EC:4.6.1.2 - FACTA Search

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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)

1. Nonadrenergic, noncholinergic (NANC) nerves mediate vasodilatation in guinea-pig pulmonary artery (PA) by both endothelium-dependent and endothelium-independent mechanisms. The transmitter(s) involved in the endothelium-independent pathway have not yet been identified. We have therefore investigated the possibility that nitric oxide (NO) and guanosine 3',5'-cyclic monophosphate (cyclic GMP) may mediate this neural vasodilator response in guinea-pig branch PA rings denuded of endothelium. 2. Electric field stimulation (EFS, 50 V, 0.2 ms) induced a frequency-dependent (1-24 Hz), tetrodotoxin-sensitive relaxation of the U44069-precontracted PA rings in the presence of adrenergic and cholinergic blockade. 3. The NO synthase inhibitors NG-monomethyl L-arginine (L-NMMA, 100 microM) and NG-nitro L-arginine methyl ester (L-NAME, 30 microM), and the guanylyl cyclase inhibitor methylene blue (5 microM) inhibited the EFS (16 Hz)-induced relaxation by 53 +/- 5, 74 +/- 9 and 82 +/- 9% respectively (n = 5-7, P < 0.01, compared with control rings). 4. Excess concentrations of L-, but not D-arginine (300 microM) completely reversed the inhibitory effect of L-NMMA. 5. The EFS-elicited relaxation (4 Hz) was potentiated by 1 microM zaprinast, a type V phosphodiesterase inhibitor which inhibits guanosine 3':5'-cyclic monophosphate (cyclic GMP) degradation, but was unaffected by 0.1 microM zardaverine, a type III/IV phosphodiesterase inhibitor which inhibits cyclic AMP degradation. 6. EFS (50 V, 0.2 ms, 16 Hz) induced a 3 fold increase in tissue cyclic GMP content, an action which was inhibited by L-NMMA (100 microM). 7. Pyrogallol (100microM), a superoxide anion generator, also inhibited the EFS-induced relaxation by 53 +/- 9%, and this effect was prevented by superoxide dismutase.8. Chemical sympathetic denervation with 6-hydroxydopamine had no effect on the relaxant response to EFS in the endothelium-denuded PA rings.9. In endothelium-denuded branch PA rings at resting tone, L-NMMA (100 microM) significantly augmented the adrenergic contractile response, an effect which was completely reversed by L-arginine,but not by D-arginine. In the same groups of vessel rings, L-NMMA had no significant effect on the matched contractile response to exogenous noradrenaline.10. These results suggest that NO may be released from intramural nerve endings other than adrenergic nerves (probably NANC nerves), and this leads to vasodilatation via activation of guanylyl cyclase.
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PMID:Role of nitric oxide and guanosine 3',5'-cyclic monophosphate in mediating nonadrenergic, noncholinergic relaxation in guinea-pig pulmonary arteries. 133 45

1. The inhibitory transmission in isolated preparations of cavernosal smooth muscle from human penis has been studied. 2. Electrical field stimulation (EFS; 2-64 pulses/train, 0.8 ms pulse duration, 10 Hz) evoked relaxation of preparations treated with guanethidine (50 microM). The EFS-evoked relaxations were atropine-resistant and tetrodotoxin-sensitive indicating their origin to be non-adrenergic, non-cholinergic (NANC) nerve stimulation. 3. EFS-evoked relaxation was attenuated dose-dependently by the nitric oxide (NO)-synthase inhibitor, L-NG-nitro arginine (L-NOARG; 0.3-100 microM) but not by D-NG-nitro arginine. The inhibitory effect of L-NOARG on transmission was antagonized by L-arginine (100 microM), a NO precursor, but not by D-arginine. 4. Incubation with methylene blue (10-50 microM), a known inhibitor of guanylate cyclase activation by NO, caused a concentration-related inhibition of EFS-evoked relaxation. 5. It is concluded that NANC nerve-evoked relaxation of human cavernosal smooth muscle is mediated by NO or a NO-like substance.
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PMID:The effect of inhibitors of nitric oxide biosynthesis and cyclic GMP formation on nerve-evoked relaxation of human cavernosal smooth muscle. 166 50

1. The putative role of vasoactive intestinal polypeptide (VIP) as the relaxant neurotransmitter in human cavernosal smooth muscle has been studied in isolated tissue preparations. 2. Consistent neurogenic relaxations were evoked by electrical field stimulation (EFS; 2-64 pulses/train, 0.8 ms pulse duration, 10 Hz). VIP (0.1-3 microM) relaxed cavernosal smooth muscle in a dose-dependent fashion. Relaxant responses to both EFS and VIP were reduced in tissue from impotent men. 3. Neurogenic relaxant responses were not diminished in the presence of the VIP-inactivating peptidase, alpha-chymotrypsin (alpha-CT, 2 units ml-1). In contrast VIP-induced relaxations were completely abolished. 4. Inhibition of nitric oxide synthase by NG-nitro-L-arginine (30 microM), and of guanylate cyclase by methylene blue (50 microM) caused highly significant reductions of neurogenic relaxant responses whereas VIP-evoked relaxations were unaffected. 5. It is concluded that VIP-evoked relaxations are not mediated by the NO-guanosine 3':5'-cyclic monophosphate (cyclic GMP) pathway and that VIP release is not essential for neurogenic relaxation of human cavernosal smooth muscle. VIP does not therefore act as the major relaxant neurotransmitter in this tissue.
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PMID:Evidence against vasoactive intestinal polypeptide as the relaxant neurotransmitter in human cavernosal smooth muscle. 809 18

1. The actions of 1H-[1,2,4]oxadiazolo[4,3,-a]quinoxalin-1-one (ODQ), a specific inhibitor of the soluble guanylate cyclase (SGC), were investigated in the rabbit anococcygeus muscle. 2. ODQ (1 nM-1 microM) inhibited in a concentration-dependent manner the relaxations induced by electrical field stimulation (EFS; 50 V, 0.3 ms duration, 1 Hz, for 5 s, every 120 s). 3. ODQ (1 microM) also inhibited the relaxations elicited by EFS (50 V, 0.3 ms duration, 1, 2.5, 5, 10 Hz, for 5 s) and sodium nitroprusside (SNP; 1 microM) without affecting those induced by isoprenaline (1 microM), atrial natriuretic peptide (ANP; 100 nM) or an analogue of cyclic GMP (8-pCPT-cyclic GMP; 500 microM). 4. ODQ (1 microM) inhibited the elevations in the concentration of cyclic GMP induced by SNP or EFS, but not by ANP. ODQ did not affect the concentrations of cyclic AMP. 5. Nitrergic relaxation in this tissue appears, therefore, to be mediated via activation of SGC.
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PMID:Inhibition of nitrergic relaxations by a selective inhibitor of the soluble guanylate cyclase. 873 86

1. The present study was designed to investigate whether potassium (K+) channels are involved in the relaxations to nitric oxide (NO) of pig intravesical ureteral preparations suspended in organ baths for isometric tension recordings. In ureteral strips treated with guanethidine (10(-5) M) and atropine (10(-7) M) to block adrenergic neurotransmission and muscarinic receptors, respectively, NO was either released from nitrergic nerves by electrical field stimulation (EFS, 0.5-10 Hz., 1 ms duration, 20 s trains), or exogenously-applied as an acidified solution of sodium nitrite (NaNO2, 10(-6)-10(-3) M). 2. Incubation with an inhibitor of guanylate cyclase activation by NO, methylene blue (10(-5) M) did not change the basal tension of intravesical ureteral strips but inhibited the relaxation induced by EFS or exogenous NO on ureteral preparations contracted with the thromboxane analogue U46619 (10(-7) M). 3. Incubation with charybdotoxin (3 x 10(-8) M) and apamin (5 x 10(-7) M), which are inhibitors of large and small conductance calcium (Ca2+)-activated K+ channels, respectively, did not modify basal tension or the relaxations induced by EFS and exogenous NO. Treatment with charybdotoxin or apamin plus methylene blue (10(-5) M) significantly reduced the relaxations to EFS and exogenous NO. However, in both cases the reductions were similar to the inhibition evoked by methylene blue alone. The combined addition of charybdotoxin plus apamin did not change the relaxations to EFS or exogenously added NO of the porcine intravesical ureter. 4. Cromakalim (10(-8) 3 x 10(-6) M), an opener of ATP-sensitive K+ channels, evoked a dose-dependent relaxation with a pD2 of 7.3 +/- 0.2 and maximum relaxant effect of a 71.8 +/- 4.2% of the contraction induced by U46619 in the pig intravesical ureter. The blocker of ATP-sensitive K+ channels, glibenclamide (10(-6) M), inhibited markedly the relaxations to cromakalim. 5. Glibenclamide (10(-6) M) had no effect on the basal tone of ureteral preparations but significantly reduced the relaxations induced by both EFS and exogenous NO. Combined treatment with methylene blue (10(-5) M) and glibenclamide (10(-6) M) did not exert an effect greater than that of methylene blue alone on either EFS- or NO-evoked relaxations of the pig ureter. 6. The present results suggest that NO acts as an inhibitory neurotransmitter in the pig intravesical ureter and relaxes smooth muscle through a guanylate cyclase-dependent mechanism which seems to favour the opening of glibenclamide-sensitive K+ channels.
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PMID:Involvement of a glibenclamide-sensitive mechanism in the nitrergic neurotransmission of the pig intravesical ureter. 905 Dec 98

1. Previous studies suggested that nitric oxide (NO) may cause hyperpolarization and relaxation of canine colonic smooth muscle by both cGMP-dependent and cGMP-independent mechanisms. This hypothesis was tested using 1H-[1,2,4]oxadiazolo[4,3-a]quinoxaline-1-one (ODQ), a novel inhibitor of NO-stimulated guanylate cyclase. 2. In the presence of histamine (30 microM), atropine and indomethacin (both at 1 microM), electrical field stimulation of intrinsic neurons (EFS; 5 Hz) produced inhibition of phasic contractile activity that is due to NO synthesis. ODQ caused a concentration-dependent block of this response (10 nM to 10 microM). 3. Inhibitory junction potentials (IJPs) due to NO synthesis were recorded from muscle cells located near the myenteric border of the circular muscle layer, using intracellular microelectrodes. IJPs were abolished by ODQ (1-10 microM). 4. EFS (10-20 Hz) produced frequency-dependent inhibition of electrical slow waves recorded from cells located near the submucosal surface of the circular muscle layer. This inhibition is due to NO synthesis, and it was abolished by ODQ (1-10 microM). 5. Hyperpolarization and relaxation produced by an NO donor, sodium nitroprusside, were abolished by ODQ pretreatment (1-10 microM). In contrast, inhibitory responses to 8-Br-cGMP (1 mM) were unaffected by ODQ. 6. ODQ alone (1-10 microM) had no significant effect on spontaneous electrical or phasic contractile activity. In tissues pre-treated with L-NAME (300 microM), ODQ decreased the amplitude of spontaneous or histamine-stimulated phasic contractile activity. 7. These results suggest that electrical and mechanical effects of endogenously released and exogenously applied NO in canine colon are largely due to cGMP synthesis by ODQ-sensitive soluble guanylate cyclase. No evidence to support a direct (cGMP-independent) mechanism of NO action was found. ODQ also appears to cause a non-specific inhibition of muscle contractile activity; however, this effect does not contribute to block of NO-dependent effects.
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PMID:Effects of a novel guanylate cyclase inhibitor on nitric oxide-dependent inhibitory neurotransmission in canine proximal colon. 940 90

1. We studied the effects of various K+ channel blockers on the vasodilator responses of guinea-pig isolated basilar arteries to nitrergic nerve stimulation, the nitric oxide (NO) donor sodium nitroprusside (SNP), and the membrane permeable guanosine-3',5'-cyclic monophosphate (cyclic GMP) analogue 8-bromo-cyclic GMP (8-Br-cyclic GMP). 2. In endothelium-denuded preparations which were contracted with prostaglandin F2alpha (1 microM), electrical field stimulation (EFS, 10 Hz for 30 s) produced a vasodilatation which was totally blocked by the nitric oxide synthase (NOS) inhibitor N(G)-nitro-L-arginine methyl ester L-NAME; 100 microM) (n=3) and by the selective NO-sensitive guanylate cyclase inhibitor 1H-[1,2,4]oxadiazolo[4,3,-a]quinoxalin-1-one (ODQ; 1 microM) (n=4). The vasodilator response to SNP (100 nM) was not reduced by L-NAME but was abolished by ODQ (1 microM) (n=4). 3. EFS-elicited vasodilatation was partly but significantly reduced by the non-selective K+ channel blockers tetraethylammonium (TEA, 1 and 3 mM) and 4-aminopyridine (4-AP, 3 mM), and by the large-conductance calcium-activated K+ channel (K(Ca) channel) blockers charybdotoxin (ChTX, 150 nM) and iberiotoxin (IbTX, 30 and 100 nM). In contrast, the ATP-sensitive K+ channel (K(ATP) channel) blocker glibenclamide (1-10 microM) and the small-conductance K(Ca) channel blocker apamin (100-500 nM) did not affect EFS-induced vasodilatation. 4. The vasodilator response elicited by SNP (10-100 nM) was significantly reduced by TEA (3 mM) and ChTX (150 nM) but not by apamin (500 nM) or glibenclamide (1 microM). The vasodilatation elicited by 8-Br-cyclic GMP (100 microM) was also reduced by TEA (3 mM) and ChTX (150 nM). 5. The results indicate that the vasodilatations induced by nitrergic nerve stimulation and the NO donor SNP in endothelium-denuded guinea-pig basilar artery depend on the formation of intracellular cyclic GMP. The increased cyclic GMP level activates large-conductance K(Ca) channels which partly mediate the vasodilator response. Neither K(ATP) channels nor apamin-sensitive small-conductance K(Ca) channels are involved in nitrergic transmitter-mediated vasodilatation.
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PMID:Role of potassium channels in the nitrergic nerve stimulation-induced vasodilatation in the guinea-pig isolated basilar artery. 948 60

1. The aim of the present study was to explore the contribution of adrenergic, sensory and nitrergic innervations to the inhibitory effects of the beta2-adrenoceptor agonist clenbuterol on responses to electrical field stimulation (EFS, 200 mA, 0.3 ms, 1-16 Hz, for 30 s, at 1 min interval) in rat mesenteric artery segments without endothelium and the possible involvement of adrenergic, sensory and nitrergic innervations. 2. Clenbuterol (1 microM) reduced EFS-induced contractile responses, and this effect was reversed by the beta-antagonist propranolol (1 microM) (contraction at 16 Hz expressed as % of 75 mM K+-induced contraction was: control, 69+/-9, clenbuterol, 31+/-6, n=13, P<0.001; control, 83+/-5, clenbuterol+propranolol 70+/-7, n=11, P>0.05). 3. In arteries preincubated with [3H]-noradrenaline (NA), clenbuterol did not modify the tritium overflow evoked by EFS (200 mA, 0.3 ms, 4 Hz, for 60 s; ratio between tritium release in the second and first stimuli was: control, 0.80+/-0.05 and clenbuterol added before second stimulus, 0.91+/-0.11, n=5, P>0.05). 4. The nitric oxide (NO) synthase inhibitors NG-monomethyl-L-arginine (L-NMMA) and NG-nitro-L-arginine methyl ester (L-NAME) (10 and 100 microM), and the guanylate cyclase inhibitor methylene blue (10 microM) increased the contractions caused by EFS (% contraction at 16 Hz, control, 81+/-7, n=26; 10 microM L-NMMA, 109+/-12, n=8, P<0.05; methylene blue, 119+/-6, n=6, P<0.05). However, these contractions were decreased by the NO synthase substrate L-arginine 10 microM (14+/-6%, n=6, P<0.001), but not modified by either the sensory neurones toxin capsaicin (0.5 microM, 75+/-6%, n=6, P>0.05) or the protein synthesis inhibitor cycloheximide (10 microM, 83+/-6%, n=8, P>0.05). None of these drugs altered the concentration-response curves to exogenous NA (n=7). 5. Pretreatment with capsaicin or cycloheximide did not modify the reduction of the EFS-evoked contraction provoked by clenbuterol. However the presence of L-NMMA (or L-NAME) or methylene blue did decrease the effect of clenbuterol (% contraction at 16 Hz, clenbuterol, 31+/-6, n=13; clenbuterol+10 microM L-NMMA, 93+/-11, n=8, P<0.05; clenbuterol+methylene blue, 90+/-7, n=6, P<0.05). 6. These results suggest that the reduction caused by clenbuterol in the contraction induced by EFS in rat mesenteric arteries seems to be mediated by NO release, through the activation of beta2-adrenoceptors probably present on nitrergic nerves.
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PMID:Effect of clenbuterol on non-endothelial nitric oxide release in rat mesenteric arteries and the involvement of beta-adrenoceptors. 964 70

1. Changes in membrane potential following electrical field stimulation (EFS; 1, 2 and 5 pulses at 5 Hz, 0.5 ms duration, 60-80 V) of non-adrenergic non-cholinergic (NANC) inhibitory nerves in the rat isolated anococcygeus muscle were measured using standard intracellular recording techniques. Resting membrane potential ranged between -60 and -70 mV. 2. In the presence of guanethidine (30 microM), atropine (1 microM), propranolol (1 microM) and phentolamine (0.05 microM) to establish NANC conditions, the membrane potential depolarized to between -40 and -50 mV. Under these conditions, EFS caused pulse-dependent, tetrodotoxin (1 microM)-sensitive biphasic inhibitory junction potentials (IJPs) comprising a fast onset and time-to-peak phase followed by a second, slower phase that delayed repolarization. The duration of NANC IJPs ranged between 10 and 20 s. 3. Inhibition of small-conductance Ca2+-activated K+ channels with apamin (0.1 microM) selectively blocked the first fast phase of the NANC IJP, whereas inhibitors of large-conductance Ca2+-activated K+ channels (charybdotoxin and iberiotoxin) and ATP-sensitive K+ channels (glibenclamide) all had no effect on NANC IJPs. 4. Both the nitric oxide synthase inhibitor N G-nitro-L-arginine (L-NOARG; 100 microM) and the inhibitor of soluble guanylate cyclase 1-H-oxodiazol-[1,2,4]-[4,3-a] quinoxaline-1-one (ODQ; 10 microM) had no effect on the first fast phase of the NANC IJP. Each treatment, however, markedly inhibited the slow phase with the duration of the IJP reduced to between 1 and 3 s. The L-NOARG-resistant fast phase of the NANC IJP was almost abolished by the subsequent addition of apamin (0.1 microM). 5. In conclusion, the present study demonstrates unequivocal NANC nerve-mediated biphasic IJPs in the rat isolated anococcygeus. We propose that nitric oxide (NO), via activation of cGMP-dependent K+ channels, and a non-NO inhibitory factor which activates apamin-sensitive K+ channels contribute to NANC nerve-evoked IJPs in the rat anococcygeus.
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PMID:Apamin- and nitric oxide-sensitive biphasic non-adrenergic non-cholinergic inhibitory junction potentials in the rat anococcygeus muscle. 982 21

1. The gastric adaptation reflex is activated by the release of non-adrenergic, non-cholinergic (NANC) inhibitory transmitters, including nitric oxide (NO) and vasoactive intestinal polypeptide (VIP). The role of NO in this reflex is not disputed, but some investigators suggest that NO synthesis is stimulated by VIP in post-junctional cells or in nerve terminals. We investigated whether the effects of these transmitters are mediated by independent pathways in the canine gastric fundus. 2. VIP and NO produced concentration-dependent relaxation of the canine fundus. Nomega-nitro-L-arginine (L-NNA) reduced relaxation induced by electrical field stimulation (EFS; 0.5-8 Hz), but had no effect on responses to exogenous VIP and sodium nitroprusside (SNP, 10 microM). 3. Oxyhaemoglobin reduced relaxations produced by EFS and SNP. Oxyhaemoglobin also reduced relaxation responses to low concentrations of VIP (<10 nM), but these effects were non-specific and mimicked by methaemoglobin which had no effect on nitrergic responses. 4. A blocker of guanylyl cyclase, 1H-[1,2,4]oxidiazolo [4,3,-a]quinoxalin-1-one, (ODQ) inhibited responses to EFS, SNP and DETA/NONOate (an NO.donor), but had no effect on responses to VIP. cis-N-(2-phenylcyclopentil)-azacyclotridec-1en-2-amine monohydrochloride (MDL 12,330A), a blocker of adenylyl cyclase, reduced responses to EFS, VIP and forskolin, but did not affect responses to SNP. 5. Levels of cyclic GMP were enhanced by the NO donor S-nitroso-n-acetylpenicillamine (SNAP) but were unaffected by VIP (1 microM). The increase in cyclic GMP in response to SNAP was blocked by ODQ. 6. The results suggest that at least two transmitters, possibly NO and VIP, mediate relaxation responses in the canine fundus. NO and VIP mediate responses via cyclic GMP- and cyclic AMP-dependent mechanisms, respectively. No evidence was found for a serial cascade in which VIP is coupled to NO-dependent responses.
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PMID:Parallel pathways mediate inhibitory effects of vasoactive intestinal polypeptide and nitric oxide in canine fundus. 1032 85

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