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)

1. In rat isolated hepatic arteries contracted with phenylephrine, acetylcholine and the calcium ionophore A23187 each elicit endothelium-dependent relaxations, which involve both nitric oxide (NO) and endothelium-derived hyperpolarizing factor (EDHF). However, the contribution of prostanoids to these responses, and the potential interaction between EDHF and other endothelium-derived relaxing factors have not been examined. 2. In the presence of the NO synthase inhibitor N(G)-nitro-L-arginine (L-NOARG, 0.3 mM) and a mixture of charybdotoxin (0.3 microM) and apamin (0.3 microM), inhibitors of the target potassium (K) channel(s) for EDHF, acetylcholine and A23187 each induced a concentration-dependent and almost complete relaxation, which was abolished in the additional presence of indomethacin (10 microM). Thus, in addition to EDHF and NO, a relaxing factor(s) generated by cyclo-oxygenase (COX) contributes to endothelium-dependent relaxation in the rat hepatic artery. 3. The resting membrane potentials of endothelium-intact and endothelium-denuded vascular segments were -57 mV and -52 mV, respectively (P>0.05). In intact arteries, the resting membrane potential was not affected by L-NOARG plus indomethacin, but reduced to -47 mV in the presence of charybdotoxin plus apamin. Acetylcholine and A23187 (10 microM each) elicited a hyperpolarization of 13 mV and 15 mV, respectively. The hyperpolarization induced by these agents was not affected by L-NOARG plus indomethacin (12 mV and 14 mV, respectively), but reduced in the presence of charybdotoxin plus apamin (7 mV and 10 mV, respectively), and abolished in the combined presence of charybdotoxin, apamin and indomethacin. 4. The NO donor 3-morpholino-sydnonimine (SIN-1) induced a concentration-dependent relaxation, which was unaffected by charybdotoxin plus apamin, but abolished by the selective soluble guanylate cyclase inhibitor 1H-[1,2,4]oxadiazolo[4,3-a]quinoxaline-1-one (ODQ, 10 microM). SIN-1 (10 microM) did not alter the resting membrane potential in endothelium-denuded vascular segments. 5. The COX-dependent relaxation induced by acetylcholine was abolished following exposure to 30 mM KCl, but unaffected by glibenclamide (10 microM). The prostacyclin analogue iloprost induced a concentration-dependent relaxation, which was also abolished in 30 mM KCl and unaffected by the combined treatment with glibenclamide, charybdotoxin and apamin. Iloprost (10 microM) induced a glibenclamide-resistant hyperpolarization (8 mV with and 9 mV without glibenclamide) in endothelium-denuded vascular segments. 6. Exposure to SIN-1 or iloprost did not affect the EDHF-mediated relaxation induced by acetylcholine (i.e. in the presence of L-NOARG and indomethacin). Replacement of L-NOARG with the NO scavenger oxyhaemoglobin (10 microM) or the soluble guanylate cyclase inhibitor ODQ (10 microM) or methylene blue (10 microM), which all significantly inhibited responses to endothelium-derived NO, did not affect the acetylcholine-induced relaxation in the presence of indomethacin, indicating that endogenous NO also does not suppress EDHF-mediated responses. 7. These results show that, in addition to EDHF and NO, an endothelium-derived hyperpolarizing factor(s) generated by COX contributes significantly to endothelium-dependent relaxation in the rat heptic artery. Neither this factor nor NO seems to regulate EDHF-mediated responses. Thus, EDHF does not serve simply as a 'back-up' system for NO and prostacyclin in this artery. However, whether EDHF modulates the NO and COX pathways remains to be determined.
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PMID:Interactions between endothelium-derived relaxing factors in the rat hepatic artery: focus on regulation of EDHF. 969 86

1. Intracellular microelectrode recordings were performed to investigate the membrane K+ conductances involved in smooth muscle hyperpolarization of lymphatic vessels in the guinea-pig mesentery. 2. Nitric oxide (NO), released either by the endothelium after acetylcholine (ACh; 10 microM) stimulation or by sodium nitroprusside (SNP; 50-100 microM), hyperpolarized lymphatic smooth muscle. These responses were inhibited with the guanylyl cyclase inhibitor 1H-[1,2,4]oxadiazole [4,3-a]quinoxalin-1-one (ODQ, 10 microM). 3. ACh and SNP-induced hyperpolarizations were inhibited (by about 90%) upon application of the ATP-sensitive K+(K(ATP)) channel blocker, glibenclamide (10 microM), or with 4-aminopyridine (2.5 mM), but were not affected by the Ca2+-activated K+ channels blocker, penitrem A (100 nM). 4. Hyperpolarization caused by the K+ channel opener, cromakalim (0.1-10 microM), isoprenaline (0.1 microM) or forskolin (0.5 microM) were all significantly blocked by glibenclamide. 5. Hyperpolarization evoked by ACh and SNP were inhibited with N-[2-(p-bromociannamylamino)-ethyl]-5-isoquinolinesulfonamide-dich loride (H89, 10 microM), suggesting the involvement of cyclic AMP dependent protein kinase (PKA). 6. These results suggest that K(ATP) channels play a central role in lymphatic smooth muscle hyperpolarization evoked by a NO-induced increase in cyclic GMP synthesis, as well as by beta-adrenoceptor-mediated production of cyclic AMP. Interestingly, both pathways lead to K(ATP) channels opening through the activation of PKA.
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PMID:ATP-sensitive K+ channels in smooth muscle cells of guinea-pig mesenteric lymphatics: role in nitric oxide and beta-adrenoceptor agonist-induced hyperpolarizations. 977 38

1. Vascular endothelium plays a pivotal role in the control of vascular tone through the release of vasoactive factors such as EDRF (NO). 2. The aim of this study was to investigate whether the addition of exogenous L-citrulline, the byproduct of the NO-synthesis, could relax vascular smooth muscle. 3. L-citrulline relaxed both endothelium-denuded and endothelium-intact rabbit aortic rings precontracted with noradrenaline 10(-6) M (maximum relaxations induced by L-citrulline 10(-8) M were 74.1+/-5.2% vs 51.3+/-2.8% in endothelium-denuded and endothelium-intact arteries, respectively). 4. This relaxant effect was enhanced by zaprinast (a phosphodiesterase type 5 inhibitor) and inhibited by HS-142-1 (a particulate guanylate cyclase inhibitor) and by apamin (a K(Ca)-channel blocker). 5. L-citrulline (10(-13)-10(-8) M) increased cGMP levels in aortic rings (maximum value with L-citrulline 10(-8) M was 0.165+/-0.010 pmol cGMP mg(-1) of tissue vs 0.038+/-0.009 pmol mg(-1) of tissue in basal). 6. L-citrulline as well as NO were released from endothelial cells in culture stimulated with ACh. The values were 6.50+/-0.50 microM vs 2.30+/-0.20 microM (stimulated with ACh and basal respectively) for L-citrulline and 4.22+/-0.10 microM vs 0.87+/-0.26 microM (stimulated with ACh and basal respectively) for NO. 7. These results suggest that L-citrulline could be released together with NO from endothelium and may have actions complementary to those of NO in the control of vascular smooth muscle relaxation.
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PMID:Relaxant effects of L-citrulline in rabbit vascular smooth muscle. 977 59

Endothelium-derived nitric oxide (EDNO) plays a pivotal role in regulating pulmonary circulation. To determine whether there is a heterogeneity in EDNO-mediated responses of different sized pulmonary vessels, we studied small and large isolated pulmonary arteries of newborn lambs (diameter, 0.4-0.7 and 1.5-2.5 mm, respectively). The isometric tension of vessel rings were recorded while suspended in organ chambers filled with modified Krebs-Ringer bicarbonate solution (95% O2-5% CO2, 37 degrees C). In vessels preconstricted with norepinephrine, acetylcholine and bradykinin induced a greater relaxation of small pulmonary arteries than of large pulmonary arteries. Acetylcholine, bradykinin, and nitric oxide also induced a greater increase in cGMP content in small arteries than in large ones. The responses to acetylcholine and bradykinin were endothelium-dependent and inhibited by nitro-L-arginine, an inhibitor of nitric oxide synthase. In vessels without endothelium, the response to nitric oxide was inhibited by 1H-[1,2,4]oxadiazolo[4,3-a]quinoxalin-1-one, an inhibitor of soluble guanylate cyclase. The activity of soluble guanylyl cyclase of small arteries was greater than that of large arteries under basal conditions and after stimulation with S-nitroso-N-acetylpenicillamine, a nitric oxide donor. These results demonstrate that heterogeneity exists in EDNO-mediated relaxation of small and large pulmonary arteries in newborn lambs. A difference in the soluble guanylate cyclase activity of vascular smooth muscle may have contributed to this phenomenon.
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PMID:Heterogeneity in endothelium-derived nitric oxide-mediated relaxation of different sized pulmonary arteries of newborn lambs. 980 54

This study examines the effect of nitric oxide (NO) on cholinergic transmission in strips of canine colonic circular muscle in which neural plexus-pacemaker regions had been removed. Electrical field stimulation gave rise to atropine- and TTX-sensitive excitatory junction potentials (EJPs), the amplitude of which were frequency dependent. In 47% of control muscles, the EJP was followed by an inhibitory junction potential (IJP), whereas in the presence of atropine all preparations exhibited only IJPs. The NO synthase inhibitor Nomega-nitro-L-arginine (L-NNA), the guanylyl cyclase inhibitor 1H-[1,2,4]-oxadiazolo-[4,3-a]-quinoxaline-1-one (ODQ), and the protein kinase G (PKG) antagonist Rp-8-bromo-PET-cGMPS all significantly increased EJP amplitude and reduced or abolished IJPs. The potentiation of EJPs by L-NNA was reversed by the NO donors sodium nitroprusside (SNP) and S-nitroso-N-acetylpenicillamine in a manner blocked by ODQ. [14C]ACh overflow was also measured to evaluate the possible prejunctional effects of NO. Both norepinephrine and TTX significantly decreased [14C]ACh overflow; however, L-NNA, ODQ, and SNP were without effect. These data suggest that both cholinergic and nitrergic motoneurons functionally innervate the interior of the circular muscle layer. The inhibitory actions of NO on cholinergic transmission appear to be post- rather than prejunctional and to involve guanylyl cyclase as well as possibly PKG.
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PMID:Modulation of cholinergic neuromuscular transmission by nitric oxide in canine colonic circular smooth muscle. 984 69

1. The aim of the present study was to test in vitro if NO acts through a cyclic GMP-independent mechanism to activate Ca2+-dependent potassium channels (K+(Ca)), leading to membrane hyperpolarization and vasodilation in rat tail artery. 2. Acetylcholine and sodium nitroprusside stimulated a significant increase in cyclic GMP (190+/-23 and 180+/-15 pmol/g, respectively) compared with agonist-free conditions (132+/-15 and 130+/-15 pmol/g, respectively); these agonist-mediated increases in cyclic GMP were completely abolished by treatment with the guanylate cyclase inhibitor methylene blue (122+/-10 and 60+/-8 pmol/g, respectively). 3. In contrast, relaxation to acetylcholine (10(-7) mol/l; 61+/-3%) and sodium nitroprusside (10(-8) mol/l; 97+/-1%) were significantly, but not completely, attenuated by methylene blue (30+/-5 and 79+/-3%, respectively); maximum relaxation to sodium nitroprusside (10(-7) mol/l) was unaffected by methylene blue. 4. Depolarization-induced contraction of vessels with KCl inhibited relaxation to both acetylcholine (10(-7) mol/l; 18+/-4%) and sodium nitroprusside (10(-8) mol/l; 57+/-7%). Furthermore, the specific K+(Ca) antagonist charybdotoxin significantly inhibited relaxation to sodium nitroprusside (10(-8) mol/l; 52+/-7%). 5. An additive inhibitory effect on relaxation to sodium nitroprusside (10(-8) mol/l) was observed with a combination of methylene blue and KCl (26+/-6%) or charybdotoxin (34+/-3%). 6. These data suggest that NO stimulates membrane hyperpolarization via K+(Ca) activation, in addition to guanylate cyclase, to cause relaxation in rat tail artery.
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PMID:Cyclic GMP-independent mechanisms of nitric oxide-induced vasodilation. 988 54

The objectives of the present study were to 1) examine mechanisms involved in endothelium-dependent responses of coronary arteries from normal mice and 2) determine whether vascular responses of coronary arteries are altered in two genetic models of hypercholesterolemia [apolipoprotein E (apoE)-deficient mice (apoE -/-) and combined apoE and low-density lipoprotein receptor (LDLR)-deficient mice (apoE + LDLR -/-)]. Plasma cholesterol levels were higher in both apoE -/- and apoE + LDLR -/- compared with normal mice on normal and high-cholesterol diets (normal chow: normal 110 +/- 5 mg/dl, apoE -/- 680 +/- 40 mg/dl, apoE + LDLR -/- 810 +/- 40 mg/dl; high-cholesterol chow: normal 280 +/- 60 mg/dl, apoE -/- 2,490 +/- 310 mg/dl, apoE + LDLR -/- 3,660 +/- 290 mg/dl). Coronary arteries from normal (C57BL/6J), apoE -/-, and apoE + LDLR -/- mice were isolated and cannulated, and diameters were measured using videomicroscopy. In normal mice, vasodilation in response to ACh and serotonin was markedly reduced by 10 microM Nomega-nitro-L-arginine (an inhibitor of nitric oxide synthase) or 20 microM 1H-[1,2,4]oxadiazolo[4,3-a]quinoxalin-1-one (ODQ; an inhibitor of soluble guanylate cyclase). Vasodilation to nitroprusside, but not papaverine, was also inhibited by ODQ. Dilation of arteries from apoE -/- and apoE + LDLR -/- mice on normal diet in response to ACh was similar to that observed in normal mice. In contrast, dilation of arteries in response to serotonin from apoE -/- and apoE + LDLR -/- mice was impaired compared with normal. In arteries from both apoE -/- and apoE + LDLR -/- mice on high-cholesterol diet, dilation to ACh was decreased. In apoE + LDLR -/- mice on high-cholesterol diet, dilation of coronary arteries to nitroprusside was increased. These findings suggest that dilation of coronary arteries from normal mice in response to ACh and serotonin is dependent on production of nitric oxide and activation of soluble guanylate cyclase. Hypercholesterolemia selectively impairs dilator responses of mouse coronary arteries to serotonin. In the absence of both apoE and the LDL receptor, high levels of cholesterol result in a greater impairment in coronary endothelial function.
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PMID:Agonist-specific impairment of coronary vascular function in genetically altered, hyperlipidemic mice. 1019 81

1. We hypothesized that acetylcholine would attenuate the metabolic effect of increasing cAMP and decreasing cGMP on cardiac myocyte O2 consumption (VO2) in dog, and this effect would be altered in left ventricular hypertrophy (LVH) produced by aortic valve placation. 2. Steady-state VO2 of a suspension of ventricular myocytes from control (n = 7) and LVH (n = 6) dogs was measured by Clark O2 electrodes during electrical stimulation (5 ms, 1 Hz, in 2 mm Ca2+). Cyclic AMP and cyclic GMP were determined by radioimmunoassay. Cellular cAMP was increased by forskolin (adenylate cyclase stimulator) and cGMP was decreased by LY83583 (guanylate cyclase inhibitor) both at 10(-7,-6,-5,-4) M with and without 10(-6) M acetylcholine. 3. Baseline cGMP level in LVH (62 +/- 10 fmol 10(-5) myocytes) was significantly greater than that in control (20 +/- 3), although the myocyte VO2 (356 +/- 39 nL O2 min(-1) 10(-5) myocytes) and cAMP levels (3.9 +/- 0.6 nmol 10(5-1) myocytes) were similar to control (312 +/- 23 and 6.9 +/- 3.1). 4. Forskolin increased myocyte cAMP in both control and LVH myocytes and increased VO2 by 51 +/- 13 in control and 91 +/- 65 in LVH myocytes. LY83583 decreased myocyte cGMP levels in control and LVH myocytes and increased VO2 by 128 +/- 57 in control and 43 +/- 26 in LVH myocytes. 5. Acetylcholine altered the cAMP, cGMP, and VO2 levels in control to 2.4 +/- 0.4, 30 +/- 3 and 213 +/- 27 and LVH to 2.5 +/- 0.3, 85 +/- 9 and 261 +/- 32. Acetylcholine attenuated the maximal effects of forskolin on VO2 to 32 +/- 27 in control and 66 +/- 56 in LVH myocytes. Acetylcholine also decreased the maximal effects of LY83583 to 82 +/- 50 in control and 19 +/- 19 in LVH myocytes. 6. The positive metabolic effects of both increases in myocyte cAMP and decreases in cGMP were blunted by acetylcholine. There was a significant increase in myocyte cGMP with forskolin in LVH myocytes. Acetylcholine decreased the increased myocyte VO2 caused by elevated cAMP or decreased cGMP in both control and LVH myocytes, although the absolute decrease in cAMP was reduced and the absolute values of cGMP were higher in LVH myocytes.
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PMID:Altered effects of acetylcholine on cyclic AMP and GMP induced changes in O2 consumption of hypertrophic dog cardiac myocytes. 1038 66

1. Mice lacking the apolipoprotein E and low density lipoprotein receptor genes (E degrees xLDLR degrees ) develop atherosclerosis. The aim of this study was to investigate changes in endothelium-dependent vasodilation and vasomotion in thoracic aortic rings of E degrees xLDLR degrees mice. 2. K+-induced contractions of the aorta from E degrees xLDLR degrees mice were stronger than those from control mice. The sensitivity of E degrees xLDLR degrees aorta to phenylephrine (PE) was decreased but the maximal contractions were increased. Acetylcholine-induced, but not sodium nitroprusside-induced, relaxations of E degrees xLDLR degrees aorta was decreased. 3. PE induced rhythmic activity in both E degrees xLDLR degrees and control aorta but the amplitude was larger in E degrees xLDLR degrees than in control mice. PE-induced rhythmic activity in both E degrees xLDLR degrees and control aorta was augmented by increase in extracellular Ca2+-concentration, but was abolished by removal of the endothelium, the nitric oxide (NO) synthase inhibitor N-nitro-L-arginine methyl ester, the guanylate cyclase inhibitor LY-83583, high K+ solution and ryanodine. 4. 4-Aminopyridine, a voltage-dependent potassium (KV) channel blocker, increased basal tension and induced rhythmic activity in E degrees xLDLR degrees aorta but not in control aorta. 5. The Ca2+-activated potassium (KCa) channel blockers tetraethylammonium and charybdotoxin abolished PE-induced rhythmic activity in E degrees xLDLR degrees aorta. 6. In conclusion, opening of Kv channels in E degrees xLDLR degrees mice aorta is reduced and it is susceptible to be depolarized resulting in Ca2+ entry. The vascular smooth muscle is then dependent on compensatory mechanisms to limit Ca2+-entry. Such mechanisms may be decreased sensitivity to vasoconstrictors, or increased opening of KCa channels by NO via a cyclic GMP-dependent mechanism.
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PMID:Enhanced phenylephrine-induced rhythmic activity in the atherosclerotic mouse aorta via an increase in opening of KCa channels: relation to Kv channels and nitric oxide. 1051 43

The underlying mechanisms of acetylcholine-induced intestinal relaxation in the lizard Liolaemus tenuis tenuis are still unknown. By using a classical model of intestinal recording of isometric contraction and relaxation in conjunction with specific pharmacological tools, this article studies the possible influence of EDRF/NO and nicotinic ganglionar receptors on the Ach-induced relaxation in an effort to elucidate the probable mechanisms involved in ACh effect. It was observed that the relaxation of the lizard intestine elicited by ACh (10(-7) - 4 x 10(-4) M) was not affected by hexametonium (5 x 10(-4) M) or tetrodotoxin (10(-6) M). Nicotine (10(-7) to 10(-4) M) induced relaxation was significantly antagonized by hexametonium; however, it was not influenced by tetrodotoxin. These results allow us to discard a neuronal pathway in cholinergic-induced relaxation, suggesting a more direct cholinergic effect on the smooth muscle, perhaps mediated by an unknown substance released by some specialized tissue. N-nitro-L-arginine, used to block NO-synthase and NO production, induced no changes in ACh-induced relaxation. Methylene blue, a soluble guanylate cyclase inhibitor, induced no changes in ACh-induced relaxation. These results allow us to discard a probable role of EDRF/nitric oxide in the ACh-induced relaxation of lizard small intestine, providing evidence that this mechanism could be different from that reported in other species.
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PMID:Effect of cholinergic agonists on muscular tonus of the lizard small intestine and esophagus. 1053 Mar 39

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