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)

Experiments were performed to elucidate the role of cyclic guanosine monophosphate (cGMP) on platelet activation induced by protein kinase C (PKC) activators and calcium ionophore. Human platelets were pretreated with acetylsalicylic acid and with hirudin and apyrase. Aggregation and ATP secretion in response to the PKC activators 4 beta-phorbol 12-myristate 13-acetate (PMA) and 1-oleoyl 2-acetylglycerol (OAG) were inhibited by the nitrovasodilator sodium nitroprusside (SNP), an activator of guanylate cyclase, and by 8-bromo-cyclic GMP (8-Br-cGMP). The experiments were performed in the presence of M&B 22948, an inhibitor of cGMP phosphodiesterase. SNP and 8-Br-cGMP also inhibited platelet aggregation and secretion evoked by the ionophore ionomycin. In fura-2 loaded platelets SNP did not affect basal cytosolic Ca2+ level nor the rise induced by low concentrations of ionomycin, both in the presence and absence of extracellular Ca2+. The phosphorylation of the 47 and 20 kDa protein induced by ionomycin or PMA were not significantly decreased by SNP or 8-Br-cGMP. The present results suggest that cGMP is able to inhibit both the PKC and the Ca(2+)-dependent pathways leading to platelet activation by interfering, similarly to cAMP, with processes following protein phosphorylation, close to the effector systems.
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PMID:Platelet activation by diacylglycerol or ionomycin is inhibited by nitroprusside. 165 43

The Na-H antiporter of renal-brush border membranes is inhibited by cyclic AMP and stimulated by protein kinase C. The proximal tubule contains guanylate cyclase and is capable of cyclic GMP production. The effect of cGMP on renal Na-H antiporter activity was analyzed in phosphorylated brush border membranes by 22Na uptake in the presence or absence of 1 mM amiloride. 8-Bromo cyclic GMP (1 microM) increased the amiloride-sensitive 22Na uptake in control from 1.26 +/- 0.13 to 1.54 +/- 0.12 nmol/mg/protein/10 sec, P less than 0.01, without altering the amiloride-insensitive component. In the absence of exogenous ATP, cGMP also stimulated the amiloride-sensitive 22Na uptake, which can be explained by the presence of endogenous ATP in concentrations of up to 50 microM in the membranes. In ATP-depleted membrane vesicles, however, cGMP inhibited the amiloride-sensitive 22Na uptake. These data indicate that cGMP acts on the Na-H antiporter by at least two different mechanisms, one of which is ATP dependent. It is likely that cGMP-dependent protein kinase mediates the stimulatory effects seen in the presence of ATP, and the inhibition seen in ATP-depleted membranes results from cGMP direct action on the Na-H antiporter.
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PMID:Dual effect of cyclic GMP on renal brush border Na-H antiporter. 165 8

Endothelial relaxing factor has been identified as nitric oxide, formed from L-arginine by the soluble enzyme nitric oxide synthase. Nitric oxide inhibits platelet aggregation and adhesion by stimulating a soluble guanylate cyclase and increasing the intracellular concentration of cyclic GMP. Nitrovasodilators, such as sodium nitroprusside, release the active moiety, nitric oxide. In the present study, we have investigated the effect of sodium nitroprusside and of a permeable cGMP derivative on the aggregation and ATP secretion of human platelets stimulated with the protein kinase C activators 1-oleoyl-2-acetylglycerol or 4 beta-phorbol-12- myristate-13-acetate. Human platelets were treated with lysine acetylsalicylate, washed and resuspended in Tyrode-buffered solution. ATP secretion was evaluated by luciferin-luciferase luminescence. Nitroprusside (4-40 microM) or 8-Br-cGMP (0.1-2.4 mM) inhibited both platelet aggregation and ATP secretion evoked by 1-oleoyl-2-acetylglycerol (40 microM) or 4 beta-phorbol-12-myristate-13- acetate (4 nM) in a dose-dependent manner, in the presence of the selective inhibitor of cGMP phosphodiesterase, M&B 22948 (5 microM). The inhibitory effect of nitroprusside was reversed by hemoglobin, known to bind and inactivate nitric oxide. To study the calcium-dependent pathway, we treated platelets with the ionophore ionomycin. The ensuing aggregation and ATP secretion were rapid and were dependent on agonist concentration. Nitroprusside (4-40 microM) inhibited the aggregation evoked by ionomycin (0.4 microM) as well as ATP release, in a dose-dependent manner. We conclude that cGMP is able to inhibit both the protein kinase C-dependent and the calcium-dependent pathways leading to platelet activation.
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PMID:Nitrovasodilators and cGMP inhibit human platelet activation. 166 Mar 21

In the present study, we investigated the effects of calmodulin, adenosine 5'-triphosphate (ATP) and pertussis toxin (PT) on phorbol ester (PMA) (a protein kinase C activator) induced inhibition of ANF-stimulated cyclic GMP formation in cells from the human renal cell line, SK-NEP-1. PMA inhibited ANF-stimulated guanylate cyclase activity in particulate membranes by about 65%. Calmodulin reversed this inhibition in a dose dependent manner. ATP potentiated Mg++ but not Mn++ supported guanylate cyclase activity. In PMA treated membranes, ATP potentiating effects were abolished. PMA also inhibited ANF-stimulated cGMP accumulation, but pretreatment with PT prevented this PMA inhibition. PT did not affect basal or ANF-stimulated cGMP accumulation. In conclusion, these results demonstrated that PMA (activated protein kinase C) inhibited ANF stimulation of particulate guanylate cyclase in opposition to the activating effects of calmodulin or ATP in SK-NEP-1 cells. The protein kinase C inhibitory effects appeared to be mediated via a PT-sensitive G protein.
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PMID:The opposing effects of calmodulin, adenosine 5'-triphosphate, and pertussis toxin on phorbol ester induced inhibition of atrial natriuretic factor stimulated guanylate cyclase in SK-NEP-1 cells. 167 90

We examined calcium and calmodulin regulation of atrial natriuretic factor stimulation of particulate-membrane guanylate cyclase (ANF-s-GC) in SK-NEP-1 cells. W7 and trifluoropiperazine, but not W5, inhibited whole cellular ANF-stimulated cyclic GMP accumulation (ANF-s-cGMP). EGTA and LaCl3 decreased ANF-s-GC and calmodulin reversed this inhibition. A23187-induced inhibition of ANF-s-cGMP was only partly reversible by IBMX. H7 or staurosporine counteracted the inhibitory effect of A23187. Calcium inhibited basal and ANF-s-GC. These data suggest that at low concentrations of calcium, ANF-s-GC was calcium-calmodulin dependent but high concentrations of calcium inhibited ANF-s-GC through phosphodiesterase, through inhibition of GC, and probably through protein kinase C.
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PMID:Calcium and calmodulin regulate atrial natriuretic factor stimulation of cyclic GMP in a human renal cell line. 168 32

To evaluate an interaction between vasoconstrictive (Ang II) and vasodilating (ANP) peptides, we examined the effect of Ang II on ANP-induced accumulation of cGMP in cultured glomerular mesangial cells. ANP rapidly increased intracellular cGMP levels, with a peak stimulation at one minute in the absence of IBMX and at ten minutes in the presence of IBMX. The ANP-induced cGMP accumulation was significantly inhibited when the cells were treated with Ang II simultaneously with ANP for one minute in the absence of IBMX. This inhibitory effect of Ang II was completely abolished by IBMX and significantly reduced in calcium-free media or by W7, but not affected by H7. Similar inhibitory effect was observed when cells were treated with A23187 but not with TPA for one minute. In the presence of IBMX, Ang II inhibited ANP-induced cGMP accumulation when cells were treated with Ang II for 15 minutes prior to the stimulation by ANP. This inhibition by Ang II was blocked by H7. ANP-induced increase in particulate guanylate cyclase activity was significantly reduced in the cells treated with Ang II or TPA. This reduction of enzyme activity was also prevented by H7. These results indicate that Ang II inhibits ANP-induced cGMP accumulation in cultured glomerular mesangial cells through at least two mechanisms; one is the activation of calcium-dependent, calmodulin-stimulated cyclic nucleotide phosphodiesterase in the initial phase, and the other is the inhibition of guanylate cyclase resulting from protein kinase C activation in the maintenance phase.
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PMID:Dual mechanism of angiotensin II inhibits ANP-induced mesangial cGMP accumulation. 171 65

The polypeptide hormone erythropoietin (Ep) is a growth factor whose actions on the erythroid progenitor cell induce proliferation and differentiation. The signal transduction system activated by Ep to mediate these cellular processes remains largely uncharacterized despite many years of research devoted to its elucidation. It is clear that an Ep receptor-mediated activation of adenylate cyclase or guanylate cyclase does not occur, although cAMP and cGMP may play modulatory roles. The role of calcium in the action of Ep is less clear. Although the presence of extracellular calcium seems to be an absolute requirement for Ep-induced proliferation, the positive changes induced by Ep in intracellular calcium occur with a time course suggestive of influx through ion channels opening within the cell membrane rather than release of intracellular stores by inositol trisphosphate. There is good evidence for the involvement of phospholipases A2 and C in the actions of Ep, including an early rise in lipoxygenase metabolites of arachidonic acid. Activation of phospholipase C can also result in the activation of protein kinase C in response to Ep. We present a model for the signal transduction pathway of Ep that is consistent with current knowledge and provides a framework for the coordinate actions of several intracellular mechanisms in the mediation of Ep-induced proliferation.
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PMID:Signal transduction in erythropoiesis. 175 62

We examined the possibility that, in addition to stimulation of guanylate cyclase (GC), atrial natriuretic peptide (ANP) also activates phospholipase C (PLC) in cultured rat inner medullary collecting tubule (RIMCT) cells. ANP (10(-12)M) causes marked release of inositol trisphosphate (IP3) at a concentration that does not stimulate GC. Concentrations of ANP that stimulate GC (greater than or equal to 10(-10) M) result in attenuated IP3 release. Similarly, exogenous dibutyryl guanosine 3',5'-cyclic monophosphate (10(-6) M) markedly inhibits the response to 10(-10) M ANP. Inhibition of cyclic nucleotide-dependent protein kinase by H 8, but not inhibition of protein kinase C by H 7, restores the response to 10(-8) and 10(-6) M ANP. Therefore, activation of cyclic nucleotide-dependent protein kinase inhibits ANP-stimulated PLC activity. Activation of protein kinase C by phorbol 12-myristate-13-acetate (PMA) decreases ANP-stimulated IP3 production. Pretreatment with H 7, but not H 8, prevents inhibition by PMA. To explore a potential role for G proteins, we examined the effect of guanine nucleotide analogues on ANP-stimulated IP3 production in saponin-permeabilized cells. ANP-stimulated IP3 production is enhanced by GTP gamma S and is inhibited by GDP beta S. Similarly, preincubation with pertussis toxin prevents ANP-stimulated IP3 release. We conclude that ANP stimulates PLC in RIMCT cells via a pertussis toxin-sensitive G protein. Stimulation of PLC is inhibited on activation of either cyclic nucleotide or Ca2+-phospholipid dependent protein kinases.
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PMID:ANP stimulates phospholipase C in cultured RIMCT cells: roles of protein kinases and G protein. 184 66

In the present studies we sought to determine if cicletanine, which is an antihypertensive agent of unknown mechanism, could alter cGMP metabolism via inhibition of cGMP phosphodiesterases (PDE) in vascular smooth muscle. Cicletanine was determined to be a mixed (competitive, noncompetitive) inhibitor of both calmodulin-regulated and cGMP-specific PDEs from monkey aortic smooth muscle with Ki values of 450 to 700 microM. Cicletanine also potentiated vasorelaxation by the guanylate cyclase activators sodium nitroprusside and atrial natriuretic peptide in isolated rat aortas. Potentiation was not dependent upon the contractile agonists nor was it indomethacin-sensitive. Neither potentiation nor inhibition of cGMP PDEs was stereoselective. Methylene blue attenuated a component of cicletanine-induced vasorelaxation, but did not completely obviate relaxation. Both cicletanine and the cGMP-PDE inhibitor zaprinast potentiated sodium nitroprusside-mediated cGMP formation and relaxation, although the increase in cGMP content was markedly greater with zaprinast compared to cicletanine. In further studies, cicletanine did not potentiate cGMP activation of cGMP-dependent protein kinase, but did inhibit calmodulin-activated myosin light chain kinase and protein kinase C at relatively high concentrations (approximately 1 mM). In summary, these data demonstrate that cicletanine inhibits vascular cGMP PDEs, potentiates vasorelaxation, and to a limited extent, cGMP formation by guanylate cyclase activators in vascular smooth muscle. However, these relationships for cicletanine are dissimilar from the reference cGMP PDE inhibitor, zaprinast. Thus, other mechanisms may also contribute to the vasorelaxant action of cicletanine.
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PMID:Inhibition of low Km cGMP phosphodiesterases and Ca+(+)-regulated protein kinases and relationship to vasorelaxation by cicletanine. 185 Apr 74

The putative 'second messenger' of certain atrial natriuretic factor (ANF) signal transductions is cyclic GMP. Recently, we purified a 180-kDa protein, apparently containing both ANF receptor and guanylate cyclase activities, and hypothesized that this is one of the cyclic GMP transmembrane signal transducers. The enzyme is ubiquitous and appears to be conserved. Utilizing the 180-kDa membrane guanylate cyclase, we now show that the 180-kDa guanylate cyclase is regulated in opposing fashions by two receptor signals--ANF stimulating it and protein kinase C inhibiting it. Furthermore, protein kinase C phosphorylates the 180-kDa enzyme. This suggests a novel 'switch on' and 'switch off' mechanism of the cyclic GMP signal transduction. 'Switch off' represents the phosphorylation while 'switch on' the dephosphorylation of the enzyme.
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PMID:Regulation of guanylate cyclase activity by atrial natriuretic factor and protein kinase C. 197 7

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