Gene/Protein Disease Symptom Drug Enzyme Compound
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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 examined the depressor effects of L- and D-arginine on the diastolic blood pressure of pithed normotensive Wistar (NW), Wistar-Kyoto (WKY) and spontaneously hypertensive (SH) rats after the administration of a single bolus injection of the nitric oxide synthase inhibitor, NG-monomethyl-L-arginine (L-NMMA). A single bolus intravenous injection of L-NMMA, 30 mg/kg, produced an increase in both the systolic and diastolic blood pressure of pithed rats. Injections of bolus doses, 1-300 mg/kg, of D-arginine did not lead to sustained reductions of the blood pressure in pithed NW rats although slight decreases in the blood pressure of WKY and SH rats were observed, and these transient effects of D-arginine appeared to be more pronounced in the WKY strain. Immediately following the bolus injections of the higher doses of D-arginine a transient decrease in both the systolic and diastolic pressure occurred. In contrast to the actions of D-arginine single bolus injections of L-arginine, 1-300 mg/kg, produced a dose-dependent sustained reduction in both the systolic and diastolic blood pressures of all rats. The threshold for the depressor actions of L-arginine was the same for NW, WKY and SH rats. The final dose of L-arginine (300 mg/kg), produced a significantly greater depressor effect in WKY and SH rats as compared to NW rats. The blood pressure remained elevated after the dose-response curve to D-arginine and, in order to determine whether D-arginine-treated rats are sensitive to the effects of other vasodilators and whether differences in vasoactive actions exist for vasodilators acting other than via nitric oxide synthesis, a dose-response curve to the calcium channel antagonist verapamil was constructed. Injections of verapamil, 0.1-1000 micrograms/kg, produced a dose-dependent reduction in blood pressure with no difference in either threshold or sensitivity to the actions of verapamil among the three strains of rats. Our results suggest that strain differences exist between the depressor actions of L-arginine and that it is possible that these differences may be due to an alteration in the endogenous levels of nitric oxide synthase and/or the activity of guanylate cyclase, however, no relationship to the hypertensive state of the spontaneously hypertensive rats was apparent.
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PMID:Actions of L- and D-arginine and NG-monomethyl-L-arginine on the blood pressure of pithed normotensive and spontaneously hypertensive rats. 160 Jun 43

Oxyhemoglobin and endothelin have both been linked to the development of the severe and sustained cerebral vasospasm associated with subarachnoid hemorrhage. The effects of oxyhemoglobin on endothelin biosynthesis in cultured endothelial cells were evaluated. Oxyhemoglobin (0.01 to 100 microM) produced concentration-dependent increases in immunoreactive endothelin levels in bovine pulmonary artery endothelial cell-conditioned medium. The median effective concentration for oxyhemoglobin-induced increases in immunoreactive endothelin levels was approximately 0.5 microM, and the maximum stimulation of immunoreactive endothelin levels was approximately 5.5-fold over basal conditions. In addition to directly stimulating basal production of immunoreactive endothelin, oxyhemoglobin significantly augmented immunoreactive endothelin production following platelet-mediated stimulation of endothelin production. An l-arginine analog inhibitor of nitric oxide synthase, L-NG-monomethyl arginine (L-NMMA, 200 microM), did not significantly affect basal immunoreactive endothelin levels. However, L-NMMA significantly augmented platelet-induced immunoreactive endothelin production. Methylene blue (10 microM), an inhibitor of soluble guanylate cyclase, did not significantly affect basal immunoreactive endothelin levels, nor did it significantly affect the platelet-mediated stimulation of immunoreactive endothelin production in cultured endothelial cells. The present results reveal that oxyhemoglobin can directly stimulate endothelin biosynthesis in cultured endothelial cells. This newly identified property of oxyhemoglobin suggests a potential mechanism for the sustained and severe cerebral vasospasm associated with subarachnoid hemorrhage.
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PMID:Oxyhemoglobin stimulation of endothelin production in cultured endothelial cells. 162 17

1. Although nitrates have been prescribed in patients with angina pectoris for more than a century, their mechanism of action has only been understood recently. 2. The discovery of the endogenous nitrovasodilator nitric oxide, which is formed in endothelial cells by the enzyme nitric oxide synthase, has greatly expanded our knowledge. Nitric oxide, if released from endothelial cells can interact with vascular smooth muscle as well as circulating blood cells such as platelets. Nitric oxide activates soluble guanylate cyclase, which in turn leads to an intracellular increase in cyclic GMP. In vascular smooth muscle, this causes vasorelaxation, in platelets dysaggregation and prevention of platelet adhesion. This protective pathway both reduces the effects of vasoconstrictor substances, can produce profound vasodilation, if activated appropriately and acts as a regulator of platelet-vessel wall interaction. In addition, nitric oxide inhibits the production and action of endothelin, a 21 amino acid vasoconstrictor peptide formed by endothelial cells. 3. Exogenous nitrovasodilators also exert their action by releasing nitric oxide from the molecule. Their action is particularly pronounced in blood vessels with a low basal production of nitric oxide and is enhanced after removal of the endothelium. In coronary artery disease, the formation of endothelium-derived nitric oxide is reduced, its breakdown is increased, but only at later stages, is the action of endogenous and therapeutic nitrates depressed. 4. Hence, nitrates are an appropriate therapeutic tool in patients with coronary artery disease to substitute the effects of the impaired activity of the endothelial L-arginine/nitric oxide pathway.
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PMID:Endogenous and exogenous nitrates and their role in myocardial ischaemia. 163 76

The vascular endothelium plays an essential role in regulating the contractility of the adjacent smooth muscle cell through its secretory and metabolic properties. One of these well known properties is the conversion of angiotensin I into angiotensin II. But the endothelium also secretes at least three compounds able to diffuse to the smooth muscle cell and exerting a paracrine action: these are the prostacyclin (PGI2), the endothelium derived relaxing factor (EDRF) and the endothelin 1. The secretion of these different vasoactive compounds by endothelial cells is triggered by mechanical events, such as the shear stress, or by the effect of several humoral factors locally released, for example from platelets. The compound NO (nitric oxide) is produced by the endothelial enzyme NO synthase from its precursor L-arginine, and is responsible for the vasodilatory and antiplatelets properties of EDRF. NO, by activating the soluble guanylate cyclase in the smooth muscle cell, is responsible for the endothelium dependent vasodilatation. We observed in an isolated perfused rat kidney that the compound L-NAME (NG-monomethyl-L-arginine methyl ester), a competitive inhibitor of NO synthase blocking the production of NO, induces renal vasoconstriction and inhibits renin release. This suggests that not only the renal vasoconstriction but also the renal vasodilatation are active processes, permanently regulated by vasoactive compounds such as EDRF. It seems also that EDRF plays an important role in maintaining the secretion of renin. It can be hypothetized that an abnormality in the release or fate of EDRF might perhaps contribute to high blood pressure, by both a direct effect on the vascular tone and an indirect effect on the release of renin, which in turn regulates also the renal and systemic hemodynamics.
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PMID:[Control of vascular tone by the endothelium: the coupling active vasodilation in the kidney to renin secretion]. 163 4

We studied whether inhibition of angiotensin converting enzyme stimulates the formation of nitric oxide and prostacyclin in cultured human and bovine endothelial cells by an enhanced accumulation of endothelium-derived bradykinin. Nitric oxide formation was assessed in terms of intracellular cyclic GMP accumulation, prostacyclin release by a specific radioimmunoassay. Inhibition of angiotensin converting enzyme by ramiprilat dose- and time-dependently increased the formation of nitric oxide and prostacyclin. These increases, peaking within 10 minutes, were maintained for at least 60 minutes. The ramiprilat-induced cyclic GMP increase was completely abolished by the stereospecific inhibitor of nitric oxide synthase, NG-nitro-L-arginine. The B2-kinin receptor antagonist, Hoe 140 (0.1 microM), markedly attenuated the cyclic GMP accumulation and abolished the increase in prostacyclin release. The supernatant of endothelial cells, incubated with ramiprilat (0.3 microM) for 15 minutes, elicited a significant nitric oxide release (as assessed by a guanylyl cyclase assay) in untreated endothelial cells used as detector tissue. Preincubation of the detector cells with Hoe 140 completely abolished this nitric oxide release. These data indicate that cultured endothelial cells from different species are capable of producing and releasing bradykinin into the extracellular space in amounts that lead to a sustained stimulation of nitric oxide and prostacyclin formation, provided that bradykinin degradation is prevented by angiotensin converting enzyme inhibition. Thus, the protective effect of angiotensin converting enzyme inhibitors observed on endothelial vasomotor function in hypertension may be explained by the local accumulation of endothelium-derived bradykinin that acts in an autocrine and paracrine manner as potent stimulus for endothelial autacoid formation.
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PMID:Ramiprilat enhances endothelial autacoid formation by inhibiting breakdown of endothelium-derived bradykinin. 165 53

The influence of endothelium-derived nitric oxide (EDNO) on relaxation induced by the nitrovasodilators, sodium nitroprusside and sodium nitrite was assessed in phenylephrine-stimulated hamster thoracic aortas, a preparation that displays significant basal release of EDNO. Removal of the endothelium or treatment with the NO synthase inhibitors, NG-nitro-L-arginine (L-NAG, 10-30 microM) or NG-methyl-L-arginine (L-NMMA; 100 microM) increased the potency and, except for sodium nitroprusside in endothelium-denuded segments, also increased the efficacy of the nitrovasodilators. Removal of the endothelium had no effect on relaxations induced by isoproterenol, an indication that these effects were specific for the nitrovasodilators. Removal of the endothelium, treatment of endothelium-intact preparations with L-NAG or L-NMMA, or exposure of these vessels to the guanylate cyclase inhibitor, methylene blue (10 microM) increased reactivity of the aortas to the guanosine 3':5'-cyclic monophosphate (cGMP) analogue, 8-Br cGMP. Measurement of cGMP revealed that endothelium-intact segments had a 6.5 fold higher level of cGMP than endothelium-denuded preparations and that sodium nitroprusside increased cGMP in both preparations by similar amounts in a concentration-dependent fashion. Exposure of endothelium-denuded or L-NAG-treated segments to sodium nitroprusside, to mimic the effects of basally released EDNO, depressed sodium nitrite and 8-Br cGMP reactivity in a manner similar to endothelium-intact segments. These data indicate that EDNO increases cGMP levels in vascular smooth muscle and that the elevated cGMP levels depress nitrovasodilator and 8-Br cGMP reactivities.
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PMID:Elevated guanosine 3':5'-cyclic monophosphate mediates the depression of nitrovasodilator reactivity in endothelium-intact blood vessels. 166 Jan 5

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

L-Arginine (L-Arg) is metabolized by nitric oxide synthase to the reactive intermediate nitric oxide. Since nitric oxide stimulates guanylyl cyclase and cGMP synthesis, L-Arg effects on cGMP accumulation in isolated pancreatic islets of the rat and RINm5F insulinoma cells were determined. Both L-Arg and glucose stimulation increased islet cGMP levels, and glucose potentiated the response to L-Arg alone. A competitive inhibitor of L-Arg metabolism to nitric oxide, NG-monomethyl-L-arginine, reduced glucose- and L-Arg-stimulated insulin release and glucose-induced increases in cGMP; however, basal insulin release was slightly increased. D-Arg and L-ornithine did not affect islet cGMP levels, although insulin release was stimulated. RINm5F cell cGMP levels and insulin release increased in response to L-Arg in a concentration- and time-related manner, whereas glucose and L-histidine were without effect. 8-Bromo-cGMP also slightly increased RINm5F cell insulin release. Sodium nitroprusside as a source of nitric oxide increased RINm5F cell cGMP production. Methylene blue and LY83583, inhibitors of soluble guanylyl cyclase activation, reduced RINm5F cell cGMP levels in the presence and absence of L-Arg; LY83583 also reduced glucose-stimulated cGMP levels in islets. Insulin release by glucose and L-Arg was also inhibited by methylene blue and LY83583 in islets. We conclude that glucose and L-Arg stimulate guanylyl cyclase activity and cGMP formation in beta-cells at least in part through metabolism to the reactive intermediate nitric oxide. However, neither nitric oxide nor cGMP synthesis is obligatory for insulin secretion.
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PMID:L-arginine stimulates cyclic guanosine 3',5'-monophosphate formation in rat islets of Langerhans and RINm5F insulinoma cells: evidence for L-arginine:nitric oxide synthase. 168 79

The synthesis of nitric oxide by brain slices has been demonstrated in several laboratories. In addition, in vitro studies have demonstrated stimulation of nitric oxide synthesis by excitatory amino acid receptor agonists. These data have led to the hypothesis that this readily diffusible "intercellular messenger molecule" acts to generate a cascade effect by activating guanylate cyclase in several cell types and thereby augment levels of the second messenger cyclic GMP (cGMP). Therefore, we evaluated this hypothesis in vivo, by testing the actions of the nitric oxide synthase inhibitor N-mono-methyl-L-arginine (NMMA) on elevations in level of mouse cerebellar cGMP generated by excitatory amino acid receptor agonists. The stimulatory effects of D-serine, quisqualate, and kainate were all found to be antagonized by this enzyme inhibitor. In addition, NMMA antagonized the increases in cerebellar cGMP level elicited by harmaline and pentylenetetrazole, pharmacological agents that augment endogenous excitatory amino acid transmission. Our data are, therefore, the first in vivo demonstration that nitric oxide is an important "messenger molecule" in the cerebellum, mediating the actions of kainate, quisqualate, and N-methyl-D-aspartate receptor agonists on guanylate cyclase. These data are consistent with previous in vitro findings with kainate and N-methyl-D-aspartate.
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PMID:Inhibition of nitric oxide synthase blocks N-methyl-D-aspartate-, quisqualate-, kainate-, harmaline-, and pentylenetetrazole-dependent increases in cerebellar cyclic GMP in vivo. 169 47

We investigated whether calmodulin mediates the stimulating effect of Ca2+ on nitric oxide synthase in the cytosol of porcine aortic endothelial cells. Nitric oxide was quantified by activation of a purified soluble guanylate cyclase. The Ca2(+)-sensitivity of nitric oxide synthase was lost after anion exchange chromatography of the endothelial cytosol and could only be reconstituted by addition of calmodulin or heat-denatured endothelial cytosol. The Ca2(+)-dependent activation of nitric oxide synthase in the cytosol was inhibited by the calmodulin-binding peptides/proteins melittin, mastoparan, and calcineurin (IC50 450, 350 and 60 nM, respectively), but not by the calmodulin antagonist, calmidazolium. In contrast, Ca2(+)-calmodulin-reconstituted nitric oxide synthase was inhibited with similar potency by melittin and calmidazolium. The results suggest that the Ca2(+)-dependent activation of nitric oxide synthase in endothelial cells is mediated by calmodulin.
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PMID:Calcium-dependent nitric oxide synthesis in endothelial cytosol is mediated by calmodulin. 169 82


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