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. It has been recently reported that angiotensin II can enhance atrial natriuretic factor-stimulated cyclic GMP release from brain capillary endothelial cells and stimulate directly the release of cyclic GMP by Neuro 2a cells. A possible mechanism mediating such cyclic GMP release could be via the production of nitric oxide and the resultant stimulation of soluble guanylate cyclase. 2. The ability of angiotensin II, atrial natriuretic factor and c(4-23) atrial natriuretic factor to stimulate nitric oxide production was investigated in primary cultures of human proximal tubular cells. 3. Freshly prepared human proximal tubular cells were seeded onto 6-well plates and allowed to reach confluence. Cells were then incubated with incremental concentrations of either angiotensin II, atrial natriuretic factor or c(4-23) atrial natriuretic factor alone for 1, 4, 12 or 24h or in the presence of the nitric oxide synthase inhibitor NG-monomethyl-L-arginine. Angiotensin II was also incubated with human proximal tubular cells in the presence of the AT1 and AT2 receptor antagonists DuP 753 and PD 123319. 4. Incubation of human proximal tubular cells with angiotensin II, atrial natriuretic factor or c(4-23) atrial natriuretic factor produced a dose- and time-dependent increase in nitric oxide production, which was inhibited in the presence of NG-monomethyl-L-arginine. A similar increase in nitric oxide production was observed after incubation with atrial natriuretic factor or c(4-23) atrial natriuretic factor. 5. The angiotensin-induced increase in nitric oxide production was not inhibited in the presence of either the angiotensin AT1 or AT2 receptor antagonists DuP 753 or PD 123319. 6. This study demonstrates that primary cultures of human proximal tubular cells can be stimulated to produce nitric oxide by both atrial natriuretic factor and angiotensin II. Furthermore, the atrial natriuretic factor-induced response appears to be mediated via the atrial natriuretic factor-C receptor, while the angiotensin II-induced response appears to be mediated by a novel, as yet unidentified, angiotensin II receptor.
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PMID:Atrial natriuretic factor and angiotensin II stimulate nitric oxide release from human proximal tubular cells. 854 68

We report the production of a novel human natriuretic peptide receptor/guanylyl cyclase A (hNPR-A)-selective agonist ANP [G9T, R11S, G16R] (sANP). This agonist has similar affinity to ANP for hNPR-A and 1,000-10,000-fold reduced affinity for the human natriuretic peptide clearance receptor (hNPR-C). sANP was used to directly test the hypothesis that hNPR-A mediates the inhibitory effect of natriuretic peptides on aldosterone generation in a human zona glomerulosa cell line, H295R. Human type A natriuretic peptide and sANP (10(-11) to 10(-6) M) resulted in concentration-dependent increases in cGMP levels and decreases in forskolin (100 nM)- and angiotensin II (5 nM)-induced aldosterone and pregnenolone production. These results revealed an inhibitory effect of both peptides on the agonist-stimulated conversion of cholesterol to pregnenolone (i.e., cytochrome P-450 cholesterol monooxygenase side-chain cleaving enzyme, EC 1.14.15.6). H295R cells also exhibited angiotensin II- and forskolin-evoked conversion of [3H]cortico-sterone to [3H]aldosterone (i.e., cytochrome P-450 steroid 11 beta-monooxygenase/aldosterone synthase, EC 1.14.15.4). Human type A natriuretic peptide and sANP (10(-7) M) inhibited the angiotensin II-stimulated late pathway but did not affect forskolin-facilitated conversion of corticosterone to aldosterone. Our results directly demonstrate inhibitory effects of hNPR-A-mediated signal transduction on cytochrome P-450 cholesterol monooxygenase side-chain cleaving enzyme and steroid 11 beta-monooxygenase/aldosterone synthase complex depending on the steroidogenic agonist used.
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PMID:Novel natriuretic peptide receptor/guanylyl cyclase A-selective agonist inhibits angiotensin II- and forskolin-evoked aldosterone synthesis in a human zona glomerulosa cell line. 870 Jan 53

The inhibitory effect of atrial natriuretic peptide (ANP) on angiotensin II (AII)-stimulated aldosterone secretion has been previously studied in rat and bovine adrenal zona glomerulosa cells in primary culture. However the understanding of the mode of action of ANP at the molecular level has been hampered by limitations of those primary cell culture systems and by the lack of cell lines from human adrenal cortex. Here we demonstrate the presence of fully functional ANP receptors in the recently characterized AII-responsive adrenocortical carcinoma cell line H295R. Specific saturable binding of 125I-rANP to H295R cell membrane preparations revealed a single class of high affinity binding sites with a density of 20 fmol/mg of protein. The pharmacological profile of this ANP receptor was documented by competitive binding of 125I-rANP with naturally occurring natriuretic peptides. rANP was the most potent with a Kd of 42 pM. pBNP32 was less potent with a Kd of 174 pM. 125I-rANP binding was not competed by pCNP (NPRB-specific ligand) nor by C-ANF (NPRC-specific ligand). Photoaffinity labeling of membrane preparations with 125I-BPA-ANP revealed a single specific protein of molecular weight around 130 kDa. This protein was further identified by immunodetection with a specific antibody directed to the human ANP-specific receptor NPRA. Natriuretic peptides stimulated cGMP production by the receptor-coupled guanylate cyclase with the same specificity. Aldosterone production by AII-stimulated H295R cells was dose-dependently inhibited by rANP with an ED50 of 1.5 nM. In addition, we used this model to test two chimeric analogs of ANP and BNP. pBNP1 and pBNP3 were, respectively, 4- and 2-fold more potent than rANP in competing for 125I-rANP binding with Kd of 10 and 20 pM. pBNP1 was 24-fold more potent in inhibiting AII-stimulated aldosterone production with ED50 of 63 pM. pBNP1 is therefore the most potent natriuretic peptide analog tested. In summary, the human H295R cell line contains NPRA receptors positively coupled to the particulate guanylate cyclase and that antagonize angiotensin II stimulation of aldosterone secretion.
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PMID:The H295R human adrenocortical cell line contains functional atrial natriuretic peptide receptors that inhibit aldosterone biosynthesis. 873 99

The patch-clamp method, in conjunction with measurements of cell contraction, was employed to investigate activation by guanosine 3',5'-cyclic monophosphate (cGMP) and guanylyl cyclase-stimulating vasodilators of large Ca(2+)-activated K+ channels (BKCa) in human glomerular mesangial cells (MC). In cell-attached patches, with physiological NaCl bathing solutions, BKCa was activated transiently by nitroprusside [NP; a nitric oxide (NO) donor], atrial natriuretic peptide (ANP), and dibutyryl cGMP (DBcGMP), reaching peak responses between 10 and 60 s and decreasing to near baseline activity within the next 120 s. In the presence of LY-83583, a specific inhibitor of guanylyl cyclase, BKCa was activated on cell by DBcGMP but not by NP or ANP. In all cases, the increase in channel activity coincided with a decrease in channel amplitude, indicating that the membrane potential was approaching equilibrium potential as BKCa was activated. If membrane potential was maintained depolarized with 140 mM KCl in the bathing solution, DBcGMP induced a sustained activation of BKCa. In the continued presence of DBcGMP, BKCa was further activated when 100 nM angiotensin II (ANG II) was added to the bathing solution. Experiments were performed to determine the role of BKCa in the regulation by vasorelaxants of mesangial contraction measured as percent maximal and defined by reduction in length induced by replacing 135 mM bath NaCl with KCl. Contraction by ANG II (100 nM = 60.5%) was attenuated by NP (100 microM), ANP (1.0 microM), and DBcGMP (10 microM) in the absence, but not the presence, of iberiotoxin, a specific inhibitor of BKCa. These results indicate that guanylyl cyclase-stimulating vasorelaxants counteract ANG II-induced contraction of MC, in part, by repolarizing the membrane through activation of BKCa channels.
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PMID:Role of large Ca(2+)-activated K+ channels in regulation of mesangial contraction by nitroprusside and ANP. 876 61

Adenosine produces tone-dependent pulmonary vascular responses; however, the adenosine receptor subtype mediating these responses is unknown. In the present study, the adenosine receptor subtypes mediating tone-dependent responses were investigated, Intralobar injections of adenosine,ATP, and analogues under low-tone conditions caused dose-related increases in lobar arterial pressure; the order of potency was alpha,beta-methylene ATP (alpha,beta-metATP) > N6-cyclopentyladenosine (CPA) > ATP > adenosine. Under low-tone conditions, pressor responses to adenosine, ATP, and CPA, an adenosine A1-receptor agonist, were reduced by KW-3902, an adenosine A1-receptor antagonist, whereas KW-3902 and meclofenamate had no effect on responses to alpha,beta-metATP, norepinephrine, serotonin, or angiotensin II. Under elevated-tone conditions, injections of adenosine, ATP, and analogues caused dose-related decreases in lobar arterial pressure, and adenosine was 10-fold less potent than 5'-(N-cyclopropyl)-carboxamidoadenosine (CPCA), an A2-receptor agonist, and ATP. KF-17837, an A2-receptor antagonist, reduced vasodilator responses to adenosine and CPCA, whereas responses to ATP, isoproterenol, diethylamine-NO, lemakalim, and bradykinin were not changed. The vasodilator responses to adenosine were not attenuated by Nw-nitro-L-arginine benzyl ester, methylene blue, or U-37883A. These results suggest that vasoconstrictor responses to adenosine are mediated by A1 receptors and the release of vasoconstrictor prostanoids, and that, under elevated-tone conditions, vasodilator responses are mediated by A2 receptors but not the release of nitric oxide or the activation of guanylate cyclase or K+ATP channels.
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PMID:Adenosine A1 and A2 receptors mediate tone-dependent responses in feline pulmonary vascular bed. 876 52

This study tests the hypothesis that the control of vascular smooth muscle cell (VSMC) apoptosis is regulated by the antagonistic balance between vasoactive substances such as NO and angiotensin II (Ang II). Moreover, it is postulated that the cellular signaling pathways involved in regulating vessel tone are also coupled to the regulation of programmed cell death. Using an in vitro model system, we documented that the addition of NO donor molecules S-nitroso-N-acetylpenicillamine or sodium nitroprusside to VSMC dose-dependently induced apoptosis as documented by DNA laddering and quantified by analysis of cellular chromatin morphology. The mediator role of the guanylate cyclase signaling pathway in NO-induced apoptosis was evidenced by (1) induction of apoptosis by the 8-bromo-cGMP analogue, (2) potentiation of NO-induced apoptosis by cGMP-specific phosphodiesterase inhibition, and (3) the prevention of NO-induced apoptosis by the inhibition of the cGMP-dependent protein kinase 1 alpha. In contrast, Ang II directly antagonized NO donor- and cGMP analogue-induced apoptosis via activation of the type I Ang II receptor. These findings suggest that the countervailing balance between NO and Ang II may determine the overall cell population within the vessel wall by regulating genetic programs determining cell death as well as cell growth.
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PMID:Vasoactive substances regulate vascular smooth muscle cell apoptosis. Countervailing influences of nitric oxide and angiotensin II. 883 98

We investigated the vasorelaxant effects of MCI-154, a cardiotonic agent designed to target thin filaments in cardiac muscles in intact and skinned vessels from guinea pigs. In normal Krebs-Henseleit solution, MCI-154 (10(-7)-10(-4) M) inhibited the contractions induced by angiotensin II, (Ang II), endothelin-1 (ET-1), phenylephrine, and phorbol 12-myristate 13-acetate (PMA) in a concentration-dependent manner in guinea pig aorta. In Ca(2+)-free solutions, ET-1 and PMA caused slowly developing and sustained contractions in guinea pig aorta, whereas phenylephrine and caffeine induced transient contractions due to Ca2+ release from the sarcoplasmic reticulum (SR). MCI-154 (10(-7)-10(-4) M) inhibited the contractile responses to ET-1 and PMA. MCI-154 also reduced the contraction induced by Ca2+ release from phenylehrine- and caffeine-sensitive Ca2+ store sites. On the other hand, the relaxation response to MCI-154 was not affected by the presence of methylene blue, a guanylate cyclase inhibitor or by the removal of endothelial cells. MCI-154 decreased the Ca(2+)-activated tension development in saponin-treated skinned fibers from guinea pig femoral arteries. The effects of MCI-154 were not potentiated in the presence of protein kinase A (PKA), whereas those of cyclic AMP were potentiated, possibly because of lack of protein kinase A. The present experiments demonstrate that MCI-154 inhibits vascular contraction when the contractions are produced by any of three mechanisms: protein kinase C (PKC) activation, Ca2+ mobilization from store sites, or sensitization of contractile elements by Ca2+.
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PMID:MCI-154-induced relaxation in vascular smooth muscles of guinea pig. 884 68

Experiments in inbred strains of normotensive and hypertensive rats have clearly demonstrated circadian rhythms in blood pressure and heart rate. Pre- and postsynaptic signal transduction processes in vitro can, but need not, vary with circadian time, greatly depending on the strain of rats investigated. These data highlight the notion of a strain-dependent, and thus genetic, regulation of the cardiovascular system. Obviously, circadian rhythms in blood pressure cannot be explained by single biochemical parameters, but results from both in vitro and in vivo studies give first evidence that the vascular nitric oxide-cGMP system may be involved in the circadian regulation of blood pressure in WKY and SHR rats. In secondary hypertensive TGR and in their normotensive controls, SPRD, the guanylyl cyclase system does not seem to play a role in circadian blood pressure regulation. In neither of the four strains studied did aortic adenylyl cyclase show any time-dependent variation. Because vascular tissue was taken from the thoracic aorta of the rats, a contribution of adenylyl cyclase to circadian blood pressure regulation in small resistance arteries cannot be ruled out. Further studies in different parts of the vascular tree are needed to definitely answer that question. No data are available on time-dependent variation in the activity of phospholipase C, the second messenger pathway of vascular alpha-adrenoceptors and angiotensin II AT1-receptors, both of which mediate vasoconstriction. Future research into this system will be helpful in identifying mechanisms involved in blood pressure regulation in SPRD and TGR.
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PMID:Signal transduction in animal models of normotension and hypertension. 885 34

Cicletanine [particularly the levorotatory (-)enantiomer] inhibits calcium/calmodulin cyclic GMP phosphodiesterase (PDE) in vascular smooth muscle (VSM) and potentiates the vasorelaxant actions of the guanylate cyclase activators sodium nitroprusside (SNP) and atriopeptin II, but the possible interference with vasopressor mechanisms remains to be determined. We tested racemic (+/-) cicletanine for its ability to modify the vascular responses to vasocontractant agents in pithed rats. The most significant results were obtained with angiotensin II (AII). Therefore, the dose of AII that increased the carotid artery blood pressure (BP) 50 mm Hg was twice as high in cicletanine-pretreated (50 mg/kg orally, p.o.) as that in vehicle-pretreated animals (ED50 = 0.48 +/- 0.012 vs. 0.25 +/- 0.007 microgram/kg, p < 0.05). The displacement by cicletanine represented 47.2% of that obtained with losartan (40 micrograms/kg, intravenously, i.v.). Similar results were obtained with (-)-cicletanine (p.o. or i.v.), but not with (+)-cicletanine. In isolated rat aorta, the contraction induced by AII was reduced by (-)-cicletanine in a noncompetitive manner (the percent reduction was independent of the AII concentration). (-)-Cicletanine reduces the vascular reactivity to AII, which plays a key role in several forms of hypertension. These findings are compatible with an action of (-)-cicletanine at any of the numerous steps that couple the occupation of AII receptors to the final contractile response, such as calcium/calmodulin cyclic GMP PDE.
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PMID:Reduction by (-)-cicletanine of the vascular reactivity to angiotensin II in rats. 889 83

The role of brain L-arginine/nitric oxide biochemical pathway in the regulation of drinking behaviour was investigated. Drinking was induced by water deprivation or by intracerebroventricularly (i.c.v.) injected angiotensin II. L-Arginine, the amino-acid precursor of nitric oxide, i.c.v. injected, caused a dose-dependent reduction of the intake of water induced both by water deprivation and i.c.v. angiotensin II (P < 0.001). L-NAME, inhibitor of nitric oxide synthase, reverted L-arginine antidipsogenic effect. L-Arginine, given into the preoptic area (POA) caused a potent antidipsogenic effect (P < 0.001). Either methylene blue (inhibitor of guanylate cyclase activation) or acetylsalicylic acid (ASA), injected into the POA, antagonized the antidipsogenic effect of i.c.v. injected L-arginine. The results indicate that nitric oxide acts as an inhibitory mechanism into the POA and that its antidipsogenic effect requires prostaglandin synthesis.
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PMID:Nitric oxide and drinking behaviour. 889 5

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