmodulin to Tetrahymena microsomal membranes was Ca2+-dependent and inhibited by excess unlabeled calmodulin or trifluoperazine. When Triton X-100-solubilized microsomes were chromatographed on calmodulin Sepharose, several proteins were found to interact with calmodulin in a Ca2+-dependent manner.
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PMID:Calmodulin-binding proteins of Tetrahymena microsomal membranes. 393 57

Partial purification of soluble guanylate cyclase on DEAE-Sephacel yields two separate peaks of guanylate cyclase activity. After 10-fold purification of the soluble enzyme, guanylate cyclase is markedly inhibited by micromolar concentrations of dopamine (I50 = 0.2 microM). Dopamine inhibition is observed whether the reaction is conducted with Mn2+ or with Mg2+, under atmosphere or N2(g), and using enzyme from either peak from the DEAE-Sephacel column. Other catecholamines also inhibit partially purified guanylate cyclase with an order of potency at 1 microM of: dopamine = L-DOPA > norepinephrine = isoproterenol = adrenochrome > epinephrine. The structural requirements for inhibition are two free hydroxyl groups on the phenyl ring and an ethylamine side chain. Dopamine also inhibits the Triton X-100-solubilized microsomal guanylate cyclase after partial purification on DEAE-Sephacel. Neither chlorpromazine, propranolol, nor phentolamine at 20 microM effectively block the dopamine inhibition of partially purified soluble guanylate cyclase. Micromolar concentrations of the reducing agents dithiothreitol and glutathione also inhibit partially purified guanylate cyclase, but unlike these agents, catecholamines can inhibit whether added in the reduced or the oxidized forms. Inhibition of enzyme activity by micromolar concentrations of dopamine, adrenochrome, or dithiothreitol is rapidly reversed by dilution and the dopamine inhibition is competitive with MgGTP. Inhibition does not appear to involve covalent binding or to result from the ability of catecholamines to reduce the concentrations of oxygen or free radicals in solution.
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PMID:Catecholamine-sensitive guanylate cyclase from human caudate nucleus. 610 53

Cytochemical and biochemical characteristics of the surface membrane components of avian dystrophic muscle were examined. A Mg2+- or Ca2+-activated ("basic") adenosine triphosphate (ATPase) was localized cytochemically in fixed, intact dystrophic muscle slices in a medium containing Mg2+ or Ca2+, adenosine triphosphate (ATP), and 1 microM free Pb2+ to capture enzymatically released phosphate ions. Electron-dense staining precipitates were found to be associated with the plasmalemma and its tortuous invaginations, and the transverse components of the T-system membrane and its associated proliferated networks. Enzymatic analysis of microsomal fractions isolated from 7-day-old and 90-day-old normal and dystrophic muscle showed a complex behavior. Specific activity of "basic" ATPase decreased with maturity in normal and dystrophic animals. The specific activities of the surface membrane associated enzymes, leucyl beta-naphthylamidase, adenylate cyclase, and guanylate cyclase, remained at various elevated levels in the mature dystrophic animals, in contrast to the normal muscle, which showed decreases in the specific activity of all three enzymes with maturation. The persistent high levels in some but not all enzyme activities in 90-day-old dystrophic muscle indicates a complicated developmental pattern in the dystrophic chicken muscle.
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PMID:Biochemical and cytochemical comparison of surface membranes from normal and dystrophic chickens. 611 29

The microsomal fraction derived from the taenia caecum of guinea pigs was used as particulate guanylate cyclase preparation. The guanylate cyclase activity was not influenced by butyltrimethylammonium bromide and Ca2+ (4.0 to 24 X 10-7 M). The results suggest that the particulate guanylate cyclase is not activated by the drug-receptor interaction and also by the increase of intracellular Ca2+ concentration. Therefore, the increase of tissue level of cyclic GMP brought about in the guinea pig taenia caecum might be due to activation of soluble guanylate cyclase following the increase in the intracellular Ca2+ concentration.
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PMID:Physiological calcium ion concentration and a cholinergic drug on activity of particulate guanylate cyclase in guinea pig taenia caecum. 612 Oct 23

The intensity of lipid peroxidation in the microsomal membranes of rat liver influences the activity of "soluble" guanylate cyclase preparations. The increased production of lipid peroxidation products after addition of Fe(II) results in a rise the guanylate cyclase activity; alpha-tocopherol causes a decrease of this activity. An addition of fatty acids hydroperoxides at concentrations above 10(-6) M activates both the membrane-bound and "soluble" guanylate cyclase. It was shown that the hydroperoxide degradation products--carbonyl derivatives responsible for the activation, at concentrations above 10(-9) M provide for activation of the enzyme. The blocking of the SH-groups in "soluble" enzyme preparations by N-ethylmaleimide completely prevents the enzyme activation by carbonyl.
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PMID:[Activation of guanyl cyclase during lipid peroxidation of biomembranes]. 612 19

An examination of the effects of 250 or 1500 micrograms m-3 concentrations of diesel particulate from diesel exhaust on the activity of adenylate or guanylate cyclase was undertaken using liver and lung tissue of rats and guinea pigs. These membrane and cytosolic enzymes were selected to screen for functional or regulatory alterations in these tissues. The studies for adenylate cyclase used the microsomal membrane fraction of each tissue; for guanylate cyclase, the microsomal membrane and supernate fractions were used. Basal and fluoride-stimulated adenylate cyclase activity were measured. Basal and sodium azide-stimulated guanylate cyclase activity were also determined. The basal activity of rat liver adenylate cyclase is generally unchanged throughout 52 weeks of diesel exposure. Stimulated adenylate cyclase shows an age-related decrease for all animal treatments throughout the study. Changes in enzyme activity occurred at 12 weeks and 52 weeks after 1500 micrograms m-3 exposure. Soluble stimulated guinea pig lung guanylate cyclase was first increased (6 weeks) and then decreased (24 weeks) by diesel exposure. At 52 weeks, there was no change. The data suggest the following trends: (1) an increased basal adenylate cyclase in the rat lung; (2) an age-related decrease in adenylate cyclase activity in rat liver, and (3) a biphasic exposure-related response of soluble guanylate cyclase for the guinea pig lung during the first 24 weeks, but no change at 52 weeks. In general, however, these studies suggest that diesel exposure does not substantially alter either of these intracellular regulating enzymes.
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PMID:Effect of diesel particulate exposure on adenylate and guanylate cyclase of rat and guinea pig liver and lung. 614 72

It is generally accepted that organic nitrates act via vascular biotransformation to an activator of guanylyl cyclase (presumably NO), resulting in increased cyclic GMP accumulation and vascular smooth muscle relaxation. Previously, we have shown that cytochrome P450 can mediate the biotransformation of glyceryl trinitrate (GTN) and that at least a portion of this biotransformation results in the formation of an activator of guanylyl cyclase. To assess the role of the cytochrome P450 3A subfamily in this phenomenon, we treated male and female rats with dexamethasone (DEX) (150 mg/kg, i.p., daily for 3 days). Under anerobic conditions, hepatic microsomal biotransformation of GTN was increased three-fold in DEX-treated male rats compared with all other treatment groups. Incubation of aortic 100,000 x g supernatant fraction from untreated rats (as a source of guanylyl cyclase) with GTN and hepatic microsomes from all groups resulted in concentration-dependent increases in guanylyl cyclase activation. Microsomes from DEX-treated male and female rats demonstrated a significantly greater activation of guanylyl cyclase compared with microsomes from untreated males and females. Furthermore, GTN-induced guanylyl cyclase activation mediated by microsomes from DEX-treated male and female rats was markedly inhibited by a polyclonal antibody raised to rat CYP3A1. Since CYP3A2 is absent or very low in hepatic microsomes from DEX-treated adult female rats, this identifies CYP3A1 as an isoform capable of biotransforming GTN to an activator of guanylyl cyclase. Similarly, CYP2C11 was identified as an isoform capable of biotransforming GTN to an activator of guanylyl cyclase, since monoclonal antibody to CYP2C11 inhibited GTN-induced activation of guanylyl cyclase mediated by microsomes from control male rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of dexamethasone treatment on the biotransformation of glyceryl trinitrate: cytochrome P450 3A1 mediated activation of rat aortic guanylyl cyclase by glyceryl trinitrate. 773 42

Two classes of high-affinity binding sites for atrial natriuretic peptide (ANP) were identified in a microsomal fraction from human placental artery using radioligand binding methods and des[Gln18,Ser19,Gly20,Leu21,Gly22]ANP-(4-2 3) (C-ANP), a partially ring-deleted analogue of ANP, consistent with the presence of ANP-A and ANP-C receptor subtypes in this tissue [dissociation equilibrium constant (Kd) 58 pM, maximum binding capacity (Bmax) 14 fmol/mg membrane protein, and Kd 82 pM, Bmax 28 fmol/mg, respectively]. ANP activated a guanylate cyclase present in a particulate fraction from placental vascular tissue with half-maximal response at 104 pM and a maximal rate of guanosine 3',5'-cyclic monophosphate production of 62 pmol.min-1 x mg protein-1. Human brain natriuretic peptide was 10-fold less effective than ANP in stimulating guanylate cyclase activity, indicating the absence of the ANP-B receptor subtype. C-ANP had no effect on basal or ANP-stimulated enzyme activity. This report demonstrates the presence of functional (guanylate cyclase-coupled) receptors for ANP in the human fetoplacental vasculature, suggesting that ANP may have a role in the regulation of fetoplacental hemodynamics.
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PMID:Characterization of atrial natriuretic peptide receptors in human fetoplacental vasculature. 809 22

Cyclic adenosine diphosphate ribose (cADPR) is a potent endogenous calcium-mobilizing agent synthesized from beta-NAD+ by ADP-ribosyl cyclases in sea urchin eggs and in several mammalian cells (Galione, A., and White, A. (1994) Trends Cell Biol. 4, 431 436). Pharmacological studies suggest that cADPR is an endogenous modulator of Ca2+-induced Ca2+ release mediated by ryanodine-sensitive Ca2+ release channels. An unresolved question is whether cADPR can act as a Ca2+-mobilizing intracellular messenger. We show that exogenous application of nitric oxide (NO) mobilizes Ca2+ from intracellular stores in intact sea urchin eggs and that it releases Ca2+ and elevates cADPR levels in egg homogenates. 8-Amino-cADPR, a selective competitive antagonist of cADPR-mediated Ca2+ release, and nicotinamide, an inhibitor of ADP-ribosyl cyclase, inhibit the Ca2+-mobilizing actions of NO, while, heparin, a competitive antagonist of the inositol 1,4,5-trisphosphate receptor, did not affect NO-induced Ca2+ release. Since the Ca2+-mobilizing effects of NO can be mimicked by cGMP, are inhibited by the cGMP-dependent-protein kinase inhibitor, Rp-8-pCPT-cGMPS, and in egg homogenates show a requirement for the guanylyl cyclase substrate, GTP, we suggest a novel action of NO in mobilizing intracellular calcium from microsomal stores via a signaling pathway involving cGMP and cADPR. These results suggest that cADPR has the capacity to act as a Ca2+-mobilizing intracellular messenger.
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PMID:Nitric oxide-induced mobilization of intracellular calcium via the cyclic ADP-ribose signaling pathway. 863 83

Mobilization of intracellular Ca2+ stores is coupled to Ca2+ influx across the plasma membrane, a process termed capacitative Ca2+ entry. Capacitative Ca2+ entry was examined in cultured guinea pig enteric glia exposed to 100 microM ATP, an inositol trisphosphate-mediated Ca2+-mobilizing agonist, and to 1 microM thapsigargin, an inhibitor of microsomal Ca2+ ATPase. Both agents caused mobilization of intracellular Ca2+ stores followed by influx of extracellular Ca2+. This capacitative Ca2+ influx was inhibited by Ni2+ (88 +/- 1%) and by La3+ (87 +/- 1%) but was not affected by L- or N-type Ca2+ channel blockers. Pretreatment of glia with 100 nM phorbol 12-myristate 13-acetate for 24 h decreased capacitative Ca2+ entry by 48 +/- 2%. Chelerythrine (0.1-10 microM), a specific antagonist of protein kinase C (PKC), dose dependently inhibited capacitative Ca2+ entry. The nitric oxide synthase inhibitor NG-nitro-L-arginine (1 mM) decreased Ca2+ influx by 42 +/- 1%. Capacitative Ca2+ entry was inhibited to a similar degree by the guanylate cyclase inhibitor (1H-[1,2,4]oxadiazolo[4,3-a]quinoxalin-1-one). Capacitative Ca2+ entry occurs in enteric glial cells via lanthanum-inhibitable channels through a process regulated by PKC and nitric oxide.
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PMID:Capacitative Ca2+ entry in enteric glia induced by thapsigargin and extracellular ATP. 972 68

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