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)

The arterial wall is structurally and functionally compartmentalized. Each compartment is characterized by a specific cell type and by specific interactions. The endothelial compartment interacts with circulating blood, and the adventitial compartment with the surrounding tissue. The media, which contains the effector smooth muscle cells, perceives centrifugal messages from the endothelium and centripetal messages from metabolically active tissues, from adventitial nerve endings, and from peptides produced in the interstitium. The degree of contraction or relaxation of the vascular smooth muscle cells characterizes the general vasomotor tone, which governs the local blood pressure level and distributes the flow according to metabolic needs. The main physiologic vasoactive agent is nitric oxide (NO) and is produced by the endothelium. In disease states, other agents can become predominant in centrifugal parietal messages. NO is produced by type 3 NO synthase, an enzyme that is constitutively expressed by endothelial cells. The activity of this enzyme on its substrate, arginine, is regulated by the concentration of free calcium and by intracellular phosphorylations. Several peptides, including receptors, are coupled to the phospholipase C pathway in the endothelial cell; endothelial growth factors such as FGF and VEGF, enhance the activity of endothelial NO synthase. However, the main physiologic factor responsible for endothelial NO synthase activation is the shearing stress produced by friction of the flowing blood against the immobile vessel wall. This shearing stress constantly adjusts the diameter of conductance vessels to peripheral metabolic needs. Expression of endothelial NO synthase is modulated by the chronic effects of the same agents. NO has a vasodilating effect that is mediated by the generation of cyclic GMP. Cyclic GMP and cyclic AMP are the main second messengers in smooth muscle cell relaxation. NO binds to a heme-protein, soluble guanylate cyclase, that converts GMP to cyclic GMP. Kinase-G is the main target for cyclic GMP in the smooth muscle cell. Kinase-G phosphorylates phospholambans and releases the repumping activity of calcium ATPase. More importantly, kinase-G phosphorylates the protein G that links seven-domain membrane-spanning receptors to phospholipases, thus inhibiting coupling between the ligand-receptors interaction and the intracellular signaling process that leads to contraction. NO can relax the smooth muscle cell only in the presence of a preexisting contractile tone. Conversely, absence of NO enhances the preexisting contractile tone. All these notions can be analyzed via the experimental model of L-NAME-induced chronic NO synthase blockade in rats. The decrease in parietal cyclic GMP seen in this model is associated with an increase in contractile tone that translates into systemic arterial hypertension. The increase in contractile tone can be blocked by renin-angiotensin system inhibitors. Chronic blockade of NO production rapidly induces vascular wall phenotype changes that lead to renal failure, ischemic stroke, and fibrosis of target organs. These phenotype changes may be related to the increase in the oxidative potential of the various types of parietal cells, as suggested by the abnormal presence of inflammatory cells and by the increased expression of inflammation mediators including cyclooxygenase II, inducible NO synthase, and adhesion molecules such as ICAM and VCAM. This model therefore holds promise for elucidating interactions between NO and arteriosclerosis. NO system dysfunction is also seen in other cardiovascular disorders, including congestive heart failure.
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PMID:[Role of endothelial nitric oxide in the regulation of the vasomotor system]. 976 14

The natriuretic peptides are a group of structurally similar but genetically distinct peptides that have diverse actions in cardiovascular, renal, and endocrine homeostasis. Atrial natriuretic peptide (ANP) and brain natriuretic peptide (BNP) are of myocardial cell origin and C-type natriuretic peptide (CNP) is of endothelial origin. ANP and BNP bind to the natriuretic peptide-A receptor (NPR-A), which, via 3',5'-cyclic guanosine monophosphate (cGMP), mediates natriuresis, vasodilation, renin inhibition, antimitogenesis, and lusitropic properties. CNP lacks natriuretic actions but possesses vasodilating and growth-inhibiting actions via the guanylyl cyclase-linked natriuretic peptide-B receptor (NPR-B). All three peptides are cleared by the natriuretic peptide-C receptor (NPR-C) and are degraded by the ectoenzyme neutral endopeptidase 24.11 (NEP), both of which are widely expressed in the kidneys, lungs, and the vascular wall. Congestive heart failure (CHF) represents a pathological state in which the activation of the natriuretic peptides exceeds those of all other states. In this brief review, we will attempt to provide an update on important issues regarding natriuretic peptides in CHF, with a focus on their functional importance as a beneficial humoral response in asymptomatic left ventricular dysfunction (LVD), the mechanisms of natriuretic peptide hyporesponsiveness in severe heart failure, the diagnostic and prognostic significance of the natriuretic peptides in CHF, and the therapeutic potential of the natriuretic peptides in this multiorgan syndrome.
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PMID:The natriuretic peptides in heart failure: diagnostic and therapeutic potentials. 1051 61

The endocrine function of the heart is to secrete Atrial and Brain natriuretic -peptides (ANP and BNP). These peptides are biologically active via particulate guanylate cyclases which generate cyclic GMP, the second intracellular messenger. A polysaccharide antagonist, HS-142-1 has been recently described by a Japanese Group. Cyclic GMP is partly secreted from the target cells into the extra cellular medium in which its accumulation is proportional to the concentration of the natriuretic peptide. Neutral Endopeptidase (NEP) is a zinc ectoenzyme involved in the catabolism of natriuretic peptides. NEP is absent in plasma but present on the surface of endothelial and smooth muscle cells. NEP is mainly expressed at the apical pole of the epithelial cells of the proximal tubule in the nephron. Chronic increase in volume and pressure within the cardiac cavities is associated with the oversecretion of natriuretic peptides. This chronic phenomenon involves the recruitment of all the cardiac myocytes to express natriuretic peptide genes. The clinical application of this hyperplasic phenomenon is congestive heart failure, in which the plasma levels of natriuretic peptides correlate with the level of the -hemodynamic stress. Therefore the plasma levels of natriuretic peptides are good pronostic markers in both experimental and human heart failure. The degree of congestive heart failure as well as the plasma levels of ANP and BNP are also -correlated with the plasma and urinary levels of cyclic GMP. The plasma level of -cyclic GMP is correlated with the endothelial concentration of cyclic GMP but not with the cyclic GMP concentration in smooth muscle cells. From these experimental data, we can conclude that plasma cyclic GMP originates from endothelial cells and is related to particulate guanylate cyclase activity. In contrast natriuretic peptides do not modulate vascular wall cyclic GMP content. The natriuretic action of ANP is probably due to the interaction of the filtered peptide with the particulate guanylate cyclase at the apical pole of the epithelial cells. The apparition of peptiduria associated with natriuresis during NEP inhibition provides evidence of the action of the peptide in the urinary compartment. It is also by a urinary pathway via the macula densa that ANP, and its potentiation by NEP inhibition, decreases renin secretion. The fact that plasma levels of ANP and plasma and urine levels of cyclic GMP correlate with the degree of salt retention in congestive heart failure, provides evidence for chronic desensitization of the system. An up-regulation of Na(+), K(+), 2Cl(-) expression associated with experimental congestive heart failure has recently been shown. Similarly, a modulation of the different sodium transporter systems along the nephron could be one of the counter-regulations leading to desensitization to natriuretic peptides. In conclusion, natriuretic peptides are true endocrine peptides, secreted by the heart, transported in the plasma, filtered by the glomeruli and active at the nephron level. The molecular effector of ANP and cyclic GMP in the epithelial cells is probably the G-kinase II, isoform phosphorylating the cystic fibrosis transmembrane conductance regulator (CFTR). The exact mechanism of desensitization remains to be elucidated.
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PMID:[Functional compartmentation of the endocrine action of cardiac natriuretic peptides]. 1079 May 90

The heptapeptide, angiotensin-(1-7), is an active member of the renin-angiotensin system. The present study was designed to characterize the role of endothelium in relaxations of large cerebral arteries to angiotensin-(1-7). Rings of canine middle cerebral arteries were suspended in organ chambers for isometric force recording. The levels of cyclic guanosine 3',5'-monophosphate (cGMP) were assessed by radioimmunoassay. During contraction to uridine 5'-triphosphate (UTP, 3x10(-6) to 10(-5) mol/l), angiotensin-(1-7) (10(-9) to 3x10(-5) mol/l) caused concentration-dependent relaxations in arteries with endothelium, but not in endothelium-denuded vessels. Angiotensin-(1-7) significantly increased formation of cGMP. Nitric oxide synthase inhibitor, N-omega-nitro-L-arginine methyl ester (L-NAME, 3x10(-4) mol/l), and selective soluble guanylate cyclase inhibitor, 1 H-[1,2, 4]oxadiazolo[4,3-a]quinozalin-1-one (ODQ, 3x10(-6) mol/l), abolished angiotensin-(1-7)-induced relaxations. Angiotensin receptor antagonists, losartan (10(-5) mol/l), PD 123319 (10(-5) mol/l), [Sar(1),Thr(8)]-angiotensin II (10(-5) mol/l) [Sar(1),Val(5), Ala(8)]-angiotensin II (10(-5) mol/l) or [7-D-Ala]-angiotensin 1-7 (10(-6) mol/l) did not affect these relaxations. However, angiotensin-converting enzyme inhibitor, captopril (10(-5) mol/l) augmented relaxations to angiotensin-(1-7). Finally, bradykinin B(2) receptor antagonist, [D-Arg(0),Hyp(3),Thi(5),D-Tic(7), Oic(8)]-bradykinin (HOE 140, 5x10(-8) mol/l) significantly reduced the effect of angiotensin-(1-7), while bradykinin B(1) receptor antagonist, des-Arg(9), [Leu(8)]-bradykinin (6x10(-9) mol/l) did not influence the vascular response to the heptapeptide. These findings indicate that (1) angiotensin-(1-7) produces relaxation of canine middle cerebral arteries by the release of nitric oxide from endothelial cells, (2) angiotensin receptors do not mediate endothelium-dependent relaxations to the heptapeptide, and (3) this effect appears to be dependent on activation of local production of kinins. Our studies support the concept that angiotensin-(1-7), as a natural vasodilator hormone, may counterbalance the hemodynamic actions of angiotensin II.
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PMID:Angiotensin-(1-7) causes endothelium-dependent relaxation in canine middle cerebral artery. 1091 12

Soluble guanylyl cyclase activity and its stimulation by diethylamineNONOate was measured in aortae from hypertensive TGR(mREN2)27 rats (TGR) and Sprague-Dawley controls. Superoxide dismutase was added in vitro to evaluate the contribution of oxidative breakdown of nitric oxide (NO) by superoxide anions. Expression of soluble guanylyl cyclase was assessed by reverse transcriptase-polymerase chain reaction (RT-PCR). Basal and stimulated soluble guanylyl cyclase activity was significantly reduced in TGR rats, addition of superoxide dismutase had no effect. Expression of soluble guanylyl cyclase subunits was not different between strains. The independent contribution of hypertension and the overactive renin-angiotensin system to soluble guanylyl cyclase subsensitivity was assessed after normalization of TGR's blood pressure by the Ca(2+)-channel blocker amlodipine or the angiotensin converting enzyme-inhibitor enalapril. Soluble guanylyl cyclase activity in TGR was slightly increased by amlodipine and almost completely restored by enalapril. In conclusion, TGR showed desensitized vascular soluble guanylyl cyclase, depending on their overactive renin-angiotensin system.
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PMID:Contribution of the renin-angiotensin system to subsensitivity of soluble guanylyl cyclase in TGR(mREN2)27 rats. 1096 40

A hallmark of congestive heart failure (CHF) is the activation of the cardiac endocrine system, in particular atrial natriuretic peptide (ANP) and brain natriuretic peptide (BNP). The natriuretic peptides are a group of structurally similar but genetically distinct peptides that have diverse actions in cardiovascular, renal, and endocrine homeostasis. ANP and BNP are of myocardial cell origin and C-type natriuretic peptide (CNP) is of endothelial origin. ANP and BNP bind to the natriuretic peptide-A receptor (NPR-A), which, via 3',5'-cyclic guanosine monophosphate (cGMP), mediates natriuresis, vasodilatation, renin inhibition, antimitogenesis, and lusitropic properties. CNP lacks natriuretic actions but possesses vasodilating and growth inhibiting actions via the guanylyl cyclase-linked natriuretic peptide-B receptor. All three peptides are cleared by the natriuretic peptide-C receptor and degraded by the ectoenzyme neutral endopeptidase 24.11, both of which are widely expressed in kidney, lung, and vascular wall. Recently, a fourth member of the natriuretic peptide, Dendroaspis natriuretic peptide (DNP) has been reported to be present in human plasma and atrial myocardium and is elevated in plasma of human CHF.
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PMID:Natriuretic peptides in the pathophysiology of congestive heart failure. 1098 Aug 93

It is still a controversial issue whether different classes of antihypertensive drugs are equally effective in the regression of cardiac hypertrophy and associated complications. The present study compared the effects of prolonged treatment with the Ca2+-channel blocker amlodipine and the ACE inhibitor enalapril, respectively, in TGR(mREN2)27 rats (TGR), an animal model of renin-dependent hypertension. TGR were divided into three groups and received either amlodipine, enalapril or drinking water without addition, Sprague-Dawley rats (SPRD) served as normotensive control group. Cardiovascular parameters were monitored by radiotelemetry, and drug doses were titrated until 24-h blood pressure was reduced to approximately 140/90 mmHg in both active treatment groups. After 8 weeks of treatment left ventricular (LV) hypertrophy was completely reversed in both treatment groups despite a tenfold increase in plasma angiotensin II in amlodipine-treated TGR. In untreated TGR LV catecholamines were depleted, and beta1-adrenergic stimulation of adenylyl cyclase was blunted. Treatment of TGR with enalapril prevented both the depletion of tissue catecholamines and the desensitisation of LV beta1-adrenoceptors. Amlodipine had no effect on cardiac adrenergic signal transduction. Basal activity of LV soluble guanylyl cyclase was not different between TGR and SPRD, but its sensitivity to stimulation by nitric oxide was slightly reduced in TGR. Treatment had no effect on basal and stimulated guanylyl cyclase activity. The present study in an animal model of renin-dependent hypertension suggests that blood pressure reduction per se is sufficient for a regression of cardiac hypertrophy. However, beta-adrenergic desensitisation was prevented only in the enalapril-treated group, supporting a blood pressure-independent contribution of the renin-angiotensin system to the regulation of beta-adrenergic signal transduction.
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PMID:Normalisation of blood pressure in hypertensive TGR(mREN2)27 rats by amlodipine vs. enalapril: effects on cardiac hypertrophy and signal transduction pathways. 1119 27

Soluble guanylyl cyclase (sGC) catalyzes the biosynthesis of cGMP in response to binding of L-arginine-derived nitric oxide (NO). Functionally, the NO-sGC-cGMP signaling pathway in kidney and liver has been associated with regional hemodynamics and the regulation of glomerular parameters. The distribution of the ubiquitous sGC isoform alpha 1 beta 1 sGC was studied with a novel, highly specific antibody against the beta 1 subunit. In parallel, the presence of mRNA encoding both subunits was investigated by using in situ hybridization and reverse transcription-PCR assays. The NO-induced, sGC-dependent accumulation of cGMP in cytosolic extracts of tissues and cells was measured in vitro. Renal glomerular arterioles, including the renin-producing granular cells, mesangium, and descending vasa recta, as well as cortical and medullary interstitial fibroblasts, expressed sGC. Stimulation of isolated mesangial cells, renal fibroblasts, and hepatic Ito cells with a NO donor resulted in markedly increased cytosolic cGMP levels. This assessment of sGC expression and activity in vascular and interstitial cells of kidney and liver may have implications for understanding the role of local cGMP signaling cascades.
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PMID:Cellular distribution and function of soluble guanylyl cyclase in rat kidney and liver. 1167 97

1. The aim of the present study was to determine whether the regulation of vascular natriuretic peptide receptors (NPR) is related to the local renin-angiotensin system (RAS). 2. Male Sprague-Dawley rats were made two-kidney, one-clip (2K1C) and deoxycorticosterone acetate (DOCA)-salt hypertensive to activate and inhibit the RAS, respectively. Another model of hypertension was induced by treatment with an inhibitor of nitric oxide synthesis, namely NG-nitro-L-arginine methyl ester (L-NAME). 3. The mRNA expression of NPR-A, NPR-C, angiotensin- converting enzyme (ACE) and angiotensin AT1 receptors was determined in the thoracic aorta by semiquantitative reverse transcription-polymerase chain reaction. The particulate guanylyl cyclase activity stimulated by atrial natriuretic peptide (ANP) was also determined in the membrane fraction of the thoracic aorta. 4. The plasma concentrations of ANP were increased significantly in the three models of hypertension. Plasma renin activity was increased in 2K1C hypertension, decreased in DOCA-salt hypertension and not significantly altered in L-NAME hypertension. 5. The mRNA expression of NPR-A and NPR-C was decreased, whereas that of ACE and AT1 receptors was increased in 2K1C and L-NAME hypertension. The mRNA expression of NPR-A and NPR-C was increased, whereas that of ACE and AT1 receptors was decreased in DOCA-salt hypertension. 6. The particulate guanylyl cyclase activity was decreased in 2K1C and L-NAME hypertension and increased in DOCA-salt hypertension. 7. The vascular expression of NPR may be reciprocally regulated by local RAS activity.
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PMID:Altered expression of vascular natriuretic peptide receptors in experimental hypertensive rats. 1198 39

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

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