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)

We have previously shown that nitric oxide (NO) mediates the stimulatory effect of angiotensin II on the apical 70-pS K+ channel in the thick ascending limb (TAL) of Henle's loop of the rat kidney (12). In the present study, we used the patch-clamp technique to examine the effects of NO on the 70-pS K+ channel. Addition of 10 microM S-nitroso-N-acetylpenicillamine (SNAP), a NO donor, increased the channel activity in cell-attached patches. In contrast, application of 100 microM N omega-nitro-L-arginine methyl ester (L-NAME), an inhibitor of nitric oxide synthase (NOS), reduced the channel activity by 75 +/- 7%. The effect of L-NAME was the result of inhibiting NOS, since D-NAME, which does not block NOS activity, had no effect on the channel activity. In addition, the effect of L-NAME was abolished in the presence of 1 mM L-arginine or by addition of 10 microM SNAP, further supporting the role of NO. Finally, the L-NAME-induced inhibition was also reversed by adding 8-bromoguanosine 3',5'-cyclic monophosphate (8-BrcGMP). That the effect of NO is mediated by the cGMP-dependent pathway is also suggested by experiments in which inhibition of guanylate cyclase abolished the effect of SNAP. Finally, 10 microM SNAP significantly increased cGMP concentration of the medullary TAL from 12.4 fM/microgram protein to 38.9 fM/microgram protein, as measured with ELISA. We conclude that NO is involved in regulating the activity of the apical 70-pS K+ channel in the TAL of the rat kidney.
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PMID:Nitric oxide increases the activity of the apical 70-pS K+ channel in TAL of rat kidney. 961 33

1. Cardiac fibroblasts play an important role in the pathophysiology of cardiac remodelling induced by hypertension and myocardial infarction by undergoing proliferation and depositing extracellular matrix proteins such as collagen. We have examined the effects of atrial natriuretic peptide (ANP) on proliferation and collagen synthesis by adult rat and human cardiac fibroblasts in culture. 2. In cells from both species radioligand studies using 125I-ANP suggested that the majority of binding sites (> 85%) were non-guanylyl cyclase-linked (NPR-C subtype). Nonetheless ANP (10(-9) to 10(-6) M), in the presence of zaprinast, an inhibitor of phosphodiesterase 5 (PDE5), increased fibroblast cyclic GMP levels 3-5 fold in a concentration-dependent manner (P < 0.05). 3. ANP (10(-11) to 10(-6) M), a NPR-C ligand, C-ANF4-23 (10(-11) to 10(-6) M) and zaprinast alone had no significant effect on either basal or serum-stimulated DNA synthesis or fibroblast number. In combination with zaprinast (10(-5) M), however, ANP (10(-9) to 10(-6) M) but not C-ANF4-23 (10(-7) M) inhibited markedly both basal and stimulated fibroblast mitogenesis, an effect reproduced by 8-bromo-cyclic GMP (10(-5) to 10(-3) M). 4. Collagen synthesis, determined by measuring hydroxyproline levels, was stimulated with transforming growth factor-beta1 (40 pM), angiotensin II (10(-7) M) or 2% foetal bovine serum. The increase in collagen production, normalised by cell number, was reduced dramatically (to at or near basal production) by ANP (10(-9) to 10(-7) M) but not C-ANF4-23 (10(-7) M) in the presence of zaprinast. Again 8-bromo-cyclic GMP (10(-5) to 10(-3) M) reproduced the effect. 5. ANP is capable of inhibiting collagen synthesis in adult rat and human cardiac fibroblasts via cyclic GMP, a property unmasked and enhanced by inhibition of PDE5.
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PMID:Effect of atrial natriuretic peptide and cyclic GMP phosphodiesterase inhibition on collagen synthesis by adult cardiac fibroblasts. 972 58

To investigate the mechanism of nitric oxide (NO) inhibition of aldosterone release, this study compared the effects of type A natriuretic peptide and heat-stable enterotoxin to a nitric oxide donor, deta nonoate, on cGMP production and angiotensin II-stimulated aldosterone synthesis ill primary cultures of bovine adrenal zona glomerulosa cells. Type A natriuretic peptide (10(-10)-10(-6) M) and deta nonoate (10(-6)-10(-3) M) stimulated concentration-related increases in cGMP production. Heat-stable enterotoxin (10(-6) M) failed to stimulate cGMP synthesis in zona glomerulosa cells. Type A natriuretic peptide and deta nonoate attenuated angiotensin II-stimulated aldosterone production over the same concentration range that stimulated cGMP production. Heat-stable enterotoxin (10(-6) M) was without effect on aldosterone release. To further test the hypothesis that cGMP mediated the inhibition of aldosterone synthesis, the selective inhibitor of soluble guanylyl cyclase, 1H-(1,2,4)oxadiazolo [4,3-a]quinoxalin-1-one (ODQ) was used. ODQ pretreatment (10(-5) M) completely prevented deta nonoate-stimulated cGMP production without altering the inhibitory effect of deta nonoate on angiotensin II-stimulated steroidogenesis. Consistent with its selectivity for inhibiting soluble guanylyl cyclase, ODQ did not block type A natriuretic peptide-stimulated cGMP synthesis or type A natriuretic peptide inhibition of steroidogenesis. Deta nonoate completely blocked 25-hydroxycholesterol- and progesterone-stimulated aldosterone synthesis in zona glomerulosa cells and inhibited the conversion of 25-hydroxycholesterol to pregnenolone in mitochondrial fractions from bovine adrenal cortex. Deta nonoate-derived NO gave an absorbance maximum of the mitochondrial cytochrome P450 of 453 nm and inhibited the absorbance at 450 nm caused by carbon monoxide binding to the enzyme. These results suggest that deta nonoate reduces steroidogenesis independent of guanylyl cyclase activation and that NO has a direct effect to inhibit the activity of cytochrome P450, probably by binding to the heme groups of the cytochrome.
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PMID:Nitric oxide inhibits aldosterone synthesis by a guanylyl cyclase-independent effect. 975 82

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

1. The effects of exogenous NO and endothelial-derived NO (EDNO) on the afferent arteriole were investigated in the in vitro perfused hydronephrotic rat kidney. Vessels were pre-constricted with angiotensin II (0.1-0.3 nM) or KCl (30 mM). NO was infused directly into the renal artery at concentrations ranging from 30-9000 nM. ODQ (10, 30 microM) was administered to examine the effects of guanylyl cyclase inhibition. Kidneys were treated with ibuprofen (10 microM) to avoid actions of prostaglandins. 2. During angiotensin II-induced vasoconstriction, NO elicited vasodilation at concentrations of 30 900 nM (EC50=200 nM) and ODQ caused a 10 fold shift in NO-sensitivity (EC50 1600 nM). During KCl-induced vasoconstriction, NO elicited a maximal dilation of 82+9% at 9000 nM (EC50 2000 nM) and ODQ had no effect. Thus in the presence of ODQ, the NO concentration-response curves for KCI- and angiotensin II-induced vasoconstriction were identical (P>0.2). 3. To assess the possible role of cyclic GMP-independent mechanisms in the actions of EDNO, we compared the effects of L-NAME, ODQ and ODQ+L-NAME on acetylcholine-induced vasodilation. Angiotensin II reduced afferent arteriolar diameters from 16.7+/-0.5 to 8.1+/-0.8 microns and acetylcholine fully reversed this effect (16.9+/-0.5 microns). ODQ restored the angiotensin II response in the presence of acetylcholine (7.1+/-0.6 microns) and the subsequent addition of L-NAME had no further effect (6.8+/-0.7 microns). Similarly, L-NAME alone, fully reversed the actions of acetylcholine. 4. Our findings indicate that exogenous NO is capable of eliciting renal afferent arteriolar vasodilation through both cyclic GMP-dependent and cyclic GMP-independent mechanisms. The cyclic GMP-independent action of NO did not require K+ channel activation, as it could be elicited in the presence of 30 mM KCl. Finally, although cyclic GMP-independent effects of exogenous NO could be demonstrated in our model, EDNO appears to act exclusively through cyclic GMP.
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PMID:Cyclic GMP-dependent and cyclic GMP-independent actions of nitric oxide on the renal afferent arteriole. 980 41

1. The role of cyclic GMP in the ability of nitric oxide (NO) to decrease intracellular free calcium concentration [Ca2+]i and divalent cation influx was studied in rabbit aortic smooth muscle cells in primary culture. In cells stimulated with angiotensin II (AII, 10(-1) M), NO (10(-10) - 10(-6) M) increased cyclic GMP levels measured by radioimmunoassay and decreased [Ca2+]i and cation influx as indicated by fura-2 fluorimetry. 2. Zaprinast (10(-4) M), increased NO-stimulated levels of cyclic GMP by 3-20 fold. Although the phosphodiesterase inhibitor lowered the level of [Ca2+]i reached after administration of NO, the initial decreases in [Ca2+]i initiated by NO were not significantly different in magnitude or duration from those that occurred in the absence of zaprinast. 3. The guanylyl cyclase inhibitor, H-(1,2,4) oxadiazolo(4,3-a) quinoxallin-1-one (ODQ, 10(-5) M), blocked cyclic GMP accumulation and activation of protein kinase G, as measured by back phosphorylation of the inositol trisphosphate receptor. ODQ and Rp-8-Br-cyclic GMPS, a protein kinase G inhibitor, decreased the effects of NO, 10(-10) - 10(-8) M, but the decrease in [Ca2+]i or cation influx caused by higher concentrations of NO (10(-7) - 10(-6) M) were unaffected. Relaxation of intact rabbit aorta rings to NO (10(-7) - 10(-5) M) also persisted in the presence of ODQ without a significant increase in cyclic GMP. Rp-8-Br-cyclic GMPS blocked the decreases in cation influx caused by a cell permeable cyclic GMP analog, but ODQ and/or the protein kinase G inhibitor had no significant effect on the decrease caused by NO. 4. Although inhibitors of cyclic GMP, protein kinase G and phosphodiesterase can be shown to affect the decrease in [Ca2+]i and cation influx via protein kinase G, these studies indicate that when these mechanisms are blocked, cyclic GMP-independent mechanisms also contribute significantly to the decrease in [Ca2+]i and smooth muscle relaxation to NO.
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PMID:Evidence that additional mechanisms to cyclic GMP mediate the decrease in intracellular calcium and relaxation of rabbit aortic smooth muscle to nitric oxide. 988 61

Migration of aortic smooth muscle cells is thought to be of essential importance in vascular restenosis, remodeling, and angiogenesis. Recent studies have shown that NO donors inhibit the migration of subcultured aortic smooth muscle cells. However, there is evidence that NO elicits opposite effects on cell proliferation in primary versus subcultured cells, indicating fundamental differences among different models of aortic smooth muscle cell cultures. The purpose of the current study was to investigate the effect of NO donors on migration of primary cultures of rat aortic smooth muscle cells and to compare and contrast their response with those in subcultured cells. A second purpose was to investigate some of the underlying mechanisms associated with NO-induced effects on cell migration. We report that 2 NO donors, S-nitroso-N-acetylpenicillamine (SNAP) and 2, 2-(hydroxynitrosohydrazino)bis-ethanamine, stimulated the migration of primary cells in a wounded-culture model as well as in a transwell migration model. The effect of NO donors was mimicked by 2 cGMP analogues and C-type natriuretic peptide and blocked by a specific inhibitor of guanyl cyclase, 1H-(1,2,4)oxadiazolo[4,3, -a]quinoxalin-1-one, indicating the involvement of cGMP as second messenger. Moreover, neither NO donors nor cGMP analogues altered migration of primary cultures stimulated by either FBS or angiotensin II. In contrast to its effect in primary cultures, SNAP did not alter basal or stimulated migration of subcultured cells, except at a relatively high concentration of 1 mmol/L, at which migration was inhibited. The migration-stimulatory effect of NO donors and cGMP was associated with altered cell morphology and dissociation of actin filaments, consistent with recent studies indicating that cell morphology and cytoskeletal organization influence cell migration. The results suggest the possible involvement of NO-induced cell migration in vascular injury or remodeling, representing conditions in which vascular NO levels would be expected to be elevated.
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PMID:Nitric oxide and C-type atrial natriuretic peptide stimulate primary aortic smooth muscle cell migration via a cGMP-dependent mechanism: relationship to microfilament dissociation and altered cell morphology. 1018 53

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

We have examined the effect of atrial natriuretic peptide (ANP) and its guanylyl cyclase/natriuretic peptide receptor-A (NPRA) on mitogen-activated protein kinase/extracellular signal-regulated kinase 2 (MAPK/ERK2) activity in rat mesangial cells overexpressing NPRA. Agonist hormones such as platelet-derived growth factor (PDGF), fibroblast growth factor (FGF), angiotensin II (ANG II), and endothelin-1 (ET-1) stimulated 2.5- to 3.5-fold immunoreactive MAPK/ERK2 activity in these cells. ANP inhibited agonist-stimulated activity of MAPK/ERK2 by 65-75% in cells overexpressing NPRA, whereas in vector-transfected cells, its inhibitory effect was only 18-20%. NPRA antagonist A71915 and KT5823, a specific inhibitor of cGMP-dependent protein kinase (PKG) completely reversed the inhibitory effect of ANP on MAPK/ERK2 activity. ANP also inhibited the PDGF-stimulated [(3)H]thymidine uptake by almost 70% in cells overexpressing NPRA, as compared with only 20-25% inhibition in vector-transfected cells. These results demonstrate that ANP/NPRA system negatively regulates MAPK/ERK2 activity and proliferation of mesangial cells in a PKG-dependent manner.
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PMID:Natriuretic peptide receptor-A negatively regulates mitogen-activated protein kinase and proliferation of mesangial cells: role of cGMP-dependent protein kinase. 1079 5

Atrial natriuretic peptide (ANP) receptors A and B are guanylyl cyclase receptors, whereas ANP-C receptors are coupled to adenylyl cyclase through inhibitory guanine nucleotide (Gi) protein. ANP has been shown to downregulate ANP-A and -B receptors and cGMP response in various tissues. In the present studies, we have examined the regulation of ANP-C receptor-adenylyl cyclase signal transduction by ANP and [des(Gln(18),Ser(19),Gln(20),Leu(21), Gly(22))ANP(4-23)-NH(2)](C-ANP(4-23)) that interacts specifically with ANP-C receptor in A10 smooth muscle cells (SMC). Treatment of the cells with C-ANP(4-23) for 24 h resulted in a reduction in ANP receptor binding activity. [(125)I]ANP(99-126) bound to control and C-ANP(4-23)-treated cell membranes at a single site with dissociation constants of 33.7 +/- 6 and 35.0 +/- 4.5 pM and B(max) of 74.0 +/- 5.0 and 57.6 +/- 4.0 fmol/mg of protein, respectively. C-ANP(4-23) inhibited adenylyl cyclase activity in a concentration-dependent manner in control cells. A maximal inhibition observed was about 30-40% with an apparent K(i) of about 1 nM; however, this inhibition was completely attenuated in cells pretreated with ANP(99-126) or C-ANP(4-23) (10(-7) M). However, the inhibition of adenylyl cyclase by 17-amino acid peptide (RRNHQEESNIGKHRELR) (R17A) of cytoplasmic domain of ANP-C receptor was attenuated by about 50% but was not completely abolished by C-ANP(4-23) treatment. The attenuation of C-ANP(4-23)-mediated inhibition of adenylyl cyclase was dependent on the concentration and time of pretreatment of the cells with C-ANP(4-23). In addition, angiotensin II- (Ang II-) mediated inhibition of adenylyl cyclase ( approximately 30%) was also abolished by C-ANP(4-23) treatment, indicating that the desensitization elicited by ANP was heterologous. In addition, C-ANP(4-23) treatment decreased the expression of Gialpha-2 and Gialpha-3 proteins by about 40 and 60%, respectively, and their mRNA by 40%. However, the levels of Gi proteins were not altered when the cells were treated for shorter period of time (2-4 h) or with lower concentrations of C-ANP(4-23) (10(-10) M). On the other hand, the levels of Gsalpha but not of Gbeta were increased by about 35% by C-ANP(4-23) treatment. Furthermore, the stimulations exerted by GTPgammaS, isoproterenol, FSK, and NaF on adenylyl cyclase were also augmented in cells treated with C-ANP(4-23). These results indicate that C-ANP(4-23) treatment of A10 cells desensitizes ANP-C receptor-mediated inhibition of adenylyl cyclase which may be due to the downregulation of ANP-C receptor and decreased expression of Gialpha proteins to which these receptors are coupled.
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PMID:Downregulation of atrial natriuretic peptide ANP-C receptor is associated with alterations in G-protein expression in A10 smooth muscle cells. 1082 66

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