EC:4.6.1.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.6.1.1 (adenylate cyclase)
19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The prostaglandin endoperoxide PGH2 (15-hydroxy-9alpha, 11alpha-peroxidoprosta-5,13-dienoic acid), at a concentration of 2.8 x 10(-5) M inhibited basal adenylate cyclase activity 11% and epinephrine-stimulated activity 30 to 35%. PGH2 inhibited epinephrine-stimulated enzyme activity in the presence of 10 mM theophylline, 2.5 mM adenosine 3':5'-monophosphate (cAMP), or in the absence of inhibitors or substrates of the cAMP phosphodiesterase. When the cAMP phosphodiesterase was assayed directly using 62 nM and 1.1 muM cAMP, PGH2 did not affect the 100,000 x g particulate cAMP phosphodiesterase from fat cells. The inhibition of adenylate cyclase by PGH2 was readily reversible. A 6-min preincubation of ghost membranes with PGH2, followed by washing, did not alter subsequent epinephrine-stimulated adenylate cyclase activity. During epinephrine stimulation, the PGH2 inhibition was apparent on initial rates of cAMP synthesis, and the addition of PGH2 to the enzyme system at any point during an assay markedly reduced the rate of cAMP synthesis. Between 2.8 x 10(-7) M and 2.8 x 10(-5) M, PGH2 inhibited epinephrine-stimulated enzyme activity in a concentration-dependent manner. The stimulation of adenylate cyclase by thyroid-stimulating hormone, glucagon, and adrenocorticotropic hormone as well as by epinephrine was antagonized by PGH2, suggesting that PGH2 may be an endogenous feedback regulator of hormone-stimulated lipolysis in adipose tissue.
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PMID:Inhibition of basal and hormone-stimulated adenylate cyclase in adipocyte ghosts by the prostaglandin endoperoxide prostaglandin H2. 16 45

The prostaglandin endoperoxide PGH2 antagonized basal and hormone-stimulated adenylate cyclase activity in an adipocyte ghost preparation. The inhibition was readily reversible, and demonstrable on initial rates of cAMP synthesis. It is suggested that PGH2 may be an endogenous feedback regulator of lipolysis in adipose tissue.
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PMID:Inhibition of adenylate cyclase in adipocyte ghosts by the prostaglandin endoperoxide PGH2. 18 45

Prostacyclin (PGX) (57)-9-deoxy-6,9alpha-epoxy-delta5-PGF1alpha has been found to be a potent stimulator of cAMP accumulation in platelets than PGE1. The prostacyclin stimulation of platelet cAMP accumulation can be antagonized by the prostaglandin endoperoxide PGH2, and a PGH2-induced platelet aggregation is antagonized by prostacyclin. A model of platelet homeostasis is proposed that suggests platelet aggregation is controlled by a balance between the adenylate cyclase stimulating activity of prostacyclin, and the cAMP lowering activity of PGH2.
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PMID:Modulation of human platelet adenylate cyclase by prostacyclin (PGX). 19 76

Thromboxane A2 plays an important role in arachidonic acid- and prostaglandin H2-induced platelet aggregation. Agents that stimulate platelet adenylate cyclase (prostaglandin I2, prostaglandin I1 and prostaglandin E1) and dibutyryl cyclic AMP inhibit both thromboxane A2 formation and arachidonate-induced aggregation in platelet-rich plasma. Despite complete suppression of aggregation with agents that elevate cyclic AMP, considerable thromboxane A2 is still formed. Prostaglandin H2-induced aggregations which bypass the cyclooxygenase regulatory step are also inhibited by agents that elevate cyclic AMP without any measurable effect on thromboxane A2 production. These data demonstrate that cyclic AMP can inhibit platelet aggregation by a mechanism independent of its ability to suppress the cyclooxygenase enzyme. Parallel experiments with washed platelet preparations suggest that they may be an inadequate model for studying the relationship between the platelet cyclooxygenase and platelet function.
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PMID:Regulatory role of cyclic adenosine 3',5'-monophosphate on the platelet cyclooxygenase and platelet function. 21 15

Recently two local hormones, thromboxane A2 (TXA2) and prostacyclin (PGI2) have been discovered. These hormones are labile metabolites of arachidonic acid. TXA2 is generated by blood platelets, while PGI2 is produced by vascular endothelium. TXA2 is a potent vasoconstrictor. It also initiates the release reaction, followed by platelet aggregation. PGI2 is a vasodilator, especially potent in coronary circulation. It also inhibits platelet aggregation by virtue of stimulation of platelet adenyl cyclase. Common precursors for both hormones are cyclic endoperoxides PGG2 and PGH2, being formed by cyclooxygenation of arachidonic acid. This last enzymic reaction is more efficient in platelets than in vascular endothelium, and therefore the generation of PGI2 by vasuclar wall is accelerated by an interaction between platelets and endothelial cells. During this interaction platelets supply the endothelial PGI2 synthetase with their cyclic endoperoxides. The newly formed PGI2 repels the platelets from the intima. When PGI2 synthetase is irreversibly inactivated by low concentration of lipid peroxides, then the platelets are not rejected but stick to the endothelium, generate TXA2 and mature thrombi are formed. A balance between formation and release of PGI2, TXA2 and/or cyclic endoperoxides in circulation is of utmost importance for the control of intra-arterial thrombi formation and possibly plays a role in the pathogenesis of atherosclerosis.
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PMID:A possible role of thromboxane A2 (TXA2) and prostacyclin (PGI2) in circulation. 36 54

The comparative effects of three so called "thromboxane-synthetase-inhibitors" (imidazole, N-0164, and U-51605) on arachidonate metabolism and on platelet aggregation were studied. All three compounds blocked platelet microsomal thromboxane synthesis from prostaglandin endoperoxides without affecting platelet adenyl cyclase. Imidazole, blocked thromboxane synthesis in intact platelets either from arachidonic acid or PGH2, without affecting aggregation. U-51605 simultaneously inhibited thromboxane synthesis and platelet suspension aggregation. N-0164 inhibited aggregation probably at extracellular sites, at concentrations that did not alter arachidonate or PGH2 metabolism. High concentrations of N-0164 simultaneously inhibited PG cyclo-oxygenase and thromboxane synthetase. The lack of specificity of these compounds requires that other actions of these compound must be considered when they are used as pharmacological tools to inhibit thromboxane synthetase.
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PMID:Thromboxane synthetase inhibitors as pharmacological tools: differential biochemical and biological effects on platelet suspensions. 59 91

Arachidonic acid (AA)- or thromboxane A2/prostaglandin H2 (TXA2/PGH2) analog (STA2 and U-46619)-induced aggregations yielded a bell-shaped dose-response curve. The inhibitory mechanism by high concentrations of the agonists was examined. STA2 elevated cAMP level of platelet in a dose-dependent manner. And the aggregation was affected by metabolic inhibitors of cAMP. AA also rised cAMP level, and the rise was suppressed by indomethacin. These results indicate that the reduction of aggregation by high dose of the agonists is through cAMP elevation. The cAMP elevation was not suppressed by ruling out phospholipase C effects by chelation of cytoplasmic Ca2+ and inhibition of protein kinase C (PKC). These results suggest that the cAMP elevation is not due to activation of phospholipase C-linked TXA2/PGH2 receptor. 13-APA, an antagonist of TXA2/PGH2 receptor, suppressed the cAMP elevation, although ONO-3708, another antagonist, had no effect. As to be expected from this result, inhibitory effect of 13-APA on high STA2 level-induced aggregation was weaker than that of ONO-3708. The antagonists did not inhibit PGE1- or PGD2-induced cAMP elevation. These findings suggest that platelet has adenylate cyclase-linked TXA2/PGH2 receptor.
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PMID:Elevation of platelet cyclic AMP level by thromboxane A2/prostaglandin H2 receptor agonists. 166 27

Platelet activation by the prostaglandin endoperoxide (PGH2)/thromboxane (Tx) A2 analog, U46619, involves stimulation of phospholipase (PL) C and an increase in intracellular calcium via distinct receptor subtypes. Agents which stimulate adenylate cyclase inhibit platelet function. We demonstrate that PGH2/TxA2 receptor desensitization is associated with enhanced stimulation of platelet cyclic AMP by the prostacyclin analog, iloprost and by forskolin. Sensitization of adenylate cyclase is mediated via the PGH2/TxA2 receptor subtype which activates PLC, as it is blocked by the specific antagonist, GR32191 (Takahara, K., Murray, R., FitzGerald, G. A., and Fitzgerald, D. J. (1990) J. Biol. Chem. 265, 6838-6844). This effect is not observed in platelets desensitized with thrombin or platelet activating factor and is not mediated by protein kinase C. Prior exposure of platelets to platelet activating factor results in much greater desensitization of PGH2/TxA2-induced aggregation (mean 64%) compared with calcium stimulation (mean 18%), consistent with selective heterologous desensitization of the PLC-linked PGH2/TxA2 receptor subtype. Platelet activation by PGH2/TxA2 is a tightly regulated process, involving both homologous desensitization of at least two receptor subtypes and sensitization of the platelet adenylase cyclase system.
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PMID:Prostaglandin endoperoxide/thromboxane A2 receptor desensitization. Cross-talk with adenylate cyclase in human platelets. 170 35

MEG-01s, an established human megakaryoblastic leukemia cell line, exhibited specific high-affinity binding sites for [3H]iloprost, a stable prostaglandin (PG) I2 analogue, for [3H]SQ-29548, a stable thromboxane (TX) A2 antagonist and, for [3H]PGE2/PGE1, but not for [3H]PGD2. In the MEG-01s cells, iloprost/PGI2, or PGE1 stimulated cAMP production with ED50 values practically identical to the IC50 values for the [3H] iloprost binding. STA2 and U46619, TXA2/PGH2 agonists, PGE2/PGE1, iloprost/PGI2, and thrombin elevated the intracellular concentrations of Ca2+ ([Ca2+]i), as determined by Fura-2 fluorescence signals. Elevation of [Ca2+]i by PGE2/PGE1 and iloprost, but not that by TX-agonists or thrombin, was totally dependent on the presence of extracellular Ca2+. This effect by PGE2/PGE1 was partially inhibited by prior treatment of the cells with islet-activating protein (IAP), while that by TX-agonists or by PGI2/iloprost was not affected. We tentatively conclude from these results that: (1) MEG-01s cells express (a) PGI2/PGE1 receptor(s) coupled to adenylate cyclase and Ca2+ influx, a TXA2/PGH2 receptor coupled to the phosphatidylinositol-turnover-Ca2+ system, and the PGE2/PGE1 receptor coupled to Ca2+ influx; (2) the receptors for TXA2/PGH2 and iloprost and those for PGE2/PGE1 and thrombin are coupled to IAP-insensitive and IAP-sensitive GTP-binding proteins, respectively, and function in a different manner to elevate [Ca2+]i. Thus, the MEG-01s cell line is a pertinent model for studying eicosanoid receptor-mediated signal transduction in platelet/megakaryocyte systems.
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PMID:Characterization of prostaglandin and thromboxane receptors expressed on a megakaryoblastic leukemia cell line, MEG-01s. 171 95

The inhibition of human platelet aggregation produced by PGF2 alpha is not specific for thromboxane A2 mimetics. Aggregation waves induced by PAF and thrombin are also inhibited by PGF2 alpha (8 microM); ADP is unaffected. These effects are still seen in platelets from aspirin-treated donors and platelets desensitized to thromboxane-like agonists (e.g. 11,9-epoxymethano PGH2). In contrast the thromboxane receptor antagonist EP 045 (up to 20 microM) had no effect on primary aggregation induced by PAF, thrombin and ADP. We have previously shown that EP 045 (IC50 = 0.5 microM), but not PGF2 alpha (28 microM), displaces the specific binding of [3H] 9,11-epoxymethano PGH2 to washed human platelets. PGF2 alpha produces small increases in cAMP levels, and both this effect and the anti-aggregation are diminished by the adenyl cyclase inhibitor SQ 22536. The rise in cAMP induced by PGF2 alpha is inhibited to a greater extent by the presence of ADP than by thrombin, PAF or a thromboxane mimetic. The ability of aggregating agents to inhibit this increase correlates inversely with their sensitivity to inhibition by PGF2 alpha. We suggest that the very weak effect of PGF2 alpha on cyclic AMP production is sufficient to account for its inhibitory activity, and it is unlikely to be a competitive antagonist at the platelet thromboxane receptor as suggested by others.
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PMID:Mechanism of the inhibition of platelet aggregation produced by prostaglandin F2 alpha. 298 22

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