EC:4.6.1.2 - FACTA Search

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)

Inhibitors of nitric oxide (NO) synthesis have been used in the treatment of septic and endotoxic shock. However, several studies question the beneficial effect of inhibiting NO production in sepsis and endotoxemia. We have investigated the effect of inhibition of NO synthesis after endotoxemia in the isolated perfused rat heart. In hearts from endotoxin-treated animals, coronary flow was elevated 64% and oxygen consumption was elevated 20% compared with control hearts. NADH fluorescence imaging was used as an indicator of regional hypoperfusion. A homogeneous low-surface NADH fluorescence, indicative of adequate tissue perfusion, was observed in both control and endotoxin-treated hearts. The increase in coronary flow and oxygen consumption could only partially be prevented by pretreatment of the animals with dexamethasone. Addition of N omega-nitro-L-arginine (NNLA), an inhibitor of NO synthesis, to the perfusion medium eliminated differences in coronary flow and oxygen consumption between normal and endotoxin-treated hearts. However, NADH surface fluorescence images of endotoxin-treated hearts after NNLA revealed areas of high fluorescence, indicating local ischemia, whereas the control hearts remained without signs of ischemia. The ischemic areas were present at various perfusion pressures and disappeared after the infusion of L-arginine, the natural precursor of NO, or the exogenous NO donor sodium nitroprusside. Methylene blue (MB), an inhibitor of soluble guanylate cyclase, the effector enzyme of NO, also eliminated differences in coronary flow and produced similar areas of local myocardial ischemia in endotoxin-treated hearts but not in control hearts.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition of nitric oxide synthesis causes myocardial ischemia in endotoxemic rats. 753 18

The hypothesis was tested that plasma from ischemic hindlimbs facilitates hypertension. Ischemia-induced hypertension was generated in rats by infrarenal aortic cross clamping for 5 h after which plasma was obtained from femoral vein blood. In vitro contractile activity of naive aortic rings incubated for 2 h in plasma collected from ischemic rats demonstrated reduced relaxation to acetylcholine and nitroglycerin. Methylene blue (10(-5) M) induced greater contraction in rings incubated in control vs. ischemic plasma, suggesting that endogenous guanylate cyclase activity is decreased by ischemic plasma. However, 8-bromo-guanosine 3',5'-cyclic monophosphate (cGMP) relaxed equally strips incubated in ischemic or control plasma. Acetylcholine-induced nitrite release was significantly lower in ischemic vs. control plasma-incubated strips (8.6 +/- 2.7 vs. 28.2 +/- 2.3 ng/10 mg tissue wt, respectively). The impaired relaxation to acetylcholine in ischemic plasma-incubated rings was significantly increased by L-arginine but not by prior treatment of ischemic plasma with heating or superoxide dismutase and catalase. These findings suggest the impaired relaxation is mediated through inhibition of the nitric oxide-cGMP pathway. Prolonged blunting of vasodilation by ischemic plasma may therefore contribute to maintenance of a sustained vasoconstriction and ischemic hypertension.
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PMID:Inhibition of vascular nitric oxide-cGMP pathway by plasma from ischemic hindlimb of rats. 763 55

We hypothesized that a decrease in cyclic GMP, a second messenger in the glutamate-nitric oxide pathway, would reduce oxygen consumption and improve O2 balance in the ischaemic cerebral cortex. To test this hypothesis, a study was performed in unilateral middle cerebral artery occluded rats which were assigned to either a control or methylene blue (10(-3) M) group. Regional cerebral blood flow was determined using 14C-iodoantipyrine and regional arterial and venous O2 saturations were determined by microspectrophotometry (n = 6). Cyclic GMP level was measured by radioimmunoassay (n = 8). Guanylate cyclase and cyclic GMP-phosphodiesterase activities were determined in an additional set of control rats (n = 10). The cyclic GMP levels were not different between the ischaemic and contralateral areas in the control group. Compared to the cyclic GMP in the control ischaemic cortex, topical methylene blue significantly decreased the cyclic GMP level by 56% in the ischaemic cortex of the methylene blue group. Ischaemia did not alter the activities of guanylate cyclase but mildly decreased cyclic GMP-phosphodiesterase. The regional cerebral blood flow and O2 consumption in the control group were 50% and 32% lower than those in corresponding contralateral cortex. Topical methylene blue did not alter regional cerebral blood flow and O2 consumption in the ischaemic cortex. Our data showed that cyclic GMP is not a major controller on O2 supply or O2 consumption in the ischaemic brain.
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PMID:Effects of topical methylene blue on cyclic GMP level, blood flow, and O2 consumption in focal cerebral ischaemia. 770 36

We examined the effects of endothelium-dependent responses on coronary perfusion pressure (CPP) in isolated, blood-perfused neonatal pig hearts under conditions of controlled coronary flow. Baseline CPP was increased 8%-21% by the cyclooxygenase inhibitor indomethacin (10-100 microM), and 30%-92% by NG-monomethyl-L-arginine (L-NMMA, 10-100 microM), an inhibitor of nitric oxide (NO) synthase, suggesting that both prostaglandin and nitric oxide synthesis contribute to basal coronary tone. Both acetylcholine (ACh) and bradykinin (BK) decreased CPP. These effects were enhanced by preconstriction with endothelin-1. L-NMMA markedly attenuated BK-induced coronary vasodilation and converted the ACh response to constriction, indicating a significant role for NO release in these responses. After 1 h of total, global normothermic ischemia and 45 min of reperfusion, vasoconstrictor responses to endothelin-1 and ACh were enhanced, while BK-induced dilation was significantly reduced. L-Arginine supplementation during reperfusion did not restore vasodilatory responses to ACh or BK. The magnitude of L-NMMA-induced coronary vasoconstriction during reperfusion was similar to that observed without ischemia-reperfusion. Coronary vasodilation in response to sodium nitroprusside, a NO precursor that causes endothelium-independent vasodilation by directly activating smooth muscle guanylate cyclase, was unaffected by ischemia-reperfusion. We conclude that NO production in the neonatal coronary circulation contributes to both basal tone and the response to ACh and BK. After ischemia-reperfusion, basal NO production and smooth muscle relaxation mediated by guanylate cyclase are intact, whereas agonist-stimulated dilation is significantly impaired.
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PMID:Endothelium-dependent regulation of coronary tone in the neonatal pig. 797 31

Recently, a new class of drugs has been developed with unique properties with regard to cardiovascular pharmacology: K(+)-channel openers. The increased K+ efflux from smooth muscle cells induced by these drugs is accompanied by a reduced intracellular availability of free Ca++, which in turn induces vascular relaxation. This property is currently being exploited to achieve peripheral and coronary artery dilatation in patients with ischemic heart disease. Cromakalim, pinacidil, and nicorandil, are the most extensively investigated agents in this class. Nicorandil, in addition to its K(+)-channel opener property, also shows a nitrate-like activity on guanylate cyclase of vascular smooth muscle cells. Clinical trials demonstrate that chronic administration of nicorandil can significantly increase exercise tolerance in patients with coronary artery disease. In experimental studies, this drug has also shown protective effects against myocardial injury induced by ischemia and reperfusion, by mechanisms partly independent of its vasodilating properties. These results suggest that K(+)-channel openers may have a relevant place in the pharmacological treatment of patients with ischemic heart disease.
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PMID:[Anti-angina activity of potassium-channel activators]. 802 48

This review discusses the mechanisms of action of the organic nitrates, nitrate tolerance, and the effects of nitrates in patients with stable angina pectoris. The nitrates are prodrugs that enter the vascular smooth muscle, where they are denitrated to form the active agent nitric oxide (NO). NO activates guanylate cyclase, which results in cyclic guanosine monophosphate (cGMP) production and vasodilation as a result of reuptake of calcium by the sarcoplasmic reticulum. NO is identical to endothelium-derived relaxing factor (EDRF), which induces vasodilation, inhibits platelet aggregation, reduces endothelium adhesion, and has anticoagulant and fibrinolytic effects. Thus, the nitrates may be more than vasodilators and, in addition to reducing ischemia, may affect the process of atherosclerosis. The vascular effects of nitrates are attenuated during sustained therapy. Although the basis for the phenomenon of nitrate tolerance is not completely understood, sulfhydryl depletion as well as neurohormonal activation and increased plasma volume may be involved. The administration of N-acetylcysteine, angiotensin-converting enzyme (ACE) inhibitors, or diuretics do not consistently prevent nitrate tolerance. At present, intermittent nitrate therapy is the only way to avoid nitrate tolerance. The intermittent administration of nitrates, however, cannot provide continuous therapeutic benefits, and thus monotherapy with nitrates is not suitable for many patients with stable angina pectoris.
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PMID:Nitrates and angina pectoris. 837 99

Myocardial stunning is a phenomenon in which ventricular function is depressed by prior ischemia and remains suboptimal when blood flow is resumed. It is also characterized by coronary vascular endothelial dysfunction that is related to the duration of ischemia and can result in protein leakage, myocardial hemorrhage, or increased coronary vascular resistance. It is thought that local vascular tone is regulated by endothelium derived relaxing factor (EDRF), a compound commonly believed to be identical to nitric oxide (NO). EDRF increases the effects of other vasodilators through the formation of cyclic guanosine monophosphate (cGMP) by guanylate cyclase. Patients with various cardiovascular disorders have been found to have dysfunction in the EDRF system, and EDRF paradoxically produces vasoconstriction in atherosclerotic arteries. Similarly, EDRF stimulation of vasodilation due to acetylcholine, calcium ionophores, or platelets appears to be reduced in coronary arteries that have been damaged by ischemia and reperfusion. By increasing EDRF production or inhibiting its breakdown, EDRF precursors such as L-arginine, the superoxide radical scavenger superoxide dismutase, nitroglycerin, and nitroprusside all cause vasodilation by increasing NO levels in the setting of myocardial ischemia. These therapies may also improve local "microvascular" function, thereby improving ventricular function.
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PMID:Do deficiencies of endothelial derived relaxing factor contribute to myocardial stunning? 846 25

The polarized expression of guanylyl cyclase-coupled natriuretic peptide receptors, types A (GC-A) and B (GC-B), was measured in inner medullary collecting ducts (IMCD) of normal and ischemic rat kidneys, as well as in IMCD cells. Exposure of normal rat kidney medulla to an anti-GC-A antibody demonstrated a propensity of receptor staining on the cellular basal membrane. The polarization of GC-A receptors was lost in the ischemic kidney. The maximal binding capacity of 125I-atrial natriuretic factor (ANF) to the basal membrane of the inner medullary cell line mIMCD-K2 was five times greater than that to the apical membrane. ANF or C-type natriuretic peptide (CNP) added to the basal side of cultured cells resulted in guanosine 3',5'-cyclic monophosphate formation that was greater than when applied to the apical side. Depletion of ATP stores in cultured cells was followed by an increase of 125I-ANF binding to apical cellular membranes. Similar results were obtained when receptor guanylyl cyclase activity was assayed. In conclusion, these results suggest that functional GC-A and GC-B receptors are present predominantly on the basal membrane of IMCD. However, depletion of cellular ATP stores such as in ischemia is followed by a partial loss of polarization.
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PMID:Polarized distribution of renal natriuretic peptide receptors in normal physiology and ischemia. 859 88

This study was aimed to examine properties and changes in nitric oxide synthase (NOS) activity and cGMP level during reperfusion after 5 min of brain ischemia in gerbils. Animals were treated 5 min before ischemia with NOS inhibitors: N-Nitro-L-arginine (NNLA), or 7-Nitroindazole (7-NI), or with the inhibitor of guanylate cyclase, LY 83583, or with hydrocortisone for 7 days before ischemia. Northern blot analysis was performed using specific cDNA for inducible NOS. It was observed that ischemia significantly enhances NOS activity and cGMP level. During reperfusion, biphasic increase in NOS activity and cGMP level took place with two peaks 15 min and 2 h after ischemia. NNLA, 7-NI, and LY 83583 eliminated enhancements of NOS activity and cGMP level, whereas glucocorticoid remained without effect. There was no activation of gene encoding inducible NOS (iNOS). Our results indicate that ischemia-reperfusion activates constitutive NOS. It is suggested that nitric oxide (NO) production during reperfusion is related to neuronal degeneration and that inhibitor of NOS offers a new therapeutical strategies.
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PMID:Biphasic enhancement of nitric oxide synthase activity and cGMP level following brain ischemia in gerbils. 878 13

The stimulation of NMDA receptor activates NO dependent cGMP biosynthesis with dynamic and extent different for hippocampus and brain cortex. The significantly higher NO mediated cGMP level was observed in hippocampus than in brain cortex. NMDA receptor stimulation increases NO mediated cGMP formation about 8 fold in hippocampus and 2.5 fold in brain cortex as compared to basal value (2 mM CaCl2). The activity of NO synthase and the basal level of cGMP in unstimulated slices were only slightly higher in hippocampus then in brain cortex. The CA2+ calmodulin dependent NO synthase was found in brain membrane and cytosol fraction. The enzyme activity was not affected by glucocorticoids, even after 20 days of hydrocortisone treatment in a dose of 40 mg/kg b.w. Brain ischemia induced by ligation of both common carotid arteries in gerbils increases significantly NOS activities as well as the level of cGMP and putrescine but decreases mono-ADP-ribosylation of brain proteins during reperfusion period. The ischemia evoked changes of NOS/cGMP were eliminated by specific inhibitor of neuronal form of NOS, 7-Nitrodazole (7NI) administered in a dose of 25 mg/kg b.w. 5 min. before ischemia. This inhibitor has no effect on the level of putrescine enhanced during ischemia and also biphasically during reperfusion. The inhibitor of guanylate cyclase, LY 83583 administered in a dose of 6 mg/kg b.w. 5 min before ischemia diminishes not only the enhanced level of cGMP but also NOS activity stimulated by ischemia. These results indicate that activation of NMDA receptor stimulates more significantly NO/cGMP production in hippocampus than in brain cortex suggesting the role of NO in neuronal form of NOS and inhibitor of guanylate cyclase protect the brain against excessive production of nitric oxide and cGMP during ischemia-reperfusion. These compounds may offer a new strategy in the therapy of brain ischemia.
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PMID:NMDA receptor mediated nitric oxide dependent cGMP synthesis in brain cortex and hippocampus. Effect of ischemia on NO related biochemical processes during reperfusion. 910 Feb 45

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