Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

At extremely low concentrations, in the picomole and the nanomole range, bradykinin produces contraction and relaxation of smooth muscle in the gastrointestinal and the urogenital tract. At the target organ, bradykinin interacts with discriminator proteins of the plasma membranes and triggers, via changes in certain membrane functions, its biological response:--The binding to the discriminator makes specific conformative and constitutional demands on the nonapeptide. The binding results from an angular conformation which exists in the solution. The complete sequence is responsible for this specific conformation. Consequently, the biological activity of partial sequences is low. The conformational analysis of analogues used in studies on the mechanism of action showed but slight differences from bradykinin. The interaction of these analogues with the discriminator protein is disturbed to a varying extent by modifications at positions 1, 5, 8 and 9 in the side chains. The affinity for the discriminator is affected, dependently on the respective configuration, by substitution on the beta-C atom in the two phenylalanine residues.--Bradykinin is not only bound to, but also degraded at, the plasma membranes of the rat uterus and duodenum. The bradykinin-degrading enzyme has been characterized as a kininase II with the aid of various inhibitors. The conformative and configurative prerequisites decisive for enzymatic degradation are others than those decisive for binding to the discriminator.--The changes in the activities of the membrane-bound adenylate and guanylate cyclases (produced by the bradykinin-discriminator complex) that take place at the rat duodenum and uterus in the presence of extracellular calcium ions contrast with each other: At the duodenum, the ratio between these two cyclic nucleotides is changed in favour of adenylate cyclase; and at the uterus, in favour of guanylate cyclase; Substances which increase or decrease the cAMP level may also potentiate or inhibit the relaxation of the duodenum. These bradykinin-induced changes in enzyme activity must be considered in connection with other effectors, e.g. prostaglandins and calcium ions.--The calcium-ion-dependence of the effect of bradykinin on the guinea-pig ileum and the rat uterus indicates the importance of these ions as additional second messengers. Bradykinin stimulates the influx of calcium ions into the ileum; it is ineffective if no extracellular calcium ions into the ileum; it is ineffective if no extracellular calcium ions are available. It seems that intracellular and membranal calcium is mobilized in the uterus, which is evidenced by results from experiments with EGTA on the isolated organ and by the release of calcium from plasma membranes after application of bradykinin. It is assumed that the observed changes in membrane functions are induced by the peptide-discriminator complex simultaneously and not in the form of a causal chain.
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PMID:[On the mode of action of bradykinin on smooth muscle (author's transl)]. 39 90

Different nitrovasodilators were used to assess the role of cyclic GMP in the regulation of polymorphonuclear leukocyte (PMN) function. Molsidomine and its metabolites, 3-morpholinosydnonimine (SIN-1) and N-nitroso-N-morpholinoaminoacetonitrile (SIN-1A) at 0.01-1 mM, inhibited lysosomal enzyme release from PMN stimulated by 30 nM formyl-L-methionyl-L-leucyl-L-phenylalanine (FMLP). At 1 mM, molsidomine, SIN-1 and SIN-1A decreased beta-glucuronidase release by 19, 37 and 46% of the control, respectively. Glyceryl trinitrate (GTN) and sodium nitroprusside (SNP) showed no effect on beta-glucuronidase release from PMN. At 1 mM, SIN-1A, SIN-1 and SNP in the presence of 0.5 mM isobutylmethylxanthine (IBMX) stimulated cyclic GMP 21-, 9- and 14-fold, respectively, demonstrating a relation between cyclic GMP stimulation and neutrophil inhibition by the molsidomine metabolites. GTN and unmetabolized molsidomine were without effect on cyclic GMP levels. The hypothesis of an inhibitory effect of cyclic GMP on neutrophil function was further supported by the attenuation of SIN-1-induced inhibition of enzyme release by methylene blue (10 microM), an inhibitor of soluble guanylate cyclase. Moreover, 8-bromo cyclic GMP and dibutyryl cyclic GMP, 1 mM, decreased beta-glucuronidase release from FMLP-stimulated PMN by 12 and 44% of the control, respectively. These data demonstrate that cyclic GMP is an inhibitory second messenger in human PMN and suggest that this action of SIN-1 may be of considerable interest under conditions of platelet/PMN activation, e.g. during myocardial ischemia.
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PMID:Cyclic GMP mediates SIN-1-induced inhibition of human polymorphonuclear leukocytes. 169 5

To investigate the roles of the hydrophobic residues in the ANP molecule on biological activities, we synthesized a series of analogs containing various phenylalanine-homologs in position 8 or methionine-homologs in position 12. Among the analogs [pCl-Phe8]-alpha-hANP(7-28) was 4.8 times as potent as alpha-hANP(7-28) in cGMP accumulation and 3.5 times as potent in vasorelaxant activity. All the analogs showed nanomolar affinity to the receptor. In contrast, vasorelaxation and cGMP accumulation activity of the analogs ranged widely. These results suggest that these hydrophobic residues in the cyclic core are critical for vasorelaxant activity rather than for the "apparent receptor binding", and that these residues may possibly discriminate the "bioactive receptor" which is coupled to guanylate cyclase from the non-coupled receptor.
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PMID:Importance of hydrophobic residues in alpha-human atrial natriuretic peptide (alpha-hANP) for vasorelaxant activity. 217 23

A collection of analogues of atrial natriuretic peptide (ANP) were screened for their ability to inhibit ANP-induced cGMP stimulation. The antagonists revealed through this screen are structurally related; almost all are substituted at either aspartate-13 or phenylalanine-26. This tendency is consistent throughout several families of small ANP analogues, suggesting that these two amino acid residues are involved in the process of ANP/cGMP signal transduction. One compound, A74186, was studied in some detail. A74186 is a potent inhibitor of the activation of guanylate cyclase by ANP; it acts with a pA2 of 7.12 in rat vascular smooth muscle cells and shifts the ANP/cGMP dose-response curve by 3 orders of magnitude at a 10 microM concentration. It also inhibits cGMP release in vivo, and at an infusion rate of 10 micrograms/kg-min it completely abolishes ANP-induced natriuresis and diuresis. A74186 does not, however, antagonize the hypotensive or vasorelaxant effects of ANP; in fact it acts as an agonist in these assays. It thus appears that cGMP, although it may mediate the renal responses to ANP, is not responsible for the vascular and hemodynamic effects that result from the action of the hormone.
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PMID:Atrial natriuretic peptide antagonists: biological evaluation and structural correlations. 217

The response to small peptides such as Arg-vasopressin, oxytocin and tachykinins was investigated in cultured porcine aortic endothelial cells. The production of endothelium-derived nitric oxide was assessed indirectly by the accumulation of cyclic GMP, a response that is due to the increased activity of soluble guanylate cyclase of the endothelial cells after release of the mediator. Arg-vasopressin, oxytocin, substance P and physalae-min (an analog of substance P, pGlu-Ala-Asp-Pro-Asn-Lys-Phe-Tyr-Gly-Leu-Met-NH2) markedly and transiently stimulated the production of cyclic GMP without affecting that of cyclic AMP. Treatment of endothelial cells with either hemoglobin or methylene blue reduced significantly both the basal and stimulated level of cyclic GMP. The production of cyclic GMP evoked by Arg-vasopressin and substance P was inhibited selectively by NG-monomethyl-L-arginine but not by its D-enantiomer. The neurohypophyseal hormones and related peptides stimulated the accumulation of cyclic GMP in a concentration-dependent manner, with the following relative order of potency: oxytocin greater than Lys-vasopressin greater than Arg-vasopressin much greater than [deamino-Cys1, D-Arg8]-vasopressin. The production of cyclic GMP evoked by oxytocin was inhibited selectively by [d(CH2)5, Tyr(OMe)2, Orn8]-vasotocin, an oxytocin antagonist. The production of cyclic GMP evoked by Arg-vasopressin and Lys-vasopressin was inhibited by [beta-mercapto-beta, beta-cyclopentamethylene-propionyl1, O-Me-Tyr2, Arg8]-vasopressin, a selective V1-receptor antagonist. The moderate production of cyclic GMP evoked by [deamino-Cys1, D-Arg8]-vasopressin was inhibited significantly by the V1-receptor antagonist. The peptide antagonists affected only minimally or not at all the production of cyclic GMP evoked by a donor of nitric oxide, SIN-1 (3-Morpholino-Sydnonimine). These observations indicate that 1) neurohypophyseal hormones and tachykinins stimulate the accumulation of cyclic GMP in cultured porcine aortic endothelial cells by increasing the production of endothelial-derived nitric oxide, which in turn enhances the activity of soluble guanylate cyclase; 2) the production of cyclic GMP in response to oxytocin is due to activation of oxytocinergic receptors; and 3) the production of cyclic GMP evoked by Arg-vasopressin and Lys-vasopressin is due mostly to activation of V1-vasopressinergic receptors.
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PMID:Neurohypophyseal peptides and tachykinins stimulate the production of cyclic GMP in cultured porcine aortic endothelial cells. 217 9

The metabolism of L-arginine to nitric oxide (NO) has been shown to be important for the effector functions of many cell types, including polymorphonuclear (PMN) leukocytes. Its effect appears to be mediated at least in part by NO stimulation of soluble guanylate cyclase. We evaluated the role of this pathway in two PMN effector functions: cell movement and microbial killing, using the competitive inhibitor of L-arginine conversion to NO, NG-monomethyl-L-arginine (NMA). We also evaluated the effect of additional L-arginine and dibutyryl cyclic guanosine monophosphate (cGMP) on any NMA-associated changes. Human peripheral blood neutrophils were used and the cells were incubated with and without NMA. Chemotaxis was evaluated using a 48-well micro-Boyden chamber. Microbial killing was evaluated using S aureus strains D2C and 502A. These studies demonstrated that chemotaxis to formyl-methionyl-leucyl-phenylalanine was markedly inhibited in NMA-treated cells. This inhibition could be overcome if L-arginine or dibutyryl cGMP were added with the NMA. In contrast, microbial killing of S aureus was unaffected by NMA. These observations support the hypothesis that the L-arginine metabolism to NO and its effect on the cGMP level may be important for the dynamic changes required for neutrophil chemotaxis.
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PMID:Inhibition of chemotaxis Ng-monomethyl-L-arginine: a role for cyclic GMP. 255 58

A linear decapeptide, [cyclohexylalanine 106]ANP-(105-114)NH2 (1), where ANP is atrial natriuretic peptide, was prepared by solid phase synthesis and purified by reverse-phase liquid chromatography. This novel peptide was found to bind to ANP receptors in rabbit lung membranes, to stimulate cGMP production in various tissues, and to fully relax precontracted rabbit aorta in a dose-dependent fashion. The potency of 1 in the various in vitro assays varies between one-twentieth and one-eightieth of the potency of the reference peptide, the 24-mer rat ANP-(103-126). The linear decapeptide 1, which encompasses amino acid residues from the rat ANP sequence (105-114), features a cyclohexylalanine residue instead of the phenylalanine 106 residue in the hormone sequence, a free sulfhydryl function at the N-terminal cysteine 105, and a carboxamide C terminus. Its disulfide dimer 6 was active in the rabbit aorta assay while the S-methyl cysteine 7 analogue was not active in the same assay at similar concentrations. The decapeptide 1 is of particular significance because it is the shortest analogue reported to date endowed with agonistic activity at the guanylate cyclase-coupled ANP receptor. In particular, it is interesting to compare its structure to the structures of other short linear analogues of ANP which are totally devoid of the ability to stimulate particulate guanylate cyclase activity.
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PMID:A synthetic linear decapeptide binds to the atrial natriuretic peptide receptors and demonstrates cyclase activation and vasorelaxant activity. 255 53

Structural analogs of atriopeptins (APs) were compared for their ability to activate particulate guanylate cyclase and bind to specific receptors in rat adrenal membranes. All analogs tested increase Vmax without altering the concentration of substrate required for half-maximum activity or the positive coperativity exhibited by the enzyme. Maximum velocities (pmoles of cGMP produced per min per mg protein) achieved in the absence and presence of APs were 128.3 +/- 6.6 and 283.8 +/- 20.6 using Mn2+-GTP, and 53.7 +/- 3.7 and 149.9 +/- 7.6 using Mg2+-GTP as the substrate, respectively. Although all APs were equally efficacious in activating the enzyme, their rank potency was ANF (8-33) = AP III = AP II greater than AP I when either divalent cation was used as the cofactor. The EC50 for activation of guanylate cyclase by AP I was about 10(-7) M, while that for the other peptides was about 10(-8) M, using either divalent cation cofactor. 125I-labeled ANF bound to rat adrenal membranes with a KD of 5.10(-10) M. Although all APs were equally efficacious in competing with labeled ANF for receptor binding, their rank potency was identical to that for enzyme activation. The Ki for AP I was about 10(-8) M, while that for the other peptides was about 10(-10) M. These data suggest that the carboxy terminal Phe-Arg present in the AP analogs except AP I and critical for biological and receptor-binding activity are also important in coupling receptor-ligand interaction with guanylate cyclase activation. The correlation between the rank order potency for receptor binding, enzyme activation, and the reported physiological actions of APs support the suggestion of a functional coupling between these proteins.
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PMID:Regulation of particulate guanylate cyclase by atriopeptins: relation between peptide structure, receptor binding, and enzyme kinetics. 257 98

Two peptides, speract (Gly-Phe-Asp-Leu-Asn-Gly-Gly-Gly-Val-Gly) and resact (Cys-Val-Thr-Gly-Ala-Pro-Gly-Cys-Val-Gly-Gly-Gly-Arg-Leu-NH2), which activate sperm respiration and motility and elevate cyclic GMP concentrations in a species-specific manner, were tested for effects on guanylate cyclase activity. The guanylate cyclase of sea urchin spermatozoa is a glycoprotein and it is localized entirely on the plasma membrane. When intact sea urchin sperm cells were incubated with the appropriate peptide for time periods as short as 5 s and subsequently homogenized in detergent, guanylate cyclase activity was found to be as low as 10% of the activity of cells not treated with peptide. The peptides showed complete species specificity and analogues of one peptide (speract) caused decreases in enzyme activity coincident with their receptor binding properties. The peptides did not inhibit enzyme activity when added after detergent solubilization of the enzyme. When detergent-solubilized spermatozoa were incubated at 22 degrees C, guanylate cyclase activity declined in previously nontreated cells to the peptide-treated level. The rate of decline was dependent on temperature and protein concentration. When spermatozoa were first incubated with 32P, the decrease in guanylate cyclase activity was accompanied by a shift in the apparent molecular weight of a major plasma membrane protein (160,000-150,000) and a loss of 32P label from the 160,000 band. Other agents (Monensin A, NH4Cl) which were capable of stimulating sperm respiration and motility also caused decreases of guanylate cyclase activity when added to intact but not detergent-solubilized spermatozoa. The maximal decrease in guanylate cyclase activity occurred 5-10 min after addition of these agents. The enzyme response to Monensin A required extracellular Na+ suggestive that the ionophore caused the effect on guanylate cyclase activity by virtue of its ability to catalyze Na+/H+ exchange. These studies demonstrate that guanylate cyclase activity of sperm cells can be altered by the specific interaction of egg-associated peptides with their plasma membrane receptors.
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PMID:Receptor-mediated regulation of guanylate cyclase activity in spermatozoa. 286 Dec 1

We have examined the properties of soluble guanylate cyclase activity in the human neutrophil. The enzyme showed complex regulation by metal ions. A 10-fold higher activity was observed in the presence of Mn2+ than Mg2+, while Ca2+ caused an increase in activity only in the presence of Mg2+ ion. Sodium nitroprusside (SNP), azide and hydrogen peroxide were activators of the enzyme. Dithiothreitol blocked the activation by SNP, suggesting the involvement of thiol groups in the activation process. Carbachol acting through the muscarinic cholinergic receptor caused a dose-dependent activation, which was blocked by atropine. Higher concns of carbachol were required to activate guanylate cyclase than were required for the modulation of enzyme release elicited by N-formyl-L-methionyl-L-leucyl-L-phenylalanine. Nordihydroguaracetic acid inhibited carbachol stimulation of guanylate cyclase. By contrast, trifluoperazine (TFP), a calmodulin antagonist, caused a biphasic modulation of basal activity in the presence or absence of carbachol. Our results indicate that: allosteric interactions of metal ions are important to the regulation of the enzyme, the free radical nitroxide as well as hydrogen peroxide enhances enzyme activity, agonist occupancy of the muscarinic cholinergic receptor activates neutrophil guanylate cyclase probably through a mechanism involving calcium influx and the activation of the lipoxygenase pathway, and a TFP-sensitive site (possibly calmodulin) is involved in the selective regulation of basal enzyme activity.
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PMID:Regulation of human neutrophil guanylate cyclase by metal ions, free radicals and the muscarinic cholinergic receptor. 286 50


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