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)

The present studies were performed in order to examine the possible role of cyclic GMP-stimulated phosphodiesterase (cGMP-PDE) activity in the inhibitory action of the inflammatory peptide bradykinin on cyclic AMP (cAMP) accumulation in D384 cells. Bradykinin decreased the forskolin-stimulated cAMP accumulation in the presence of the phosphodiesterase inhibitor rolipram, and caused a transient 50% rise in cellular cGMP in the presence of the nonselective PDE inhibitor 3-isobutyl-1-methylxanthine (IBMX). Both basal and bradykinin-stimulated cGMP accumulation were about 8 times higher in the presence of IBMX than in the presence of rolipram. Sodium nitroprusside, which caused a 20-70-fold increase in cGMP levels reduced forskolin stimulated cAMP accumulation, whereas hydroxylamine, which maximally caused a 16-fold increase in cGMP, did not. 8-bromo-cGMP or dibutyryl cGMP had no effect on cAMP accumulation induced by forskolin. The inhibitory effect of nitroprusside was totally reversed by blocking the soluble guanylate cyclase activity by methylene blue treatment; however, the inhibitory action of bradykinin on cAMP accumulation was not changed by this treatment. Additionally, inhibition of nitric oxide synthesis, which is known to be regulated by Ca2+ and in turn stimulates cGMP production, by N omega-nitro-L-arginine (L-NAME) treatment did not alter the inhibitory effect of bradykinin on forskolin-induced cAMP accumulation. These results indicate that large increases in cGMP may regulate cAMP via cGMP-PDE whereas the small increase induced by bradykinin is insufficient and that cGMP is not involved in the inhibitory action of bradykinin on cAMP levels in D384 cells.
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PMID:Bradykinin inhibition of cyclic AMP accumulation in D384 astrocytoma cells. Evidence against a role of cyclic GMP. 128 20

The phenolic preservative, methylparaben (MPB), has in the past been demonstrated to harbour definite pharmacological effects. In an attempt to examine the possible central effects of MPB, notably on cyclic nucleotides and cyclic nucleotide phosphodiesterase (PDE; EC 3.1.4.17), rats were orally treated with the drug (0.4% in rat food) for 3 weeks with cortex extracts being used for the various determinations. Three isozymes were identified by DEAE-cellulose anion exchange chromatography, namely the calmodulin/calcium-stimulated form or PDE I (peak I), the cGMP-stimulated form or PDE II (peak II), and an independent form not affected by either calmodulin or cGMP also known as PDE IV (peak III). The presence of MPB induced a significant decrease in cortical cAMP, as well as strongly stimulating the activity of PDE IV (peak III). In addition, a small, yet significant, increase in cGMP levels was observed. Since no increase in cGMP hydrolysis was observed, we conclude that chronic ingestion of MPB induces a preference for cAMP hydrolysis, which was confirmed by the increase in PDE IV (peak III) activity. PDE IV is a membrane-bound, low Km PDE exhibiting high selectivity for cAMP hydrolysis. While there was an increase in cGMP, we failed to observe an increase in the activity of the cGMP-stimulated PDE (PDE II). These data are discussed with reference to the possible membrane effects of MPB allowing it to alter both the kinetic properties of PDE IV with the resultant effects on cAMP, as well as a means whereby it may activate guanyl cyclase and increase cGMP.
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PMID:Central effects of the preservative, methylparaben. In vivo activation of cAMP-specific phosphodiesterase and reduction of cortical cAMP. 132 56

We investigated the effect of aging on atrial natriuretic peptide (ANP)-induced relaxation and cyclic GMP (cGMP) formation in the rat thoracic aorta. In the aorta from young rats (4 weeks old), removal of the endothelium, and treatment with the nitric oxide synthesis inhibitor, NG-nitro-L-arginine methyl ester (L-NAME), the radical scavenger, hemoglobin (Hb), and the soluble guanylate cyclase inhibitor, methylene blue (MB), attenuated ANP-induced relaxation and considerably reduced ANP-stimulated cGMP formation. With increasing age of the rats, the ANP-induced relaxation and cGMP formation in endothelium-intact aorta decreased, and Hb, L-NAME and MB no longer inhibited the ANP-induced effects, irrespective of whether the endothelium was present or absent. In the arteries without endothelium, the age-associated reduction in ANP-induced relaxation was less than in arteries with endothelium. Aging also decreased the relaxation induced by the soluble guanylate cyclase activator, nitroprusside. Potentiation due to the cGMP-phosphodiesterase (cGMP-PDE) inhibitor, M&B 22948, of the ANP-induced relaxation was greater in aortas from old rats than in those from young rats, suggesting that the degradation of cGMP may be accelerated in old rats. These results suggest that the relaxant action of ANP on the thoracic aorta from young rats is in part modulated by endothelium-derived relaxing factor (EDRF/nitric oxide), which in turn activates soluble guanylate cyclase, thus elevating the cGMP level. Aging may decrease the ANP-induced relaxation and ANP-stimulated increase in cGMP level by decreasing the ability of endothelial cells to produce EDRF, by decreasing guanylate cyclase activity, and by enhancing cGMP-PDE activity.
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PMID:Possible mechanisms of age-associated reduction of vascular relaxation caused by atrial natriuretic peptide. 135 Sep 88

Metabolism of cGMP is critically important for the functioning of phototransduction in the mammalian retina. In rod and cone photoreceptors, two types of antagonistic enzymes, guanylate cyclases and cGMP phosphodiesterases, carefully balance the available amount of the intracellular messenger. Guanylate cyclase produces cGMP and phosphodiesterase rapidly hydrolyzes cGMP upon bleaching of the photopigment. Regulation of their activity in light and dark, influence of Ca++, and feed-back mechanisms are currently under intense investigation. A molecular analysis on both the gene and protein levels will contribute significantly to our understanding of their respective roles in phototransduction. The two types of enzymes have been characterized molecularly to a very different extent. Rod phosphodiesterase was purified to homogeneity almost fifteen years ago, but photoreceptor guanylate cyclase has evaded all attempts for molecular characterization. Characterization of retinal guanylate cyclase cDNA(s), however, will most likely be achieved in the near future. Cone PDE was shown to be a distinct enzyme, different from, but related to, the rod enzyme. Molecular cloning has provided sequence information of two of the three subunits of rod PDE; the small inhibitory subunit has been expressed in bacterial expression vectors, giving us an elegant tool for exploring mechanisms of activation and inhibition. The gene encoding the alpha subunit was shown to be a member of a large gene family of cyclic nucleotide phosphodiesterases, present in many eucaryotes ranging from unicellular organisms (yeast) to mammals. While much has been achieved, many questions remain to be answered. The beta subunit of rod phosphodiesterase has evaded complete molecular characterization, and its origin (one gene and posttranslational modification of the gene product generating alpha and beta, alternative splicing, or two separate genes with distinct gene products) has not been elucidated. Mechanisms of interaction of subunits, activation and inhibition, the active site(s) of the enzyme are undefined. Virtually nothing is known about the molecular organization of the photoreceptor guanylate cyclase(s). Recent cloning of two apparently unrelated mammalian guanylate cyclases, however, containing a common homologous domain signals increasingly rapid progress in this field.
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PMID:The molecular genetics of retinal photoreceptor proteins involved in cGMP metabolism. 167 36

An extra copy of chromosome 21, a small chromosome or a specific segment of it, is the cause of the disorder known as Down's syndrome (DS). Genes mapped to this chromosome include superoxide dismutase-1 (SOD-1) along with other enzymes. Gene dosage effects have been shown for some of these enzymes, including SOD-1. Increased SOD-1 has been suggested to stimulate the cGMP-forming enzyme, guanylate cyclase (GC). In the present study we have used amnion cells from DS subjects and normal subjects in order to indirectly test the effects of SOD-1 on the cGMP metabolism. We have measured the cAMP and cGMP content, SOD-1 activity, GC activity and cGMP phosphodiesterase (G-PDE) activity in amnion cells from DS subjects and normal subjects, respectively. The levels of cGMP in DS amnion cells were lower than in normal cells, although the SOD-1 activity was higher in DS amnion cells. Furthermore, the GC activity and the G-PDE activity were found to be lower in the trisomic cells. Our results do not support the suggestion that SOD-1 has a stimulatory effect on the GC activity.
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PMID:Cyclic guanosine monophosphate metabolism in human amnion cells trisomic for chromosome 21. 216 49

Effect of a novel compound, 14-ethoxycarbonyl-(3 alpha, 16 alpha-ethyl)-14,15-eburnamenine (vinpocetine, TCV-3B), on the cyclic nucleotide metabolism and in vitro response of a vascular strip was investigated. The concentration of vinpocetine producing relaxation of the canine basilar arterial strip induced by 30 microM arachidonate peroxide was 3 microM. Cyclic GMP content in the vascular strip increased dose-dependently by addition of vinpocetine, and 2.5-fold elevation of cyclic GMP content in the vascular strip was observed by 10 microM vinpocetine. Administration of vinpocetine concentrations ranging from 1 to 100 microM did not produce a significant increase in cyclic AMP of the vascular strip. Vinpocetine did not stimulate guanylate cyclase, but selectively inhibited Ca2+-calmodulin dependent phosphodiesterase (Ca2+-PDE). Increase in cyclic GMP by vinpocetine is due to inhibition of Ca2+-PDE because Ca2+-PDE is known to hydrolyze cyclic GMP preferentially. Our results suggest that vinpocetine, a selective Ca2+-PDE inhibitor, produces relaxation of the vascular strip by the increase in cyclic GMP.
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PMID:[Effect of vinpocetine (TCV-3B), a vasodilator agent, on cyclic nucleotide metabolism]. 613 34

1. The vasorelaxant activity of isoliquiritigenin, isolated from Dalbergia odorifera T, was investigated in the phenylephrine-precontracted rat aorta by measuring tension, guanylate and adenylate cyclase activities, guanosine 3':5'-cyclic monophosphate (cyclic GMP) and adenosine 3':5'-cyclic monophosphate (cyclic AMP) levels. 2. Isoliquiritigenin concentration-dependently relaxed rat aorta contracted with phenylephrine, KCl, U-46619, endothelin and 5-hydroxytryptamine, with EC50s of 7.4 +/- 1.6, 10.5 +/- 2.3, 14.3 +/- 3.3, 11.8 +/- 2.0 and 13.6 +/- 3.7 microM, respectively. 3. Isoliquiritigenin caused endothelium-independent relaxation of phenylephrine-precontracted rat aortic rings. Neither NG-monomethyl-L-arginine (L-NMMA) (an inhibitor of the L-arginine-NO pathway) nor oxyhaemoglobin (which binds NO) modified the relaxant effect of isoliquiritigenin. The relaxant action of isoliquiritigenin also persisted in intact aorta in the presence of indomethacin or glibenclamide. However, methylene blue, an inhibitor of soluble guanylate cyclase, abolished relaxation induced by isoliquiritigenin. 4. Incubation of rat aorta with isoliquiritigenin not only increased aortic cyclic GMP content but also caused small increases in aortic cyclic AMP content, and greatly potentiated the increases in cyclic AMP observed in the presence of forskolin. The maximum increase in cyclic GMP by isoliquiritigenin was reached earlier than the increase in cyclic AMP. This result suggests that the increases in cyclic GMP caused by isoliquiritigenin might stimulate the accumulation of cyclic AMP. 5. Concentration-dependent increases in soluble guanylate cyclase activity were observed in isoliquiritigenin (1-100 microM)- or sodium nitroprusside (SNP)-treated rat aortic smooth muscle cells, while adenylate cyclase activity was unchanged in isoliquiritigenin (100 microM)-treated cells. 6. Relaxation and cyclic AMP formation of rat aorta caused by isoliquiritigenin was potentiated in the presence of forskolin (10 nM), which had little effect when given alone. 2',5'-Dideoxyadenosine (DDA,200 microM), an adenylate cyclase inhibitor, diminished the relaxation and cyclic AMP formation of rat aorta by isoliquiritigenin only in the presence of forskolin. DDA did not affect the increases in cyclic GMP formation induced by isoliquiritigenin. These results suggest that elevated levels of cyclic GMP may mediate the majority of the relaxation of the phenylephrine-precontracted aorta induced byisoliquiritigenin, while the synergistic interaction with a low concentration of forskolin depends on an enhanced accumulation of cyclic AMP.7. Relaxation of phenylephrine-precontracted rat aorta and carbachol-precontracted guinea-pig trachea by rolipram (phosphodiesterase, PDE IV inhibitor) was markedly enhanced by isoliquiritigenin, while response to cilostamide (PDE III inhibitor) was not significantly changed by isoliquiritigenin.8. It is concluded that isoliquiritigenin exerts a vasorelaxant effect by activating soluble guanylatecyclase and increasing cyclic GMP. Synergistic effects of isoliquiritigenin and forskolin on muscle relaxation and cyclic AMP accumulation indicate that inhibition of cyclic AMP breakdown by cyclic GMP via the inhibition of PDE III (cyclic GMP-inhibited PDE) is the dominant mechanism.
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PMID:Vasorelaxant effect of isoliquiritigenin, a novel soluble guanylate cyclase activator, in rat aorta. 759 26

1. We have investigated the bronchodilator potential of type V phosphodiesterase (PDE V) inhibitors in anaesthetized ventilated guinea-pigs using the potent and selective PDE V inhibitor, SK&F 96231. We have compared its activity to that of salbutamol, the PDE III inhibitors, siguazodan and SK&F 95654 and to the PDE IV inhibitor rolipram. 2. Administered as an i.v. infusion SK&F 96231 (0.6 and 1 mg kg-1 min-1, i.v.) caused a slowly developing inhibition of histamine (100 nmol kg-1, i.v.)-induced bronchoconstriction and elevated tracheal cyclic GMP levels in the anaesthetized guinea-pig. SK&F 96231 (0.1 and 0.3 mg kg-1 min-1, i.v.) was without effect on histamine-induced bronchoconstriction. In the presence of a sub-threshold infusion of SNP (0.1 mumol kg-1 min-1, i.v.) there was a marked enhancement of SK&F 96231-induced inhibition of histamine responses such that at infusion rates that were ineffective alone, SK&F 96231 caused a > 50% inhibition of histamine responses. The stimulation of tracheal cyclic GMP accumulation by SK&F 96231 was also potentiated. 3. Administered directly into the airway, SK&F 96231 (300 micrograms in 5 mg lactose carrier) was largely without effect on histamine-induced bronchoconstriction (4.9 +/- 1.9% inhibition). In the presence of SNP (0.1 mumol kg-1 min-1, i.v.) or isosorbide dinitrate (200 micrograms administered by insufflation into the trachea) there was a marked potentiation of the inhibitory activity of SK&F 96231 (40 +/- 4% and 62 +/- 1.8% respectively). 4. Salbutamol and rolipram (3-300 microg by insufflation) caused a dose-related inhibition of histamine responses with a maximum of 91 +/- 2% and 59 +/- 10% respectively. The PDE III inhibitor, siguazodan,was without effect on histamine responses but they were reduced (27.7 +/- 4.8% at 300 microg) by SK&F95654. There was a marked enhancement of the inhibitory activity of rolipram in the presence of SK&F 95654.5. We conclude that SK&F 96231 has weak anti-spasmogenic activity in the guinea-pig in vivo, we suggest that this is primarily a consequence of a low endogenous guanylate cyclase activity in the airway. The potentiation of the anti-spasmogenic activity of SK&F 96231 by SNP suggests that a combination of PDE V inhibitor and guanylate cyclase agonist might provide significant bronchodilator activity.6. We have established that PDE IV inhibitors are bronchodilators when administered directly into the airway of anaesthetized guinea-pigs but that PDE III inhibitors are only weakly active. The marked enhancement of the inhibitory activity of rolipram by the PDE III inhibitor, SK&F 95654, indicates that inhibitors of both PDE III and PDE IV might offer greater potential as bronchodilators than inhibitors of either isoenzyme alone.
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PMID:Pulmonary effects of type V cyclic GMP specific phosphodiesterase inhibition in the anaesthetized guinea-pig. 803 6

Atriopeptin II and isoproterenol acted synergistically to inhibit the phenylephrine-induced contraction of aortic smooth muscle from Wistar-Kyoto (WKY) rats. Thus, a weakly inhibitory concentration of atriopeptin II (10 nM) caused a 5-fold decrease in the IC50 of isoproterenol from 169 nM to 32 nM, whereas a low concentration of isoproterenol (100 nM) increased the maximum inhibition attributable to atriopeptin II from 43% to 74%. Atriopeptin II (10 nM) increased the cGMP found in aortic smooth muscle and approximately doubled the accumulation of cAMP caused by isoproterenol. The results suggest that cGMP, formed by the action of atriopeptin II on receptor guanylyl cyclase (GC-A), may inhibit aortic cyclic nucleotide phosphodiesterase type III (PDE III) and that an increased accumulation of cAMP then mediates the observed synergism.
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PMID:Synergistic inhibitory effects of atriopeptin II and isoproterenol on contraction of rat aortic smooth muscle: roles of cGMP and cAMP. 811 9

We investigated the effects of nifedipine on cyclic GMP turnover and the pertinent enzyme activities in cultured coronary smooth muscle cells (SMC). Nifedipine at high concentrations slightly decreased basal soluble guanylate cyclase activity and inhibited the action of sodium nitroprusside (SNP) but had no effect on the particulate form of the enzyme. In contrast, nifedipine inhibited cyclic GMP hydrolysis by directly inhibiting the partially purified calmodulin-stimulated isoform of phosphodiesterase (type I PDE) with IC50 of 4.2 microM. Nifedipine > or = 1.0 microM enhanced cyclic GMP accumulation in response to 1.0 microM SNP, although nifedipine alone exerted no influence on cyclic GMP levels. Enhancement of cyclic GMP accumulation by nifedipine in response to SNP was not affected by BAY K 8644, a calcium channel agonist. These properties may be shared by other dihydropyridines since nicardipine and nisoldipine also inhibited type I PDE with similar IC50. However, some other structurally unrelated calcium channel blockers, diltiazem and verapamil, had little effect on cyclic nucleotide hydrolysis or on cyclic GMP accumulation in response to SNP. Nifedipine may synergistically enhance cyclic GMP accumulation in response to nitric oxide (NO)-releasing agents by directly inhibiting type I PDE in coronary SMC. Such effects of nifedipine may partly contribute to coronary vasodilation and prevention of coronary spasm in patients with ischemic heart disease.
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PMID:Effect of nifedipine on cyclic GMP turnover in cultured coronary smooth muscle cells. 856 20

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