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)

CaCl2 inhibited ATP-stimulated guanylate cyclase activity, but had little effect on basal and atrial natriuretic factor-stimulated guanylate cyclase activity in rat lung membranes. LaCl3 had similar effects as CaCl2 on basal and stimulated guanylate cyclase activity. LiCl and other monovalent salts inhibited ATP-stimulated guanylate cyclase activity more than basal enzyme activity. However, atrial natriuretic factor somehow stabilized the enzyme against the inhibitory effect of LiCl. These results suggest that ATP and atrial natriuretic factor activate the enzyme through different mechanisms. Since the effect of calcium on guanylate cyclase activity is different from that of monovalent salts and can be mimicked by lanthanum, it may be mediated by a specific calcium binding site or binding protein.
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PMID:Calcium reveals different mechanisms of guanylate cyclase activation by atrial natriuretic factor and ATP in rat lung membranes. 167 90

Original studies with rat adrenocortical carcinoma identified a 180 kDa cell-surface protein which contained both guanylate cyclase and atrial natriuretic factor (ANF) receptor, representing a potentially new type of bifunctional receptor protein. It is both a receptor and a guanylate cyclase. This critical conclusion of bifunctionality was based on the observation that the pure 180 kDa protein, whose purity was established by protein staining of the denatured gels, contained both the ligand binding and guanylate cyclase activities. Utilizing the antibody to 180 kDa membrane guanylate cyclase (180 kDa mGC), we now (i) report the complete purification of 180 kDa mGC from rat testes; (ii) demonstrate by affinity cross-linking studies that the homogeneous 180 kDa protein isolated from rat testes and adrenal gland binds ANF and (iii) show that bovine aortic endothelial cell membranes contain the 180 kDa mGC that is ANF-dependent in the production of cyclic GMP. These results validate the conclusion of the bifunctionality, ubiquity, and the general linkage to the ANF-dependent generation of cyclic GMP signal of this protein.
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PMID:Ubiquitous and bifunctional 180 kDa atrial natriuretic factor-dependent guanylate cyclase. 167 60

We examined the effects of sulfhydryl-reactive redox agents and of the apparent oxidation-reduction (redox) potential of the assay medium on enzyme activity and atrial natriuretic factor (ANF) binding properties of particular guanylate cyclase from bovine adrenal cortex. Redox potential was varied by addition of redox-reactive agents and quantified by electrochemical measurement. The modification of free SH groups by thiol-reactive agents had only a minor effect on ANF binding or on the extent of ANF-dependent enzyme stimulation whereas free thiol groups were essential for basal enzyme activity of ANF-sensitive particulate guanylate cyclase. Basal and ANF-stimulated particulate guanylate cyclase activity was modulated by exposure to different redox potential states. This modulation was different for the substrates Mg.GTP and Mn.GTP. The apparent redox potential had no influence on the extent of guanylate cyclase activation by ANF. Our results suggest that critical free thiol groups, which are sensitive to thiol-reactive redox agents, are involved in the catalytic, but not in the receptor function of ANF-sensitive particulate guanylate cyclase. These thiol groups could be the structural basis for the effects of redox events which modulate basal enzyme activity, but not activation by ANF.
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PMID:Functional modulation of ANF-sensitive particulate guanylate cyclase by redox mechanisms. 167 81

We investigated the involvement of adenosine 3',5'-cyclic monophosphate (cAMP) and guanosine 3',5'-cyclic monophosphate (cGMP) in adenosine (ADO) receptor-mediated coronary artery relaxation. Rings from left anterior descending coronary artery, with the endothelium mechanically removed, contracted with prostaglandin F2 alpha and relaxed in a concentration-dependent manner to ADO, 2-chloroadenosine (CAD), l-N6-(2-phenylisopropyl)adenosine (R-PIA), and 5'-(N-ethylcarboxamido)adenosine (NECA). These relaxations were blocked by addition of the ADO receptor antagonist 8-(sulfophenyl)theophylline (8-SPT), indicating ADO receptor involvement. In an endothelium-free membrane preparation, ADO, CAD, and R-PIA all stimulated adenylate cyclase activity in a concentration-dependent manner, and these responses were blocked by 8-SPT. The increase in adenylate cyclase activity produced by ADO, CAD, and R-PIA was completely dependent on the presence of guanosine 5'-triphosphate, suggesting G protein involvement. Surprisingly, NECA and CGS-21680 did not increase adenylate cyclase activity. Unlike atrial natriuretic factor, neither NECA, CAD, R-PIA, nor ADO increased guanylate cyclase activity, suggesting that cGMP is not involved in ADO receptor-mediated relaxation. Data presented in this study support the hypothesis that ADO receptor-mediated coronary artery relaxation may involve cAMP; however, the inability of NECA and CGS-21680 to stimulate adenylate cyclase suggests that the ADO receptor-signaling mechanisms in coronary artery may be more complicated than agonist interaction with a single adenylate cyclase-coupled A2 adenosine receptor.
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PMID:Adenosine receptor-mediated coronary artery relaxation and cyclic nucleotide production. 167 30

We studied the cytochemical localization of particulate guanylate cyclase (GC) activity after stimulation with atrial natriuretic factor (ANF) in rat lung, at the electron microscope level. Samples incubated in the absence of ANF did not reveal any GC reaction product. These results indicate that ANF is a strong activator of the enzyme in this organ. In intrapulmonary bronchi, the ANF-activated GC reaction product was localized on mucus secreting goblet cells. GC was seen in bronchioles, alveoli and capillaries. All of the GC reaction product was associated with plasma membranes of Clara cells, of great alveolar cells and of endothelial cells in alveolar capillaries. Our data suggest that, by activation of particulate GC, ANF acts directly on cells where Na+ reabsorption occurs.
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PMID:Ultrastructural demonstration of guanylate cyclase in rat lung after activation by ANF. 168 48

Many exogenous and endogenous vasodilator substances produce their effects by stimulation of guanylate cyclase in vascular smooth muscle and increasing cyclic 3',5'-guanosine monophosphate (cGMP) levels. Activation of such enzyme leads to vasodilatation. Possibly as a consequence of a change in the pattern of protein phosphorylation, including dephosphorylation of the light chain myosin and of a decrease in the bioavailability of free calcium. Guanylate cyclase exists in two different forms in the vascular smooth muscle cells: a cytosolic (soluble) and the other associated to membranes (particulate). The nitro vasodilators and vasodilators with endothelium-dependent activity, act by main stimulation of the soluble guanylate cyclase, while the atrial natriuretic factor acts specifically on the particulate form of the enzyme. Guanylate cyclase represents the final path in the vasodilatation induced by diverse endogenous and exogenous substances, an aspect that has created a great interest among investigators due to its possible physiological, physiopathological and therapeutic implications. The more relevant aspects related with the mechanism of action of this numerous group of drugs are deeply analyzed in the present review.
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PMID:[Vasodilator drugs that act by stimulating guanylate cyclase in vascular smooth muscle]. 168 18

The atrial natriuretic factor-R1 (ANF-R1) receptor is known to mediate the biological effects of diverse natriuretic/diuretic/vasorelaxant peptides. In order to investigate the differential selectivity of this class of receptor, we have compared its pharmacological profile for various natriuretic peptides in rat, bovine, and human kidney. In contrast to bovine and rat, human kidney glomeruli do not express significant amounts of ANF-R2 receptor. In addition, the binding of 125I-labeled rat ANF-(99-126) to the ANF-R1 receptor in human and bovine kidney glomeruli is not blocked by rat ANF-(103-123) (pK less than 6), whereas in rat kidney glomeruli this peptide displays high affinity for the ANF-R1 receptor (pK = 8.5). This observation reveals a species heterogeneity between the rat and the human and bovine kidney receptors. In addition, we have observed striking differences in the pharmacological profiles of rat papillary, bovine papillary, and human kidney glomerular receptors, which contain only the 130-kDa ANF-R1 monomer. The bovine and human profiles were similar but diverged from that of the rat. In addition to the species heterogeneity of the ANF-R1 class, we could detect a significant intraspecies heterogeneity. Two distinct profiles could be disclosed, one having high affinity for both ANF and brain natriuretic peptide (BNP) and being identified in all three species studied and the other displaying lower affinity for BNP and being found in rat and human kidneys. We also demonstrate that rat and bovine papillary ANF-R1 receptors are coupled to guanylate cyclase and that ANF and BNP could activate the enzyme with potency similar to their potency in competing for 125I-labeled rat ANF-(99-126) binding. The results presented demonstrate that the ANF-R1 receptor class can be subclassified, based on distinct pharmacological profiles, and indicate a wide diversity within the ANF-R1 receptor family.
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PMID:Pharmacological evidence for the heterogeneity of atrial natriuretic factor-R1 receptor subtype. 168 36

The cytochemical localization of particulate guanylate cyclase and adenylate cyclase activities in rabbit platelets were studied after stimulation with various agents, at the electron microscope level. In the presence of platelet aggregating agents such as thrombin and ADP, the particulate reaction product of guanylate cyclase activity was detectable on plasma membrane and on membranes of the open canalicular system. In contrast, samples incubated with platelet-activating factor showed no activation of the cyclase activity. Atrial natriuretic factor stimulated the particulate guanylate cyclase. The ultracytochemical localization of this activated cyclase was the same as that of thrombin- or ADP-stimulated guanylate cyclase. Adenylate cyclase activity was studied in platelets incubated with prostaglandin E1 plus or minus insulin. The enzyme reaction product was found at the same sites where guanylate cyclase was detected. Therefore guanylate and adenylate cyclase activities do not seem to be preferentially localised in platelet membranes.
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PMID:Particulate guanylate cyclase and adenylate cyclase activities after activation with various agents in rabbit platelets. An ultracytochemical study. 168 24

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

Atrial natriuretic factor (ANF, 10(-7) M) and, even more potently, sodium nitroprusside (SNP, 10(-5)-10(-3) M) stimulated cGMP formation in human peritoneal macrophages. This suggests that the two forms of guanylate cyclase, the particulate form stimulated by ANF and the soluble form activated by SNP, coexist in this cell type. A fall in cAMP levels in parallel with the rise of cGMP levels provoked by ANF and SNP was noticed that was amplified by an increase in the concentration of the phosphodiesterase inhibitor, IBMX. Our finding that ANF, contrary to its action in other tissues, was unable to exert direct inhibitory effects on the adenylate cyclase activity in isolated macrophage membranes, together with the observation that SNP was able to mimic the effect of ANF on cAMP levels indicates that the cAMP-lowering effect of ANF is most likely mediated through the cGMP signal.
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PMID:Atriopeptins and nitroprusside provoke opposite changes in cGMP and cAMP levels in human macrophages. 169 68


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