Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.6.1.2 (guanylate cyclase)
 8,497 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An aspartate-to-alanine point mutation in the catalytic domain (D853A) of guanylyl cyclase-C (GC-C), the heat-stable enterotoxin (STa) receptor, rendered the enzyme catalytically inactive. Mn2+/Triton X-100-stimulated guanylyl cyclase activity was detected in membranes from COS7 cells overexpressing GC-C but not GC-CD853A. STa treatment of paired cells resulted in cGMP production in those transiently expressing GC-C but not GC-CD853A. GC-C and GC-CD853A showed similar Bmax and Kd values for [125I]STa binding in these cells, indicating that the lack of catalytic activity in the latter was not due to differing expression levels or reduced binding affinity. The involvement of the catalytic domain in aldosteronogenesis was studied in human adrenocortical H295R cells. COS7 and H295R cells infected with vaccinia virus-expressing GC-C and GC-CD853A (VVGC-CD853A) had [125I]STa-binding characteristics akin to those in transfected cells. Immunoblot confirmed that both GC-C and GC-CD853A formed similar higher order oligomers in infected cells. Virus-mediated expression of GC-C in H295R cells revealed concentration-dependent STa-stimulated cGMP formation that was undetectable in VVGC-CD853A-infected cells. STa decreased angiotensin II-stimulated human aldosterone generation in a concentration-dependent manner in vaccinia virus-expressing GC-C-infected cells but not in those infected with VVGC-CD853A. These results demonstrate that a catalytically active guanylyl cyclase is required for the inhibition of aldosteronogenesis.
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PMID:Functionally active catalytic domain is essential for guanylyl cyclase-linked receptor mediated inhibition of human aldosterone synthesis. 980 11

Guanylin is a 15-amino acid peptide, which activates guanylate cyclase (GC) and plays a major role in the regulation of water and electrolyte secretion by intestinal mucosa. The expression of guanylin prohormone has been recently demonstrated in the rat adrenal gland, and this prompted us to investigate whether guanylin, like other peptides secreted by adrenal medulla, affects the function of the adrenal cortex. Autoradiography demonstrated the presence of [125I]guanylin binding sites in the zona glomerulosa (ZG), but not zona fasciculata-reticularis. Guanylin did not change either basal or ACTH-stimulated steroid secretion of dispersed rat adrenocortical cells, but concentration-dependently (from 10(-10) M to 10(-8) M) inhibited aldosterone response of ZG (capsular) cells to both angiotensin-II (ANG-II) and K+. Guanylin (10(-8) M) blocked the aldosterone secretagogue effect of the Ca2+-channel activator BAYK-8644, and the Ca2+-ionophore ionomycin counteracted the inhibitory action of this peptide on the secretory responses of capsular cells to ANG-II and K+. As expected, guanylin did not affect cyclic-AMP release by capsular cells, but evoked a sizeable increase in cyclic-GMP production. Both the inhibitor of GMP synthase decoyinine and the GC-inhibitor LY-83583, although suppressing cyclic-GMP release, did not affect guanylin-evoked inhibition of K+-stimulated aldosterone secretion. Collectively, these findings allow us to conclude that guanylin: i) inhibits aldosterone secretion of rat ZG cells by interfering with the agonist-induced activation of voltage-gated Ca2+-channels, the stimulation of guanylate cyclase conceivably playing a negligible role; and ii) could be included in that group of regulatory peptides, secreted by medullary chromaffin cells, which are able to counteract an exceedingly high aldosterone secretion.
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PMID:Guanylin: a novel regulatory peptide possibly involved in the control of Ca2+-dependent agonist-stimulated aldosterone secretion in rats. 986 86

Deta nonoate (deta-NO), a zwitterion nitric oxide (NO) donor, potently inhibited forskolin- and angiotensin II-stimulated aldosterone production in human adrenocortical H295R cells in a concentration-dependent manner (0.1-1000 microM). The half-maximal and maximal inhibition of forskolin-evoked aldosteronogenesis occurred at 0.6 and 100 microM deta-NO, respectively. The respective half-maximal and maximal deta-NO-mediated inhibition of angiotensin II-stimulated aldosterone generation occurred at 150 microM and 1 mM. In H295R cells, deta-NO and sodium nitroprusside did not stimulate cGMP production, and the soluble guanylyl cyclase inhibitor oxadiazoloquinoxalinone (10 microM) did not block deta-NO-mediated attenuation of aldosteronogenesis. 25-Hydroxycholesterol (10 microM)-facilitated aldosterone synthesis was also diminished with half-maximal and maximal inhibition occurring at 120 microM and 1 mM deta-NO, respectively. Taken together, these results demonstrate that NO inhibits human aldosteronogenesis without stimulating guanylyl cyclase in H295R cells.
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PMID:Nitric oxide inhibits human aldosteronogenesis without guanylyl cyclase stimulation. 1045 58

The secretagogue effect of endothelins (ETs) on the rat adrenal cortex is mediated by the ETB receptor. ETB receptors are coupled with nitric oxide (NO) synthase (NOS), and NO is known to inhibit steroid-hormone secretion from adrenal cortex. We investigated whether ETB-mediated NO production interferes with the stimulatory action of ETs on rat adrenal cortex. The selective agonist of ETB receptor BQ-3020 concentration-dependently increased aldosterone secretion from dispersed zona glomerulosa (ZG) cells and corticosterone secretion from dispersed zona fasciculata-reticularis (ZF/R) cells, and the NOS inhibitor NG-nitro-L-arginine methylester (L-NAME) potentiated the effect of BQ-3020 in a concentration-dependent manner. The guanylate cyclase inhibitor Ly-83583, at a concentration suppressing guanylin- and L-arginine-induced cyclic-GMP release from dispersed adrenocortical cells, did not affect the secretory response of ZG and ZF/R cells to BQ-3020. ET-1, an agonist of both ETA and ETB receptors, stimulated the release of both aldosterone and corticosterone by in situ perfused rat adrenal gland. This effect was potentiated by L-NAME and unaffected by Ly-83583. Collectively, our findings allow us to suggest that endogenous NO exerts in vivo and in vitro a cyclic-GMP-independent buffering action on the ETB receptor-mediated adrenocortical secretagogue action of ETs.
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PMID:Buffering action of endogenous nitric oxide on the adrenocortical secretagogue effect of endothelins in the rat. 1111 9

Atrial natriuretic peptide (ANP) is an important regulator of arterial blood pressure. The mechanisms mediating its hypotensive effects are complex and involve the inhibition of the sympathetic and renin-angiotensin-aldosterone (RAA) systems, increased diuresis/natriuresis, vasodilation, and enhanced vascular permeability. In particular, the contribution of the direct vasodilating effect of ANP to the hypotensive actions remains controversial, because variable levels of the ANP receptor, guanylyl cyclase A (GC-A), are expressed in different vascular beds. The objective of our study was to determine whether a selective deletion of GC-A in vascular smooth muscle would affect the hypotensive actions of ANP. We first created a mutant allele of mouse GC-A by flanking a required exon with loxP sequences. Crossing floxed GC-A with SM22-Cre transgene mice expressing Cre recombinase in smooth muscle cells (SMC) resulted in mice in which vascular GC-A mRNA expression was reduced by approximately 80%. Accordingly, the relaxing effects of ANP on isolated vessels from these mice were abolished; despite this fact, chronic arterial blood pressure of awake SMC GC-A KO mice was normal. Infusion of ANP caused immediate decreases in blood pressure in floxed GC-A but not in SMC GC-A knockout mice. Furthermore, acute vascular volume expansion, which causes release of cardiac ANP, did not affect resting blood pressure of floxed GC-A mice, but rapidly and significantly increased blood pressure of SMC GC-A knockout mice. We conclude that vascular GC-A is dispensable in the chronic and critical in the acute moderation of arterial blood pressure by ANP.
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PMID:Smooth muscle-selective deletion of guanylyl cyclase-A prevents the acute but not chronic effects of ANP on blood pressure. 1199 76

Chronic, low-level lead exposure causes hypertension in both animals and humans. The pathogenesis of lead-induced hypertension is multifactorial, including such diverse mechanisms as: inactivation of endogenous nitric oxide and downregulation of soluble guanylate cyclase by reactive oxygen species (ROS), leading to a functional deficiency in nitric oxide; heightened sympathetic activity and plasma norepinephrine together with depressed vascular and elevated renal beta-adrenergic receptor density; elevated plasma angiotensin-converting enzyme (ACE) activity, plasma renin activity (PRA), angiotensin II (Ang-II), and aldosterone levels; increased kininase I and kininase II activities; lead-induced inhibition of vascular smooth muscle Na(+)-K+ ATPase, leading to a rise in cellular Na+ and, hence, Ca2+; and a possible rise in endothelin and thromboxane generation. In this article, we present an overview of the epidemiology and proposed underlying mechanisms of lead-induced hypertension.
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PMID:Lead-induced hypertension: role of oxidative stress. 1525 67

Adrenomedullin (ADM), a ubiquitous vasoactive peptide, has been the target of a multitude of studies concerning its effect on the vascular tone. The present work aims at clarifying a series of its interactions with the renin-angiotensin system. The study uses the rat aorta ring as a model of conductance vessels, with or without vascular endothelium, and the second order branch of rat mesenteric arteries as a model of resistance arteries. Interactions between various concentrations of ADM and angiotensin II (Ang II) were studied, in the presence of L-NAME (a nitric oxide [NO] synthase inhibitor) and methylene blue (MB; a soluble guanylate cyclase inhibitor). Results point out differences in the mechanism of the inhibitory action of ADM upon Ang II effects in the two vessel types studied. Inhibition of Ang II contraction by ADM involves guanylate cyclase in both cases. However, NO is involved in ADM-induced inhibition of angiotensinergic vasoconstriction only in the conductance arteries, not in the resistance ones.
J Renin Angiotensin Aldosterone Syst 2004 Jun
PMID:Comparative study of the inhibitory effects of adrenomedullin on angiotensin II contraction in rat conductance and resistance arteries. 1529 19

1. If one was to design a hormone to protect the heart, it would have a number of features shown by the cardiac natriuretic peptides atrial natriuretic peptide (ANP) and B-type natriuretic peptide (BNP). These hormones are made in cardiomyocytes and are released into the circulation in response to atrial and ventricular stretch, respectively. Atrial natriuretic peptide and BNP can reduce the preload and after-load in normal and failing hearts. They reduce blood volume over the short term by sequestering plasma and over the longer term by promoting renal salt and water excretion and by antagonizing the renin-angiotensin-aldosterone system at many levels. Each of these actions affords indirect benefit to a volume- or pressure-threatened heart. 2. Recent studies have identified additional modes of action of the natriuretic peptides that may also confer cardioprotective benefits, especially in heart disease. The emerging findings are: (i) that ANP and BNP antagonize the cardiac hypertrophic action of angiotensin II and continue working under conditions where endothelial nitric oxide (NO) function is compromised, such as in the presence of high glucose in diabetes; (ii) they potentiate the bradycardia caused by inhibitory ('autoprotective') cardio-cardiac reflexes; and, furthermore, (iii) BNP can suppress cardiac sympathetic nerve activity in humans, including those with heart failure. Thus, it appears that natriuretic peptides can shift sympathovagal balance in a beneficial direction (away from the sympathetic). The vagal reflex and antihypertrophic actions of the peptides are mediated by particulate guanylyl cyclase (pGC) natriuretic peptide receptors. 3. The multiple synergistic actions of the natriuretic peptides make them and their pGC receptors attractive targets for therapy in heart disease. Encouragingly, exogenous natriuretic peptides remain effective even when endogenous peptide levels are raised, as is the case in heart failure. They also remain effective in disease states where other protective mechanisms, such as the NO system, have become ineffective, offering yet further encouragement for the therapeutic use of the natriuretic peptides.
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PMID:Cardioprotective functions of atrial natriuretic peptide and B-type natriuretic peptide: a brief review. 1556 95

After a salty meal, stimulation of salt excretion via the kidney is a possible mechanism to prevent hypernatremia and hypervolemia. Besides the well known hormonal regulators of salt and water excretion in the distal nephron, arginine vasopressin and aldosterone, guanylin (GN) peptides produced in the intestine were proposed to be intestinal natriuretic peptides. These peptides inhibit Na+ absorption in the intestine and induce natriuresis, kaliuresis and diuresis in the kidney. The signaling pathway of GN peptides in the intestine is well known. They activate enterocytes via guanylate cyclase C (GC-C) and increase the cellular concentration of cGMP which leads to secretion of Cl-, HCO3- and water into the intestinal lumen and to inhibition of Na+ absorption. Guanylin peptides are filtered in the glomerulus, and additionally synthesized and excreted by tubular cells. They activate receptors located in the luminal membrane of the tubular cells along the nephron. In GC-C deficient mice renal effects of GN peptides are retained. In human, rat, and opossum proximal tubule cells, a cGMP-dependent signaling was demonstrated, but in addition GN peptides apparently also activate a PT-sensitive G-protein coupled receptor. A similar dual signaling pathway is also known for other natriuretic peptides like atrial natriuretic peptide. A cGMP-independent signaling pathway of GN peptides is also shown for principal cells of the human cortical collecting duct where the final hormonal regulation of electrolyte homeostasis takes place. This review will focus on the current knowledge on renal actions of GN peptides and specifically address novel GC-C- and cGMP-independent signaling mechanisms.
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PMID:Mechanisms of actions of guanylin peptides in the kidney. 1595 32

Short-term infusion of carperitide (atrial natriuretic peptide) has beneficial effects on neurohumoral factors; however, it remains unclear whether the effects are sustained for long-term infusion. To evaluate the effects of long-term infusion of carperitide on neurohumoral factors in patients with chronic congestive heart failure (CHF), we measured neurohumoral factors before and 1 hour after stopping carperitide infusion in 42 CHF patients. Carperitide infusion was continued for more than 2 days until there was symptomatic improvement of CHF. Patients were divided into 2 groups by the median value of infusion duration: group 1 (less than 7 days, n=21) and group 2 (more than 7 days, n=21). In group 1, aldosterone (ALD) and endothelin-1 (ET-1) were significantly increased after stopping carperitide. In contrast, ALD and ET-1 did not change after stopping carperitide in group 2. The molar ratio of cyclic guanosine monophosphate/atrial natriuretic peptide before stopping carperitide was significantly lower in group 2 than in group 1. Suppression of ALD and ET-1 was maintained for 7 days of carperitide infusion, but the beneficial effect on neurohumoral factors was attenuated after more than 7 days, probably through down-regulation of biologic receptors coupled with guanylate cyclase in CHF patients.
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PMID:Inhibition of aldosterone and endothelin-1 by carperitide was attenuated with more than 1 week of infusion in patients with congestive heart failure. 1616 Jun 6


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