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

Pulmonary hypoxic vasoconstriction appears to have both endothelium-dependent and -independent regulatory pathways. We have previously described a mechanism of guanylate cyclase activation in isolated pulmonary arteries that is smooth muscle contained and oxygen tension dependent. In this study we examine this mechanism, involving H2O2 metabolism by catalase, and its relationship to endothelial-derived nitric oxide in the regulation of pulmonary artery pressure (PAP) by oxygen tension. Using probes selective for these two distinct mechanisms of guanylate cyclase activation, we found in the isolated buffer-perfused rat lung that 100 microM nitro-L-arginine (NLA), an inhibitor of NO formation, increased baseline PAP from 4.8 +/- 0.6 to 6.0 +/- 0.6 mmHg and hypoxic PAP from 6.8 +/- 0.8 to 8.56 +/- 0.6 mmHg. Aminotriazole (AT), an inhibitor of H2O2 metabolism by catalase, also increased PAP from 4.5 +/- 0.9 to 6.1 +/- 2.0 mmHg (P < or = 0.05) and hypoxic PAP from 6.0 +/- 1.7 to 8.7 +/- 2.7 mmHg (P < or = 0.05). Additionally, while NLA did not affect the vasodilation that occurs upon reoxygenation, AT inhibited the immediate response to reoxygenation. In the presence of both NLA and AT, baseline PAP increased from 4.25 +/- 0.8 to 9.9 +/- 0.92 mmHg (P < or = 0.05), but hypoxia did not significantly increase PAP and the reoxygenation response was inhibited. These data suggest that both NO and H2O2-catalase mechanisms contribute to a similar degree to maintain low PAP under normoxic conditions. The removal of either mediator may contribute to hypoxic vasoconstriction.
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PMID:NO and H2O2 mechanisms of guanylate cyclase activation in oxygen-dependent responses of rat pulmonary circulation. 753 59

Nitric oxide (.NO) is synthesized by the enzyme nitric oxide synthase (NOS). There are 2 constitutive forms of NOS (cNOS) and 1 inducible form (iNOS). Cells containing cNOS rapidly and transiently produce small amounts of NO in response to agonists that raise cytosolic levels of free Ca2+, whereas cells expressing inducible iNOS produce large amounts of .NO for extended periods after a lag of several hours during which time the enzyme is induced. Until recently, the 2 constitutive isoforms of NOS were thought to be confined to endothelial cells (eNOS) and brain (bNOS or nNOS). However, eNOS and bNOS have been identified in an increasing variety of additional cells. Many, if not most, types of cells are capable of expressing iNOS in response to cytokines, endotoxin, and phagocytosis. Regulation of iNOS occurs at transcriptional, translational, and posttranslational levels. Because .NO is rapidly diffusible and soluble in hydrophobic and aqueous environments, it is well suited to its role as an intercellular messenger with the unique ability to penetrate solid tissue. However, it is rapidly inactivated by hemoglobin. The biochemistry of .NO is dominated by its rapid reaction with oxygen and transitional metals, notably iron. The former reaction may be protective, as when neutralizing superoxide (.O2-), or harmful in forming additional highly damaging radicals such as peroxynitrite. Interaction of .NO with iron-containing proteins has a number of sequelae, including the activation of guanylate cyclase, inhibition of mitochondrial respiration, and inhibition of cell division. Nitric oxide has been implicated in a number of conditions of orthopaedic interest, including inflammation, arthritis, osteoporosis, sepsis, ligament healing, and aseptic loosening of joint prostheses.
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PMID:Nitric oxide and its role in orthopaedic disease. 754 92

The formation of nitric oxide (NO) from L-arginine is now recognized as a ubiquitous biochemical pathway involved in the regulation of the cardiovascular, central, and peripheral nervous systems, as well as in other homeostatic mechanisms. The L-arginine:NO pathway comprises a substrate, L-arginine, a family of enzymes, the NO synthases, and at least one physiological effector system, the soluble guanylate cyclase. NO also inhibits enzymes in target cells and can interact with oxygen-derived radicals to produce other toxic substances. Thus, NO also plays a role in immunological host defense and in the pathophysiology of certain clinical conditions. Several steps in the L-arginine:NO pathway are amenable to manipulation. Some substances will change the concentration and/or actions of NO with consequences that, in certain cases, may be therapeutic. In addition, other agents themselves generate NO and thus mimic the actions of the endogenous mediator. This brief overview will discuss some possible interventions in the pathway and the potential benefits as well as undesirable side effects that might arise from them.
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PMID:Molecular mechanisms and therapeutic strategies related to nitric oxide. 755 22

Pretreatment of rat hepatocytes with low-dose nitrogen oxide (addition of SNAP in vitro or induction of nitric oxide synthase in vitro or in vivo) imparts resistance to killing and decrease in aconitase and mitochondrial electron transfer from a second exposure to a higher dose of SNAP. Induction of this resistance is prevented by cycloheximide, indicating upregulation of protective protein(s). Ferritin levels are increased as are non-heme iron-NO EPR signals. Tin-protoporphyrin (SnPP) prevents protection, suggesting involvement of hsp32 (heme oxygenase) and/or guanylyl cyclase (GC). Cross-resistance to H2O2 killing is also observed, which is also prevented by cycloheximide and SnPP. Thus, hepatocytes possess inducible protective mechanisms against nitrogen oxide and reactive oxygen toxicity.
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PMID:Nitrogen oxide-induced autoprotection in isolated rat hepatocytes. 758 41

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

1. We further investigated our earlier proposal that NO- and NO2-carrying molecules potentiate photorelaxation using isolated rabbit corpus cavernosum. 2. Corporal smooth muscle, in the presence or absence of endothelium, relaxed only slightly upon u.v. light (366 nm) irradiation. But, NO- and/or NO2-containing compounds such as streptozotocin and NG-nitro-L-arginine methyl ester significantly (P < 0.01) enhanced photorelaxation in this tissue. In addition, NG-nitro-D-arginine methyl ester, known to lack inhibitory action on NO synthase, showed concentration-dependent potentiation of the photorelaxation. 3. Oxygen radical generating system via xanthine+xanthine oxidase and guanylate cyclase inhibitor, methylene blue, significantly (P < 0.05) inhibited the streptozotocin-potentiated photorelaxation. 4. Nitrite was accumulated by photolysis of streptozotocin, NG-nitro-L-arginine methyl ester and NG-nitro-D-arginine methyl ester, in a concentration and exposure time-dependent manner. 5. These observations indicate that NO is a potent relaxant of rabbit corpus cavernosum and further support our hypothesis that NO is released by photolysis from NO- and NO2-carrying molecules.
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PMID:Photo-induced adequate nitric oxide (PIANO)-mediated relaxation in isolated rabbit corpus cavernosum. 783 33

Glyceryl trinitrate, isosorbide dinitrate, and isosorbide-5-mononitrate are organic nitrate esters commonly used in the treatment of angina pectoris, myocardial infarction, and congestive heart failure. Organic nitrate esters have a direct relaxant effect on vascular smooth muscles, and the dilation of coronary vessels improves oxygen supply to the myocardium. The dilation of peripheral veins, and in higher doses peripheral arteries, reduces preload and afterload, and thereby lowers myocardial oxygen consumption. Inhibition of platelet aggregation is another effect that is probably of therapeutic value. Effects on the central nervous system and the myocardium have been shown but not scrutinized for therapeutic importance. Both the relaxing effect on vascular smooth muscle and the effect on platelets are considered to be due to a stimulation of soluble guanylate cyclase by nitric oxide derived from the organic nitrate ester molecule through metabolization catalyzed by enzymes such as glutathione S-transferase, cytochrome P-450, and possibly esterases. The cyclic GMP produced by the guanylate cyclase acts via cGMP-dependent protein kinase. Ultimately, through various processes, the protein kinase lowers intracellular calcium; an increased uptake to and a decreased release from intracellular stores seem to be particularly important.
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PMID:Mechanisms of action of nitrates. 787 67

1. The smooth muscle system of the guinea-pig taenia caeci has been used in vitro to characterize the photodynamic action of aluminium phthalocyanine tetrasulphonate (A1PcS4) in the presence or absence of the thiol reductants L-cysteine (Cys), N-acetyl-L-cysteine (NAC), DL-dithiothreitol (DTT) or reduced glutathione (GSH). 2. In all photodynamic experiments the muscle was exposed to A1PcS4 (10(-5) M) for 30 min, followed by a 30 min washout period before photon irradiation at 32,000 lux (lambda > 570 nm) for 30 min. Photodynamic contractions were measured relative to the contractile response to carbachol (5 x 10(-5) M) and relaxation responses were determined in muscle precontracted with either carbachol 5 x 10(-5) M or KCl 23.5 mM. 3. Photon-activation of A1PcS4-sensitized smooth muscle evoked a triphasic response: an initial transient contraction and subsequent relaxation followed by a secondary sustained contraction. Cys 10 mM, NAC 10 mM and DTT 5 mM had no effect on the initial photodynamic contraction but significantly decreased the magnitude of the sustained contraction from mean values of 98% to 18%, 95% to 72% and 93% to 6% of the standard carbachol contraction (5 x 10(-5) M), respectively; GSH 10 mM was without significant effect on either the initial or sustained contraction. 4. In the absence of extracellular calcium the A1PcS4-sensitized smooth muscle did not respond to photon activation but re-introduction of calcium after cessation of illumination produced a sustained contraction which was markedly inhibited by Cys 10 mM. 5. In precontracted AlPcS4-treated muscle preparations photon activation produced a triphasic relaxation response, i.e. a rapid relaxation followed by a transient contraction and a secondary more sustained relaxation. The sustained phase of photodynamic relaxation was potentiated significantly by Cys 10 mM,NAC 10 mM, DTT 5 mM and GSH 10 mM, the relaxation being approximately doubled in magnitude from mean values of 34% to 68%, 30% to 73%, 34% to 68%, and 48% to 77%, respectively, relative to the standard carbachol (5 x l0-5 M) response.6. The cyclic GMP analogue, 8-(4-chlorophenylthio)-guanosine-3':5'-cyclic monophosphate (8-PCPTcGMP)(2 x 10-4 M) alone caused a triphasic relaxation response similar to that produced by photon activation of an AIPcS4-sensitized precontracted preparation in the presence of thiol reductants. The pattern of 8-PCPT-cGMP-induced relaxation was similar in muscle precontracted with carbachol 5 x 10-5M or KCI 23.5 mM.7. It is concluded that the rapid generation of reactive intermediates by photon-activation of boundAlPcS4 leads to membrane permeabilization, calcium entry and muscle contraction. These effects may be opposed by a direct stimulatory action of singlet oxygen on guanylate cyclase which is enhanced by the action of thiol reagents and mimicked by the cyclic GMP analogue, 8-PCPT-cGMP.
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PMID:Photodynamic action of aluminium phthalocyanine tetrasulphonate (A1PcS4) on smooth muscle: effects of thiols and a cyclic GMP analogue. 790 42

Nitric oxide (.NO) is a recently discovered signaling agent which plays a role in many biological processes such as vasodilation and neuronal synaptic transmission. The only receptor characterized thus far for .NO is the soluble form of guanylate cyclase (sGC). .NO increases the Vmax of sGC by 100-200-fold, probably by interacting with a heme moiety on the enzyme. Although several procedures exist for purifying sGC, these procedures result in preparations with low heme contents. Using a novel procedure, the enzyme has been purified to homogeneity from bovine lung with a heme content of approximately 1 heme/heterodimer. The UV-visible spectrum of the enzyme contains a Soret peak centered at 431 nm and a single broad alpha/beta peak at 555 nm indicative of a 5-coordinate ferrous heme with histidine as the axial ligand. The heme moiety does not bind oxygen but will readily bind .NO to form a 5-coordinate complex or carbon monoxide (CO) to form a 6-coordinate complex. Oxidation of the heme with ferricyanide shifts the Soret to 393 nm, due most likely to the formation of a 5-coordinate ferric heme. In the ferric state, the heme will apparently not bind water but will bind cyanide with reduced affinity compared to methemoglobin and metmyoglobin. Purified enzyme containing 1 heme/heterodimer is activated 130-fold by .NO and 4.4-fold by CO.
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PMID:Soluble guanylate cyclase from bovine lung: activation with nitric oxide and carbon monoxide and spectral characterization of the ferrous and ferric states. 791 35

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