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)

To evaluate the effects of the in vivo endotoxin treatment of the rat on (1) the contractile responses in the subsequently isolated papillary muscle to adrenergic and cholinergic agonists and (2) the biochemical parameters (cyclic GMP, nitric oxide synthesis, protein phosphorylation and ADP-ribosyslation) in the subsequently isolated cardiomyocytes. Following the in vivo endotoxin treatment (4 mg/kg i.p., 18 h), contractile responses to increasing amounts of isoprenaline or to increasing amounts of oxotremorine in the presence of a fixed amount of isoprenaline were determined in isolated papillary strips. Activities of nitric oxide synthase, guanylyl cyclase, as well as phosphorylation of phospholamban and troponin-inhibitory subunit, and pertussis toxin-catalyzed and endogenous ADP-ribosylations were determined in the intact cardiomyocytes and subcellular fractions. The increase in the force of contraction by isoprenaline was reduced, while its inhibition by oxotremorine was greater in the endotoxin-treated papillary strips. The activities of both nitric oxide synthase, primarily of the inducible form of the enzyme, and cytosolic guanylyl cyclase were higher while the phosphorylations of both phospholamban and troponin-inhibitory subunit were of lesser magnitude in the cardiomyocytes following the in vivo endotoxin treatment. Pertussis toxin-catalyzed ADP-ribosylation of the 41 kDa polypeptide, which is the alpha subunit of Gi, was also decreased. The results of the present study support the postulate that alterations in both the cyclic AMP and cyclic GMP signalling cascade contribute to the myocardial dysfunction caused by endotoxin and cytokines.
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PMID:Alterations in inotropy, nitric oxide and cyclic GMP synthesis, protein phosphorylation and ADP-ribosylation in the endotoxin-treated rat myocardium and cardiomyocytes. 897 70

We conducted studies to investigate the nature and underlying mechanisms of the vascular effects of rutaecarpine (Rut), an alkaloid isolated from the Chinese herbal drug Evodia rutaecarpa. By using largely the effects on phenylephrine (PE)-induced contraction in the isolated rat aorta as the experimental index and by comparison with several known vascular muscle relaxants such as acetylcholine (ACh), histamine, and A23187, Rut relaxed PE-precontracted aorta in concentration-(10(-7)-10(-4) M) and endothelium-dependent manners. Studies with appropriate antagonists indicated that this was coupled to nitric oxide (NO) and guanylyl cyclase. Extracellular Ca2+ removal and treatment with the intracellular Ca2+ antagonist, 8-(N,N-diethylamino)octyl-3,4,5-trimethoxybenzoate (TMB-8), suggested that influx of extracellular Ca2+ was the major factor contributing to the action of Rut. Pertussis toxin suppressed the relaxation potency of histamine but had no effects on the actions of Rut. NaF, the G proteins activator, attenuated the actions of ACh, but only minimally affected Na-NP, A23187, and Rut. 1-[6-{[17 beta-3-methoxyestra-1,2,3(10)-trien-17-yl]amino} hexyl]-1H-pyrrole-2,5-dione (U73122), the phospholipase C inhibitor, again suppressed the actions of ACh but had few effects on A23187 and Rut. Taken together, these results suggest that these vasorelaxants had different cellular mechanisms and that neither pertussis toxin-sensitive Gi protein, other G proteins, nor phospholipase C activation was involved in the cellular response to rutaecarpine.
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PMID:Studies of the cellular mechanisms underlying the vasorelaxant effects of rutaecarpine, a bioactive component extracted from an herbal drug. 915 59

1. Angiotensin II had a bimodal effect on human neutrophil migration. Low concentrations of angiotensin II stimulated random migration. At a concentration of 10(-10) M it caused a maximal increase of migration; migration increased from 47.2 +/- 2.1 microns in the absence of angiotensin II, to 73.1 +/- 2.2 microns with 10(-10) M angiotensin II present in the lower compartment of the Boyden chamber (n = 5, P < 0.001). Stimulation of migration by angiotensin II was partly chemotactic and partly chemokinetic. Angiotensin II concentrations of 10(-8) M and higher inhibited chemotactic peptide-stimulated chemotaxis. 2. The stimulant effect of angiotensin II on migration was completely dependent on extracellular Ca2+. In the presence of 1 mM Ca2+, angiotensin II stimulated migration to 76.1 +/- 1.7 microns, while migration in the absence of Ca2+ was 42.2 +/- 1.9 microns (n = 4, P < 0.001). Different types of calcium channel blockers either moderately or strongly inhibited angiotensin II-activated migration. Stimulation of migration by angiotensin II in intact cells required higher concentrations of Ca2+ than in electroporated cells. This supports the view that there is an influx of Ca2+ through the plasma membrane, and a requirement of calcium for an intracellular target. 3. Angiotensin II-stimulated migration was inhibited by pertussis toxin; from 71.6 +/- 2.0 microns in the absence, to 43.6 +/- 1.5 microns in the presence of pertussis toxin (n = 4, P < 0.001). Migration of electroporated neutrophils stimulated by angiotensin II was synergistically enhanced by GTP gamma S. This suggests that one or more G-proteins are involved in the activating effect of angiotensin II. 4. Inhibitors of soluble guanylate cyclase and antagonists of cyclic GMP-dependent kinase strongly inhibited the activating effect of angiotensin II. The results suggest that the activating effect of angiotensin II is mediated by cyclic GMP and by cyclic GMP-dependent kinase.
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PMID:The stimulation of human neutrophil migration by angiotensin IL: its dependence on Ca2+ and the involvement of cyclic GMP. 920 29

We investigated cell proliferation modulated by cholecystokinin (CCK) and somatostatin analogue RC-160 in CHO cells bearing endogenous CCKA receptors and stably transfected by human subtype sst5 somatostatin receptor. CCK stimulated cell proliferation of CHO cells. This effect was suppressed by inhibitor of the soluble guanylate cyclase, LY 83583, the inhibitor of the cGMP dependent kinases, KT 5823, and the inhibitor of mitogen-activated protein (MAP) kinase kinase, PD 98059. CCK treatment induced an increase of intracellular cGMP concentrations, but concomitant addition of LY 83583 virtually suppressed this increase. CCK also activated both phosphorylation and activity of p42-MAP kinase; these effects were inhibited by KT 5823. All the effects of CCK depended on a pertussis toxin-dependent G protein. Somatostatin analogue RC-160 inhibited CCK-induced stimulation of cell proliferation but it did not potentiate the suppressive effect of the inhibitors LY 83583 and KT 5823. RC-160 inhibited both CCK-induced intracellular cGMP formation as well as activation of p42-MAP kinase phosphorylation and activity. This inhibitory effect was observed at doses of RC-160 similar to those necessary to occupy the sst5 recombinant receptor and to inhibit CCK-induced cell proliferation. We conclude that, in CHO cells, the proliferation and the MAP kinase signaling cascade depend on a cGMP-dependent pathway. These effects are positively regulated by CCK and negatively influenced by RC-160, interacting through CCKA and sst5 receptors, respectively. These studies provide a characterization of the antiproliferative signal mediated by sst5 receptor.
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PMID:Characterization of the antiproliferative signal mediated by the somatostatin receptor subtype sst5. 925 84

Soluble guanylate cyclase (sGC) consisting of two different subunits (alpha: Mr = 74,000, beta: Mr = 69,000) was purified more than 12,000-fold in terms of specific activity from the supernatant of bovine lung homogenates and characterized. The heme content determined with the pyridine hemochromogen method and Bradford's protein assay was 0.8 heme per dimer. Cholera, pertussis, and botulinum C3 toxins modified exclusively the beta-subunit of sGC, yielding the ADP-ribose-bound compound with 1:1 stoichiometry, and Vmax for the cyclase reaction was increased 10 times by this modification. When the ADP-ribosylation of sGC was performed simultaneously with two or three bacterial toxins which have distinct amino acid specificities, the resultant enzyme had only one ADP-ribose, and the activity was the same as that of the enzyme modified with one toxin. When NO was incorporated into the reaction mixture containing the ADP-ribosylated sGC, the cyclase activity noticeably increased by approximately the same amount as that seen for the unmodified enzyme. Such effects were not seen with CO. When ADP-ribosylated sGC was incubated with Mn2+, the enzyme activity was synergistically increased. The heme-deleted sGC was also ADP-ribosylated by bacterial toxins and its activity was raised. These findings suggest that sGC has an ADP-ribosylation site near the GTP binding site, like other GTP-binding proteins, and that the beta-subunit regulates the activity.
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PMID:Purification of bovine soluble guanylate cyclase and ADP-ribosylation on its small subunit by bacterial toxins. 934 80

The endothelium mediates a number of responses (relaxation or contraction) of arteries and veins from animals and humans. The endothelium-dependent relaxations are due to the release, by endothelial cells, of potent non-prostanoid vasodilator substances. Among these, the best characterized is endothelium-derived relaxing factor (EDRF), which is believed to be nitric oxide (NO). Nitric oxide is formed by the metabolism of L-arginine by the constitutive NO synthase of endothelial cells. In arterial smooth muscle, the relaxation evoked by EDRF is explained by the stimulation by NO of soluble guanylate cyclase that leads to the accumulation of cGMP. In a number of animal blood vessels and in human coronary arteries, the endothelial cells release a substance that causes hyperpolarization of the cell membrane (endothelium-derived hyperpolarizing factor, EDHF). The release of EDRF from the endothelium can be mediated by both pertussis toxin-sensitive (alpha 2-adrenoceptor activation, serotonin, aggregating platelets, leukotrienes) and insensitive (adenosine diphosphate (ADP), bradykinin) G proteins. In blood vessels from animals with regenerated and reperfused endothelium, and/or atherosclerosis, there is a selective loss of the pertussin toxin-sensitive mechanism of EDRF release, which favours the occurrence of vasospasm, thrombosis and cellular growth. The available information from isolated human blood vessels or obtained in situ concurs with the conclusions reached from studies with isolated animal tissues. In addition to relaxing factors, the endothelial cells can produce contracting factors (endothelium-derived contracting factors; EDCFs) which include superoxide anions, endoperoxides, thromboxane A2 and endothelin. From animal studies it can be concluded that the propensity to release EDCFs is maintained, or even augmented, in diseased blood vessels. The switch from a normally predominant release of EDRFs to that of EDCFs may play a crucial role in atherosclerosis.
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PMID:Endothelial dysfunction and atherosclerosis. 940 68

A perforated-patch whole-cell recording method was used to determine whether nitric oxide signaling participates in acetylcholine (ACh)-induced regulation of basal L-type Ca2+ current (ICa,L) in cat atrial myocytes. Exposure to 1 microM ACh for 2 min inhibited basal ICa,L (-21 +/- 3%), and withdrawal of ACh elicited rebound stimulation of ICa,L above control (80 +/- 13%) (n = 23). Stimulation of ICa,L elicited by withdrawal of ACh (but not ACh-induced inhibition of ICa,L) was blocked by either 50 microM hemoglobin; 30 microM ODQ or 10 microM methylene blue, inhibitors of soluble guanylate cyclase; 10 microM W-7, a calmodulin inhibitor; or 10 microM L-NIO, an inhibitor of constitutive NO synthase (NOS). In cells incubated in 5 mM L-arginine, ACh-induced rebound stimulation of ICa,L was enhanced compared with control responses. Histochemical assay (NADPH diaphorase) indicated that atrial myocytes express constitutive NOS. NO-donor, spermine/NO (SP/NO), >1 microM stimulated basal ICa,L. SP/NO-induced stimulation of ICa,L was inhibited by 50 microM hemoglobin, 30 microM ODQ, or 5 microM H-89, an inhibitor of PKA, and was unchanged by 50 microM MnTBAP, a peroxynitrite scavenger. When ICa,L was prestimulated by 10 microM milrinone, an inhibitor of cGMP-inhibited phosphodiesterase (type III) activity, SP/NO failed to further increase ICa,L. In cells incubated in pertussis toxin (3.4 microg/ml for 6 h; 36 degrees C), ACh failed to affect ICa,L, but 100 microM SP/NO or 10 microM milrinone still increased basal ICa,L. These results indicate that in cat atrial myocytes NO signaling mediates stimulation of ICa,L elicited by withdrawal of ACh but not ACh-induced inhibition of basal ICa,L. NO activates cGMP-induced inhibition of phosphodiesterase (type III) activity. Upon withdrawal of ACh, this mechanism allows cAMP to recover to levels above control, thereby stimulating ICa,L. Pertussis toxin-sensitive G-proteins couple M2 muscarinic receptors to NO signaling. NO-mediated stimulation of ICa, L elicited by withdrawal of ACh may be an important mechanism that rapidly restores cardiac pacemaker and contractile functions after cholinergic suppression of atrial activity.
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PMID:Nitric oxide signaling mediates stimulation of L-type Ca2+ current elicited by withdrawal of acetylcholine in cat atrial myocytes. 941 39

Membrane-bound guanylyl cyclase (GC) is regulated by muscarinic receptors (mAChRs). Carbamylcholine (CC) induces a "dual" biological response on GC activity. Thus, an activation is observed at 0.1 nM and a maximal response at 1 nM CC. However, at higher agonist concentration (> 100 nM), there is an agonist-dependent inhibition of GC. This CC dual response is affected by 4-DAMP and HDD (M3 antagonists), which produce a right-shift of the CC curve; the maximal CC dose response with 4-DAMP is more potent than that with HDD. Moreover, AFDX-DS (an M2 antagonist) increases basal activity and decreases the agonist-dependent inhibition. Neither the CC response nor the CC maximal dose responses are affected by pirenzepine (PZ, M1 antagonist). The agonist-dependent stimulation of GC activity is inhibited by 4-DAMP showing a -log IC50 = 8.4 +/- 0.4, while AFDX116 DS poorly inhibits such activity with a -log IC50 = 5.0 +/- 0.2. The agonist-independent (basal) GC activity also was inhibited by 4-DAMP, in a dose-dependent manner, with an IC50 = 8.5 +/- 0.2. Nonetheless, other muscarinic antagonists (PZ and HDD) were not able to inhibit this basal GC. Pertussis toxin treatment produces a complete blockade of the agonist-dependent inhibition of GC with a full expression of the agonist-dependent activation of membrane-bound GC. These results indicate that membrane-bound GC is regulated by muscarinic agents through two opposite signaling pathways; one involves the activation of GC via an M3 mAchR coupled to a PTX-insensitive G protein, while the GC inhibition is mediated through a PTX-sensitive Gi/o protein possibly coupled to an M2 mAChR.
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PMID:Two opposite signal transducing mechanisms regulate a G-protein-coupled guanylyl cyclase. 946 15

Mammalian endothelium acts as a mediator in arterial and venous relaxation and contraction. Endothelium-dependent relaxation is due to endothelial release of powerful, non-prostanoid vasodilatory substances. The best known of these is the endothelial factor EDRF identified as nitrous oxide (NO). It is the end result of the metabolism of L-arginine by the NO synthetase of endothelial cells. In arterial smooth muscle, the relaxation induced by EDRF is explained by NO stimulation of soluble guanylate cyclase, leading to accumulation of GMPc (cyclic guanosine monophosphate). In some animal vessels and in human coronary arteries, endothelial cells release a substance which induces hyperpolarisation of the cell membrane (endothelial derived hyperpolarising factor, EDHF). Release of EDRF by the cell membrane may be mediated by G proteins sensitive to pertussis toxin (activation of the alpha 2 adrenoreceptor, serotonin, platelet aggregation, leukotrienes) or non-sensitive G proteins (adenosine-diphosphate (ADP), bradykinin). In animal blood vessels where the endothelium is regenerated and reperfused, and/or atherosclerotic, a selective loss of the mechanism of EDRF release is observed, sensitive to pertussis toxin, which favors vasospasm, thrombosis and cellular proliferation. The available data on isolated or in situ human blood vessels concord with studies on isolated animal tissues. In addition to the relaxation factors, endothelial cells can also secrete contracting factors (endothelium derived contracting factors: EDCF); these include superoxide anions, endoperoxides, thromboxane A2 and endothelin. Animal studies indicate that the tendency to release EDCF is maintained or even increased in damaged vessels. The change from normally dominant EDRF release to EDCF release could play an important role in atherosclerosis.
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PMID:[Endothelial dysfunction and atherosclerosis]. 951 9

The thick ascending limb of Henle's loop (TAL) is involved in the urinary dilution/concentration process by actively reabsorbing NaCl through a complex mechanism. Some years ago, compelling evidence was provided that cAMP stimulates NaCl reabsorption through the activation of adenylyl cyclase by several hormones other than antidiuretic hormone (ADH). Synthesis of cyclic AMP is inhibited by prostaglandin E2 (PGE2) and arachidonic acid per se, via the pertussis toxin-sensitive protein Gi activation. Cyclic GMP cascade down-regulates NaCl reabsorption, through activation of both guanylyl cyclase receptors (by ANF and urodilatin), and soluble guanylyl cyclase (by nitric oxide, NO). In TAL, NO is produced by the cytokine-inducible form of NO synthase, but not by the constitutive one. Agonists known to activate protein kinase C (PKC) in TAL elicit opposite effects on NaCl reabsorption. Five PKC isoforms belonging to the conventional, novel, and atypical enzyme subclasses have been recently defined in TAL and might differently regulate NaCl flux. Increments in intracellular calcium ([Ca2+]i) inhibit NaCl reabsorption via three pathways: (i) a possible direct effect on ion channels, (ii) a PLA2-mediated production of arachidonic acid derivatives (20-HETE), and (iii) inhibition of the ADH-induced cAMP accumulation. This last effect results from activation of phosphodiesterase (common to the agents that increase [Ca2+]i), and inhibition of adenylyl cyclase (only elicited by Ca2+c). Finally, the apical localization of some agonists effects is documented.
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PMID:Transducing pathways involved in the control of NaCl reabsorption in the thick ascending limb of Henle's loop. 955 29

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