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)

Guanylate cyclase activity (GTP pyrophosphate-lyase (cyclizing), EC 4.6.1.2.), measured in purified rat liver plasma membranes, was markedly increased by treatment with various purified proteases. The effect was maximal with trypsin, alpha-chymotrypsin, papain, and thermolysin (6- to 8-fold increase with 5 to 20 microgram of protease/ml) and lower with subtilisin and elastase (3- to 4-fold increase). The activation was due to an increase in the maximal velocity of the cyclizing reaction. No modification was observed either in the apparent affinity for the substrate MnGTP or in the cooperative behavior of the enzyme kinetics which displayed Hill coefficients of 1.6 for both basal and activated states. The Triton X-100-dispersed guanylate cyclase remained sensitive to papain, which suggests that the action of proteases was not restricted to an indirect action upon the membranous environment of the guanylate cyclase. In contrast, the cytosolic soluble guanylate cyclase, assayed in the presence or absence of sodium azide, was absolutely insensitive to papain. Thus, proteolysis represents a previously undescribed mechanism for activating membranous guanylate cyclase systems, which might be of importance in the physiological regulation of this enzyme.
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PMID:Activation of rat liver guanylate cyclase by proteolysis. 3 29

L-ascorbic acid (LAA) augmented cGMP many-fold in highly purified human peripheral blood lymphocytes. The cGMP response occurred within 10 sec and persisted for at least 60 min. D-ascorbic acid (DAA) and dehydroascorbic acid (DHAA) were also equally active in enhancing cGMP concentrations but metabolic precursors of ascorbic acid and other inorganic acids did not increase cGMP levels. Determination of the amount of DHAA contaminating the LAA precluded the possibility that it was solely responsible for the enhanced cGMP levels. The sodium or calcium salts of ascorbic acid did not increase cGMP concentrations. If these neutralized preparations were acidified, increased cGMP concentrations were then noted. In broken cell preparations, LAA, DAA, and DHAA and to a lesser extent sodium ascorbate (NaA) enhanced guanylate cyclase activity while neither inhibited cAMP or cGMP phosphodiesterase (PDE) activity. The possible role of H2O2, fatty acid liberation, prostaglandin production, oxidizing-reducing agents, and free radical formation in mediating the effects of ascorbic acid on cGMP levels were evaluated, but none of these potential mechanisms were definitively proven to be a required intermediary for the cGMP enhancing activity of ascorbic acid. LAA, DHAA or NaA did not induce lymphocyte transformation or modulate lectin-induced mitogenesis.
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PMID:Effects of ascorbic acid and sodium ascorbate on cyclic nucleotide metabolism in human lymphocytes. 3 16

The 105 000 X g gupernatant fractions from homogenates of various rat tissues catalyzed the formation of both cyclic GMP and cyclic AMP from GTP and ATP, respectively. Generally cyclic AMP formation with crude or purified preparations of soluble guanylate cyclase was only observed when enzyme activity was increased with sodium azide, sodium nitroprusside, N-methyl-N'-nitro-N-nitrosoguanidine, sodium nitrite, nitric oxide gas, hydroxyl radical and sodium arachidonate. Sodium fluoride did not alter the formation of either cyclic nucleotide. After chromatography of supernatant preparations on Sephadex G-200 columns or polyacrylamide gel electrophoresis, the formation of cyclic AMP and cyclic GMP was catalyzed by similar fractions. These studies indicate that the properties of guanylate cyclase are altered with activation. Since the synthesis of cyclic AMP and cyclic GMP reported in this study appears to be catalyzed by the same protein, one of the properties of activated guanylate cyclase is its ability to catalyze the formation of cyclic AMP from ATP. The properties of this newly described pathway for cyclic AMP formation are quite different from those previously described for adenylate cyclase preparations. The physiological significance of this pathway for cyclic AMP formation is not known. However, these studies suggest that the effects of some agents and processes to increase cyclic AMP accumulation in tissue could result from the activation of either adenylate cyclase or guanylate cyclase.
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PMID:Synthesis of adenosine 3',5'-monophosphate by guanylate cyclase, a new pathway for its formation. 3 26

Particulate guanylate cyclase from rat lung was stimulated less than 2-fold by agents capable of activating the soluble guanylate cyclase, including sodium nitroprusside, MNNG, azide and hydroxylamine. The action of the first two agents was potentiated by 10 mM 2-mercaptoethanol, and that of the last two by catalase. Pretreatment of the particulate enzyme with the polyene antibiotic, filipin, potentiated the stimulatory effects of the activators, activity with 1 mM nitroprusside in the presence of 2-mercaptoethanol being increased 10.4-fold over basal. The enzyme treated with filipin and nitroprusside showed less specificity for Mn2+, as it was able to use Mg2+ as sole cation more efficiently than the untreated enzyme. Since filipin is known to alter membrane fluidity by interacting with membrane cholesterol, it is proposed that the activity of membrane bound guanylate cylase may be regulated in part by the fluid state of the phospholipid matrix.
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PMID:Activation of particulate guanylate cyclase by nitroprusside and MNNG after filipin treatment. 4 Oct 6

Isolated rat renal glomeruli contain an adenylate cyclase system and guanylate cyclase system. Adenylate cyclase was strikingly activated by purified parathyroid hormone, epinephrine, prostaglandin I2 and histamine. The demonstration of PTH activated adenylate cyclase in glomeruli raises the possibility of a role of this hormone in regulation of glomerular filtration rate. Guanylate cyclase was strikingly activated by CA2+, nitrate derivatives such as sodium nitroprusside. Its role remained still unknown.
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PMID:[Adenylate cyclase and guanylate cyclase activity in the isolated kidney glomerulus of the rat]. 4 22

The channel-forming antibiotic alamethicin activated rat lung particulate guanylate cyclase (GTP pyrophosphate-lyase (cyclizing) EC 4.6.1.2), and the activated enzyme was further stimulated by sodium nitroprusside when a thiol such as 2-mercaptoethanol was present. Similar effects were seen with the antibiotic gramicidin S and with melittin, a polypeptide purified from bee venom. All of these agents are amphiphilic polypeptides. Nitroprusside was not able to stimulate both particulate and soluble enzyme treated with the nonionic amphiphile, Lubrol PX, suggesting that the membrane-active polypeptides had a different mechanism of action. These polypeptides are known to alter the membrane matrix by binding to phospholipid, and we suggest that this alteration allowed greater access of substrate and of nitroprusside to the enzyme. Lubrol PX, however, may interact preferentially with the enzyme, and thus block nitroprusside activation. The most potent of these agents was melittin, which stimulated nitroprusside activation at a concentration which had little effect by itself (7 microns), and at which others have demonstrated lytic effects on cells.
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PMID:Effect of alamethicin, gramicidin S and melittin upon the particulate guanylate cyclase from rat lung. 9 May 24

The antiallergy drugs, cromolyn sodium and lodoxamide tromethamine (U-42,585E) show in vitro dose responses which are bell-shaped or biphasic in mast cells. The nature of the biphasic dose response is poorly understood; however, through the use of specific antagonists, it has been possible to show that at the high concentrations of these drugs leading to enhanced histamine release or multiple high-dose tachyphylaxis, a cholinergic receptor is stimulated in the cell. This receptor is muscarinic in nature and can be blocked by atropine or quinuclidinyl benzilate (QNB). Prevention of multiple dose tachyphylaxis to either drug can be modulated by pretreatment with atropine or QNB. High concentrations of both drugs cause the cell accumulation of cyclic-guanosine monophosphate through stimulation of guanyl cyclase and prevention of cGMP breakdown by inhibition of the phosphodiesterase (PDE) for cGMP.
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PMID:Development of new antiallergic drugs (cromolyn sodium, lodoxamide tromethamine). What is the role of cholinergic stimulation in the biphasic dose response? 9 55

In rabbits the topical administration of sodium azide (NaNs) or sodium nitroprusside (SNP) increased intraocular pressure in a dose-response manner. These agents, which activate guanylate cyclase, elevated cyclic GMP in the aqueous humor. Systemic blood pressure and pulse were not altered. Tonographic outflow facility was unchanged, suggesting an increase in aqueous humor flow as the mechanism for the elevation of intraocular pressure. Posterior chamber aqueous humor ascorbate concentration was decreased in the eye receiving the NaN3 or SNP. Systemic pretreatment with phenoxybenzamine, an alpha-adrenergic blocking agent, prevented the elevation of intraocular pressure observed following NaN3 and SNP. Pretreatment with systemic indomethacin, propranolol, or acetazolamide or the topical application of atropine or epinephrine failed to alter the elevation of intraocular pressure by either NaN3 or SNP.
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PMID:Increased intraocular pressure following topical azide or nitroprusside. 19 56

Three agents that activate guanylate cyclase, sodium nitroprusside, nitroglycerin and sodium axide, were examined for their effects on cyclic GMP and cyclic AMP accumulation and muscle motility with several tissues. All of these agents, except nitroglycerin with ventricle preparations, increased cyclic GMP levels and did not alter cyclic AMP in incubations of preparations of bovine tracheal smooth muscle, guinea pig tracheal chains, taenia cecum, atria and ventricle, and rat liver and cerebral cortex. Increases in cyclic GMP with these agents occurred with relaxation of smooth muscle preparations and without alteration in the contractility of atrial preparations. These observations support the hypothesis that cyclic GMP accumulation in smooth muscle may be related to relaxation rather than contraction as proposed previously. Relaxation with these agents is not associated with alterations in cyclic AMP levels. Increases in cyclic GMP levels in atrial preparations can also occur without changes in contractile force or rate of contraction.
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PMID:Effects of sodium nitroprusside, nitroglycerin, and sodium azide on levels of cyclic nucleotides and mechanical activity of various tissues. 19 26

Enchanced cAMP concentrations inhibit the aggregation and release reaction of isolated human platelets and platelet-rich plasma to all known inducing agents. An opposing role for cGMP in this phenomenon has been proposed by some but not by others, and the function of cGMP in this secretory process is unclear. To further elucidate the role of cGMP in the release reaction, the effect of increased concentrations of this cyclic nucleotide on 14C-serotonin release was evaluated utilizing isolated human platelets and highly purified human thrombin or commercially available bovine thrombin. Several recently described stimulators of guanylate cyclase, including sodium nitroprusside, sodium azide, nitrosoquanidines, and ascorbic acid, were found to markedly augment platelet cGMP levels. Enhanced platelet cGMP concentrations produced by these drugs or by the exogenous addition of cGMP and its analogues neither caused these cells to secrete nor modulated the thrombin-induced serotonin release reaction. The inhibition of serotonin release by increased cAMP concentrations was not counteracted by increased cGMP levels. Platelet cGMP concentrations were unaltered by thrombin. These data indicate that cGMP is not an obligatory signal or a modulator of the thrombin-induced platelet release reaction.
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PMID:Platelet release reaction and intracellular cGMP. 20 39


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