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)

The activities of adenylate and guanylate cyclase and cyclic nucleotide 3':5'-phosphodiesterase were determined during the aggregation of human blood platelets with thrombin, ADP, arachidonic acid and epinephrine. The activity of guanylate cyclase is altered to a much larger degree than adenylate cyclase, while cyclic nucleotide phosphodiesterease activity remains unchanged. During the early phases of thrombin-and ADP-induced platelet aggregation a marked activation of the guanylate cyclase occurs whereas aggregation induced by arachidonic acid or epinephrine results in a rapid diminution of this activity. In all four cases, the adenylate cyclase activity is only slightly decreased when examined under identical conditions. Platelet aggregation induced by a wide variety of aggregating agents including collagen and platelet isoantibodies results in the "release" of only small amounts (1-3%) of guanylate cyclase and cyclic nucleotide phosphodiesterase and no adenylate cyclase. The guanylate cyclase and cyclic nucleotide phosphodiesterase activities are associated almost entirely with the soluble cytoplasmic fraction of the platelet, while the adenylate cyclase if found exclusively in a membrane bound form. ADP and epinephrine moderately inhibit guanylate and adenylate cyclase in subcellular preparations, while arachidonic and other unsaturated fatty acids moderately stimulate (2-4-fold) the former. It is concluded that (1) the activity of platelet guanylate cyclase during aggregation depends on the nature and mode of action of the inducing agent, (2) the activity of the membrnae adenylate cyclase during aggregation is independent of the aggregating agent and is associated with a reduction of activity and (3) cyclic nucleotide phosphodiesterase remains unchanged during the process of platelet aggregation and release. Furthermore, these observations suggest a role for unsaturated fatty acids in the control of intracellular cyclic GMP levels.
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PMID:Cyclic nucleotides and platelet aggregation. Effect of aggregating agents on the activity of cyclic nucleotide-metabolizing enzymes. 0 49

The effects of a variety of purine and pyrimidine nucleotides were tested for their capacity to inhibit mammalian soluble guanylate cyclase activity. Adenosine 5'-tetraphosphate (ATetP), ATP, ADP, AMP, guanosine 5'-tetraphosphate (GTetP) and GDP were found to inhibit soluble guanylate cyclase activity from rat lung and other mammalian tissues. The corresponding cytosine and thymine nucleotides showed little or no inhibitory activity, except for thymidine 5'-tetraphosphate, which inhibited glanylate cyclase activity but to a lesser extent than did the purine nucleoside tetraphosphates. ATetP and GTetP were found to be potent inhibitors of soluble guanylate cyclase activity from rat, guinea pig and mouse lung, rat heart and rat brain. Both purine nucleoside tetraphosphates were competitive inhibitors of the rat lung soluble enzyme. ATetP and GTetP had Ki values of 1 muM and 2.5 muM, respectively. The experimental data suggest that purine nucleoside tetraphosphates, and perhaps other purine nucleotides, may play a biologic role in modulating mammalian soluble guanylate cyclase activity.
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PMID:Inhibition of mammalian soluble guanylate cyclase activity by adenosine 5'-tetraphosphate, guanosine 5'-tetraphosphate and other nucleotides. 1 93

The denatured alpha1(I) chain and the cyanogen bromide peptide, alpha1(I)-CB5, of chick skin collagen cause the release of serotonin and leakage of lactic dehydrogenase from human platelets in a manner similar to the release reaction mediated by adenosine diphosphate and native collagen. These peptides also cause a decrease in the level of adenosine 3':5'-monophosphate (cAMP) in platelets. Adenylate cyclase activity of platelets is partially inhibited by these peptides as well as by native collagen, ADP, and epinephrine, but cAMP phosphodiesterase activity is unaltered by these substances. In contrast, the level of platelet guanosine 3':5'-monophosphate (cGMP) is increased by the collagen peptides as well as the other aggregating agents. The increase is associated with increased guanylate cyclase, but normal cGMP phosphodiesterase activities of platelets. Optical rotatory and viscometric measurements of the alpha1 chains and alpha1-CB5 of chick skin in 0.01 M phosphate/0.15 M sodium chloride, pH 7.4, at various temperatures as a function of time indicate that no detectable renaturation occurs at 37 degrees for at least 30 min of observation. Molecular sieve chromatography of alpha1-CB5 in the phosphate buffer at 37 degrees shows that its elution position is identical to that performed under denaturing conditions (at 45 degrees) with no evidence of higher molecular weight aggregates, and the alpha1-CB5 glycopeptide fraction eluting from the column at the position of its monomer retains the platelet aggregating activity. Additionally, electron microscopic examination of the platelet-rich plasma that had been reacted with these peptides fail to show any ordered collagen structures. These data indicate that the denatured alpha1 chain and alpha1-CB5 glycopeptide of chick skin collagen mediate platelet aggregation through the "physiologic" release reaction in a manner similar to that induced by other aggregating agents such as ADP, epinephrine, or native collagen, and support the conclusion that the aggregating activity of the alpha1 chain and alpha1-CB5 is not likely to be due to the formation of polymerized products.
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PMID:Interaction of a chick skin collagen fragment (alpha1-CB5) with human platelets. Biochemical studies during the aggregation and release reaction. 16 61

Certain nucleotides were found to regulate the binding of the Escherichia coli heat-stable enterotoxin (STa) to its receptor in pig intestinal brush border membranes. ATP and adenine nucleotide analogues inhibited 125I-STa binding, while guanine nucleotide analogues stimulated binding, with maximal effects at 0.5-1.0 mM. The strongest inhibitors were adenosine 5'-[beta gamma-imido]triphosphate (App[NH]p) (36%) and adenosine 5'-[beta-thio]diphosphate (ADP[S]) (41%). Inhibition did not require Mg2+, and was blocked by p-chloromercuribenzenesulphonate (PCMBS). Stimulation of binding required Mg2+, was not prevented by PCMBS and was maximal with GDP[S] (41%). While App[NH]p and MgGDP[S] appeared to be acting at different sites, they also interfered with each other. These nucleotides exerted only inhibitory effects on STa-stimulated guanylate cyclase activity, in contrast with the stimulatory effects of adenine nucleotides on atrial natriuretic peptide (ANP)-stimulated guanylate cyclase. Inhibition by low concentrations of MgApp[NH]p and MgATP was weaker above 0.1 mM, while MgGDP[S] and magnesium guanosine 5'-[gamma-thio]triphosphate (MgGTP[S]) inhibited in a single phase. Inhibition by MgApp[NH]p, at all concentrations, was competitive with the substrate (MgGTP), as was that by MgGDP[S] and MgGTP[S]. Whereas membrane guanylate cyclases usually show positively co-operative kinetics with respect to the substrate, STa-stimulated activity exhibited Michaelis-Menten kinetics with respect to MgGTP. This changed to positive co-operativity when Lubrol PX was the activator, or when the substrate was MnGTP. These results suggest the presence of both a regulatory and a catalytic nucleotide-binding site, which do not interact co-operatively with STa activation.
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PMID:Nucleotide regulation of heat-stable enterotoxin receptor binding and of guanylate cyclase activation. 135 Apr 35

Chromatography of 105,000 x g supernatants of human and rat platelets on DEAE-cellulose yielded identical elution profiles containing 2 protein fractions (peaks I and II). Only peak II was found to possess guanylate cyclase activity. In the spectrum of the 105,000 x g supernatant of human platelets the absorption maximum was specified at 410 nm (the Soret band) which disappeared from the spectrum of the active protein fraction (peak II) but was detected in the nonactive fraction (peak I). The enzyme preparation was obtained in the heme-deficient form. In the experiments with rat platelets, the Soret band was absent from the corresponding spectra and the enzyme was not activated by sodium nitroprusside; i.e., in soluble guanylate cyclase of rat platelets, unlike the generally accepted notion, the heme is not a prosthetic group of the enzyme. It was shown that carnosine (beta-alanyl-L-histidine), a water-soluble antioxidant, inhibits guanylate cyclase activation by sodium nitroprusside. This inhibitory effect is caused by the interaction of carnosine with the guanylate cyclase heme and can be used for evaluating the degree of saturation of the enzyme with the heme. ADP-induced aggregation of human platelets (donors) is accompanied by a fall in the basal guanylate cyclase activity (with Mg2+) and the enhancement of the enzyme stimulation with sodium nitroprusside, protoporphyrin IX, arachidonic acid and L-arginine with simultaneous cGMP elevation in platelets. A hypothetic scheme of the regulatory role of cGMP in platelet aggregation is proposed. In the experiments with the acute myocardial ischemia of rats, 15 min after the surgery a sharp fall in the platelet guanylate cyclase activity accompanied by a decrease in the enzyme activity in the ischemic zone of the left ventricle of heart took place. The results provided evidence of the high sensitivity of platelet guanylate cyclase to pathological changes occurring in the myocardium at the earliest stages of the development of pathology.
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PMID:Soluble guanylate cyclase of platelets: function and regulation in normal and pathological states. 135 37

The dynamics of changes in the stimulation of human platelet guanylate cyclase by some activators in aggregating platelets was studied. It was shown that ADP-induced aggregation of human platelets (donors) is accompanied by the enhancement of the intensity of guanylate cyclase activation by sodium nitroprusside, L-arginine, protoporphyrin IX and arachidonic acid and also by the increase in cGMP content. Immediately after the induction of aggregation the intensity of guanylate cyclase activation and cGMP content begin to increase. The rise reaches its maxima within several minutes, then followed by a fall to the initial level. The peaks of the enhanced capacity for guanylate cyclase activation by the above compounds coincide in time and intensity. On the basis of the proposed hypothetical scheme of cGMP action as a regulator of platelet aggregation a possible mechanism of enhancing the capacity of guanylate cyclase to be stimulated by various activators in aggregating platelets is suggested.
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PMID:Increase in activating ability of human platelet guanylate cyclase during aggregation. 136 51

The cerebral vasodilator response induced by topical nitroglycerin and nitroprusside was examined in cats equipped with cranial windows for the observation of the cerebral microcirculation. In cats subjected to chronic unilateral trigeminal ganglionectomy, the vasodilator responses to nitroprusside and nitroglycerin were markedly depressed on the denervated side. Application of a selective calcitonin gene-related peptide (CGRP) antagonist [CGRP(8-37)] on the innervated side reduced the response to nitrodilators to the same extent as seen on the denervated side. The vasodilator response to acetylcholine was unaffected by trigeminal ganglionectomy. CGRP(8-37) almost abolished the vasodilator response to nitroglycerin and sodium nitroprusside and to CGRP, but did not affect the response to adenosine or to adenosine diphosphate. Pretreatment with LY83583, a drug that lowers cyclic GMP levels, diminished the vasodilation to CGRP and to nitroprusside but not to adenosine. We conclude that the nitrovasodilators activate sensory fibers to release CGRP, which in turn relaxes cerebral vascular smooth muscle by activating guanylate cyclase. Hence, nitrovasodilators possess a novel mechanism of action within the cephalic circulation which may explain both the occurrence of vasodilation and headache.
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PMID:Calcitonin gene-related peptide mediates nitroglycerin and sodium nitroprusside-induced vasodilation in feline cerebral arterioles. 157 43

We believe that the mechanisms through which nitric oxide and guanylate cyclase produce relaxation are fully functional in cerebral arteries at term in the fetal sheep and probably also in the term human infant. The relation between cGMP levels and the degree of relaxation varies both with age and with the relaxant used in a vessel specific manner. The factors underlying this variability constitute a fruitful area for future research and include possible age-related changes in membrane potential, calcium channel density and currents, and the participation of cGMP-independent mechanisms, to name only a few. Between fetal and newborn life, the biotransformation of nitroglycerin appears to improve significantly, particularly in the smaller more distal cerebral arteries. This improvement may be a clue to other important vascular metabolic and enzymatic changes that occur during the perinatal period. At the endothelial level, responses to A23187, an index of maximum endothelial vasodilator capacity, are relatively stable across the perinatal period and do not change consistently with age across all arteries. More importantly, large arteries, such as the common carotid, appear to relax better than the smaller cerebral arteries, and this difference is greater in fetal than in adult arteries. Responses to ADP disappear with age in the common carotid, but remain or even become enhanced in the cerebral arteries, thus illustrating the key role played by changes in receptor type and distribution in development and maturation.
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PMID:Developmental aspects of endothelial function. 164 68

Atrial natriuretic factor (ANF-R1) receptor is a 130-kDa protein that contains a cytoplasmic guanylate cyclase domain. We report that ATP interacts in an allosteric manner with the ANF-R1 receptor, resulting in reduced ANF binding and enhanced ANF-stimulated guanylate cyclase activity. The modulatory properties of various nucleotides indicate a preference for the adenine family with a rank order of potency of ATP greater than App(NH)p greater than or equal to ADP greater than or equal to AMP while cyclic and guanine nucleotides except GTP are inactive. The negative modulation by ATP of ANF binding is specific for the ANF-R1 receptor subtype since the amount of ANF bound by the guanylate cyclase uncoupled ANF-R2 subtype is increased in the presence of ATP. Furthermore, the effects of ATP on ANF-R1 receptor binding function are still observed with the affinity-purified ANF-R1 receptor, suggesting an allosteric binding site for ATP on the ANF-R1 receptor. In intact membranes, limited proteolysis of the ANF-R1 receptor with trypsin dose-dependently prevents the ATP-induced decrease in ANF binding concomitantly with the formation of a membrane-associated ANF-binding fragment of 70 kDa. These results confirm the direct modulatory role of ATP on hormone binding activity of ANF-R1 receptor and suggest that the nucleotide regulatory binding site is located in the intracellular domain vicinal to the protease-sensitive region.
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PMID:Allosteric modulation by ATP of the bovine adrenal natriuretic factor R1 receptor functions. 165 83

Atrial natriuretic peptide (ANP) binds to a transmembrane receptor having intrinsic guanylyl cyclase activity; this receptor has been designated GC-A. Binding of ANP to GC-A stimulates its catalytic activity, resulting in increased production of the second messenger, cyclic GMP. Here we show that GC-A can be expressed in insect cells using a recombinant baculovirus and that the expressed protein retained its abilities to bind ANP and to function as an ANP-activated guanylyl cyclase. In addition, GC-A produced in insect cells was absolutely dependent on the presence of adenine nucleotides for activation by ANP. Millimolar concentrations of ATP were required for optimal activation. The relative potencies of various nucleotides for activation was adenosine 5'-O-(thiotriphosphate) greater than ATP greater than ADP, adenosine 5'-(beta, gamma-imino)triphosphate greater than ADP beta S. AMP had no effect. These studies suggest that binding of an adenine nucleotide, most likely to the protein kinase-like domain of GC-A, is absolutely required for ANP activation. Regulation of guanylyl cyclase activation by adenine nucleotides represents a novel mechanism for the modulation of signal transduction, possibly analogous in some respects to the role of guanine nucleotides and G proteins in the regulation of adenylyl cyclase activity.
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PMID:Adenine nucleotides are required for activation of rat atrial natriuretic peptide receptor/guanylyl cyclase expressed in a baculovirus system. 167 58


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