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. The mechanical and biochemical effects of agents that relax vascular smooth muscle either through elevation of guanosine 3':5'-cyclic monophosphate (cyclic GMP) or adenosine 3':5'-cyclic monophosphate (cyclic AMP) levels were compared in isolated ring preparations of human umbilical artery and rat aorta. Tone was established by preconstriction with 5-hydroxytryptamine. 2. The endothelium-dependent vasodilator calcium ionophore (A23187) (which stimulates endothelium-derived relaxing factor [EDRF] release and thus acts through soluble guanylyl cyclase), sodium nitroprusside (which stimulates soluble guanylyl cyclase directly), and atrial natriuretic peptide (which stimulates particulate guanylyl cyclase) relaxed rat aorta but not human umbilical artery. 3. Sodium nitroprusside, 10 microM, increased cyclic GMP levels from 10 to 390 pmol mg-1 protein at 2 min in rat aorta, as compared with a slower, relatively attenuated rise from 5 to 116 pmol mg-1 protein after 15 min in human umbilical artery. The rise in cyclic GMP in the umbilical artery was not significantly augmented by the cyclic GMP phosphodiesterase inhibitor, MB22948. Atrial natriuretic peptide increased cyclic GMP levels in rat aorta but not in human umbilical artery. 4. Forskolin, 10 microM, which stimulates both soluble and particulate adenylyl cyclase, maximally relaxed rat aorta and increased cyclic AMP levels from 15 to 379 pmol mg-1 protein at 15 min, but did not significantly relax or increase cyclic AMP levels in human umbilical artery. After preincubation with the cyclic nucleotide phosphodiesterase inhibitor, IBMX, 10 microM forskolin increased cyclic AMP levels to 1365 pmol mg-1 protein at 30 min in human umbilical arteries, but these high levels were not accompanied by mechanical relaxation.5. 8-Bromo-cyclic GMP and 8-bromo-cyclic AMP which are lipophilic analogues of cyclic GMP and cyclic AMP, both maximally relaxed the rat aorta at a concentration of 10 microM, but did not significantly relax the human umbilical artery.6. The findings indicate that elevated cyclic nucleotide levels are not associated with mechanical relaxation of the post-partum human umbilical artery, as in other vessels such as rat aorta. This impaired response to cyclic nucleotides may contribute to closure of the umbilical artery after birth.
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PMID:Impaired cyclic nucleotide-mediated vasorelaxation may contribute to closure of the human umbilical artery after birth. 132 77

After the description in the past 5 years of BNP and CNP, interest in the natriuretic peptide family has dramatically increased. Molecular characterization of the receptors for this hormone family has identified a heterogeneity in the receptor subtypes not previously alluded to by pharmacological or biochemical studies. Much has been published on the physiology of ANP, but the major roles for BNP and CNP remain to be elucidated. Some experiments indicate that ANP and BNP may act synergistically, especially during cardiac stress; however, the high level of structural diversity of BNP among species and the ability of porcine BNP, but not human BNP, to activate human NPR-B suggest that an as yet unidentified receptor may exist that specifically recognizes BNP. Localization studies have implied that CNP is the most prominent neuropeptide in the natriuretic peptide family, and the restriction of its receptor, NPR-B, to the nervous system suggests that CNP and NPR-B may act in the brain to coordinate the central aspects of body fluid homeostasis. Of the three known NPRs, two, NPR-A and NPR-B, are capable of synthesizing their own second messenger, cGMP. The domain within these receptors that has high homology to protein kinases has been demonstrated to be essential for regulating this activity. No kinase activity has been measured in these proteins, but it is possible that this region is important for ATP regulation of guanylyl cyclase activity. This possibility raises interesting parallels with receptor-mediated cAMP signaling within cells. Seven transmembrane receptors, once activated by ligand, associate with G proteins to affect the activity of adenylyl cyclase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Molecular biology of the natriuretic peptides and their receptors. 132 79

Atrial natriuretic peptide (ANP) is known to inhibit the aldosterone production by adrenal glomerulosa cells stimulated by angiotensin II. However, the mechanism of the inhibitory action is still somewhat uncertain. In this study we used HS-142-1, a novel nonpeptide antagonist for ANP receptor, to examine the role of cyclic GMP in the inhibition of aldosterone production by ANP. Aldosterone production by isolated bovine adrenal glomerulosa cells was stimulated by angiotensin II at a concentration of 10(-8) M. The angiotensin II-stimulated aldosterone production was inhibited by rat ANP in a dose-dependent manner at concentrations ranging from 10(-9) to 10(-7) M. HS-142-1, at concentrations of 0.1 to 100 micrograms/ml, reversed the inhibition by ANP of the angiotensin II-stimulated aldosterone production. On the other hand, intracellular concentration of cyclic GMP increased rapidly as early as 1 min after the exposure of the cells to 10(-8) M ANP in the presence of angiotensin II. This increase of intracellular cyclic GMP level was again reduced by HS-142-1 at concentrations similar to those that reversed the inhibition by ANP of the aldosterone production. These results suggest that ANP inhibits the aldosterone production through a guanylyl cyclase-coupled pathway in adrenal glomerulosa cells.
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PMID:Pharmacological profile of HS-142-1, a novel nonpeptide atrial natriuretic peptide (ANP) antagonist of microbial origin. II. Restoration by HS-142-1 of ANP-induced inhibition of aldosterone production in adrenal glomerulosa cells. 132 8

Blood vessels show a heterogeneous response to the atrial natriuretic peptide (ANP). In our experiments thoracic aorta from the guinea pig relaxed in response to atriopeptin III (AP; rat ANP-103-126) and to sodium nitroprusside (SNP). In contrast, in perfused guinea pig hearts, AP III produced no change in coronary flow, while SNP increased flow. In smooth muscle cells cultured from the coronary system (CASM) and from the thoracic aorta (TASM), we compared receptor binding and the effects on guanosine 3',5'-cyclic monophosphate (cGMP) production of AP III. AP III bound specifically with equal affinity and with equivalent numbers of binding sites in both cell types. AP III produced a dose-dependent increase in cGMP in TASM (50% effective concentration approximately 3 nM) with a maximum 11-fold increase over basal at 1 microM AP III. In contrast, in CASM, AP III failed to increase cGMP. Nitroprusside increased cGMP in both cell types. Autoradiograms of 125I-labeled AP III linked to cell membranes showed bands at 70 kDa (ANP-C receptor) in both cell types. A second band at 140 kDa (ANP-B receptor) was only seen in TASM. These results suggest that smooth muscle cells of coronary resistance vessels of the guinea pig do not express the particulate guanylyl cyclase that is activated by ANP.
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PMID:Difference in effect of atrial natriuretic peptide on cGMP in aortic and coronary smooth muscle cells. 132 36

Recently we reported the presence of both the guanylyl cyclase-linked (116 kDa) and the ANF-C (66 kDa) atrial natriuretic peptide receptors in the rat liver. Since ANF 103-125 (atriopeptin II) stimulates cGMP production in livers and because cGMP has previously been shown to mimic the actions of cAMP in regulating hepatic carbohydrate metabolism, studies were performed to investigate the effects of atriopeptin II on hepatic glycolysis and gluconeogenesis. Additionally, employing analogs of atrial natriuretic hormone [des-(Q116, S117, G118, L119, G120) ANF 102-121 (C-ANF) and des-(C105,121) ANF 104-126 (analog I)] which bind only the ANF-C receptors, the role of the ANF-C receptors in the hepatic actions of atriopeptin II was evaluated. In perfused livers of fed rats atriopeptin II, but not C-ANF and analog I, inhibited hepatic glycolysis and stimulated glucose production. Moreover, analog I did not alter the ability of atriopeptin II to inhibit hepatic glycolysis. Atriopeptin II, but not C-ANF and analog I, also stimulated cGMP production in perfused rat livers. Furthermore, while atriopeptin II inhibited the activity ratio of pyruvate kinase by 30%, C-ANF did not alter hepatic pyruvate kinase activity. Finally, in rat hepatocytes, atriopeptin II stimulated the synthesis of [14C]glucose from [2-14C]pyruvate by 50% and this effect of atriopeptin II was mimicked by the exogenously supplied cGMP analog, 8-bromo cGMP. Thus atriopeptin II increases hepatic gluconeogenesis and inhibits glycolysis, in part by inhibiting pyruvate kinase activity, and the effects of atriopeptin II are mediated via activation of guanylyl cyclase-linked ANF receptors which elevate cGMP production.
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PMID:Regulation of hepatic glycolysis and gluconeogenesis by atrial natriuretic peptide. 132 63

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

HS-142-1, a novel polysaccharide, isolated from the culture broth of Aureobasidium pullulans var. melanigenum, has been found to inhibit selectively the binding of [125I]atrial natriuretic peptide (ANP) to the guanylyl cyclase-linked ANP receptor (ANP-B receptor) and production of cyclic GMP by ANP. The effect of this compound on renal and vascular actions evoked by exogenously administered natriuretic peptides was examined in anesthetized rats. The increase in urine flow and in the urinary excretion of sodium elicited by human ANP or porcine brain natriuretic peptide was prevented by pretreatment with HS-142-1. The prevention was accompanied by the inhibition of increase in urinary cyclic GMP excretion. In addition, these renal responses were rapidly reversed by an injection of HS-142-1 during ANP infusion. Higher doses of HS-142-1 did not alter the increase in urine flow and in the urinary excretion of sodium evoked by furosemide, and HS-142-1 alone showed no significant change in these renal parameters. Hypotensive action elicited by human ANP was also prevented by the pretreatment with HS-142-1 and rapidly reversed by treatment with HS-142-1 during ANP infusion. These results clearly demonstrate that HS-142-1 acts as an antagonist for ANP-B receptor in vivo. HS-142-1, then, provides a new tool for the study of the physiological and pathophysiological roles of ANP.
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PMID:Pharmacological profile of HS-142-1, a novel nonpeptide atrial natriuretic peptide antagonist of microbial origin. I. Selective inhibition of the actions of natriuretic peptides in anesthetized rats. 134 47

Previous studies have demonstrated hepatic cytochrome P-450-dependent biotransformation of organic nitrates. We assessed whether this biotransformation resulted in the formation of an activator of guanylyl cyclase using the 100,000 x g supernatant of rat aorta as a source of crude enzyme. Incubation of aortic supernatant with rat hepatic microsomes and glyceryl trinitrate (GTN) resulted in concentration-dependent increases in guanylyl cyclase activity provided that the incubations were performed anaerobically and that reduced nicotinamide adenine phosphate was added. Cysteine-dependent activation of guanylyl cyclase by GTN was greater under anaerobic compared to aerobic conditions. Guanylyl cyclase activation by GTN was increased using hepatic microsomes from phenobarbital-treated but not beta-naphthoflavone (BNF)-treated rats and was decreased when microsomes from cimetidine-treated rats were used. The hepatic microsome-dependent activation of guanylyl cyclase by GTN was inhibited by in vitro treatment of microsomes with carbon monoxide, SKF 525A, metyrapone and cimetidine, but not by ranitidine. The sensitivity of isolated rat aorta to the relaxant effects of GTN was increased under low oxygen conditions or when aortae were obtained from phenobarbital- or beta-naphthoflavone-treated rats. Treatment of rats with cimetidine did not affect GTN-induced relaxation. The vascular biotransformation of GTN was increased greater than 3-fold when performed anaerobically, and this increase was prevented by pretreatment of the tissues with carbon monoxide. Together, these data provide strong evidence for the involvement of hepatic cytochromes P-450 in the formation from GTN of an activator of guanylyl cyclase (presumably NO or some closely related compound), and suggest that at least a portion of the vascular biotransformation of GTN is mediated by hemoproteins.
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PMID:Hepatic cytochrome P-450-mediated activation of rat aortic guanylyl cyclase by glyceryl trinitrate. 134 46

The natriuretic peptide receptors, NPR-A and NPR-B, are two members of the newly described class of receptor guanylyl cyclases. The kinaselike domain of these proteins is an important regulator of the guanylyl cyclase activity. To begin to understand the molecular nature of this type of regulation, we made complete and partial deletions of the kinase domain in NPR-A and NPR-B. We also made chimeric proteins in which the kinase domains of NPR-A and NPR-B were exchanged or replaced with kinase domains from structurally similar proteins. Complete deletion of the kinase homology domain in NPR-A and NPR-B resulted in constitutive activation of the guanylyl cyclase. Various partial deletions of this region produced proteins that had no ability to activate the enzyme with or without hormone stimulation. The kinase homology domain can be exchanged between the two subtypes with no effect on regulation. However, structurally similar kinaselike domains, such as from the epidermal growth factor receptor or from the heat-stable enterotoxin receptor, another member of the receptor guanylyl cyclase family, were not able to regulate the guanylyl cyclase activity correctly. These findings suggest that the kinaselike domain of NPR-A and NPR-B requires strict sequence conservation to maintain proper regulation of their guanylyl cyclase activity.
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PMID:Conservation of the kinaselike regulatory domain is essential for activation of the natriuretic peptide receptor guanylyl cyclases. 135 Mar 22

Heat-stable enterotoxins (ST) activate guanylyl cyclase in T84 cells, rapidly and specifically. Activation is monitored by cGMP production and occurs at lower concentrations of ST than required for eliciting fluid accumulation in suckling mice. Atrial natriuretic factor (ANF) neither activates guanylyl cyclase nor modulates the response to ST in T84 cells, indicating the absence of receptors for ANF on T84 cells. Monitoring the production of cGMP under conditions known to alter fluid accumulation in suckling mice is an accurate and quantifiable assay of ST activity and its interaction with the receptor. STs produced by Escherichia coli, Vibrio cholerae non-01 and Yersinia enterocolitica individually produce elevated levels of cGMP in T84 cells, but to differing extents, suggesting that this model system can be used to elucidate the different events of ST-receptor interactions at the molecular level.
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PMID:Interaction of heat-stable enterotoxins with human colonic (T84) cells: modulation of the activation of guanylyl cyclase. 135 30

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