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 signal transduction of prostaglandin E2 (PGE2) and thromboxane A2 (TXA2), cyclooxygenase products of arachidonic acid, was investigated in smooth muscle preparations and 1321N1 human astrocytoma cells. While PGE2 has been known to stimulate (via EP2 receptor) or inhibit (via EP3 receptor) adenylate cyclase, PGE2 activated phosphatidylinositol 4,5-bisphosphate (PIP2)-specific phospholipase C (PLase C) in non-vascular smooth muscles (via EP1 receptor), resulting in accumulations of inositol trisphosphate (IP3) and diacylglycerol to elicit intracellular Ca2+ mobilization. On the other hand, STA2, a TXA2 receptor analogue, also accumulated IP3 in human astrocytoma cells. [3H]SQ 29548, a TXA2 receptor antagonist, specifically bound to astrocytoma membranes. TXA2-receptor antagonists (ONO NT-126, S-145, SQ29548 and ONO3708) concentration-dependently inhibited PIP2-specific PLase C activation by STA2, and they also inhibited [3H]SQ 29548 binding in human astrocytoma cells. The Ki value of each antagonist in PIP2-specific PLase C inhibition was similar to that in [3H]SQ29548 binding inhibition. In membrane preparations, STA2 activated PIP2-specific PLase C in the presence of GTP gamma S. Pertussis toxin (IAP) did not affect STA2-induced PLase C activation. The results suggest that stimulation of TXA2 receptors activates PIP2-specific PLase C via an IAP-insensitive G-protein.
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PMID:[Signal transduction of prostaglandin E2 and thromboxane A2]. 131 76

Rank order of agonist potency for activation of adenylate cyclase by the naturally occurring prostanoids PGE2, PGF2 alpha, PGD2, the stable PGI2 analogue iloprost, and the TXA2 mimetic U 46619, provides evidence for the existence of a distinct PGE-receptor on guinea-pig duodenal enterocytes. The PGE-receptor is likely to be of the EP2-subtype since the specific EP2-agonist 11-deoxy-PGE1 stimulated adenylate cyclase activity with a 20-fold higher potency than the EP1-agonist 17-phenyltrinor-PGE2 and the EP3-agonists MB 28767 and GR 63799. In addition, sulprostone (acting on both EP1- and EP3-receptors) was ineffective. Since the specific EP1-antagonist SC 19220 did not inhibit PGE2-stimulated adenylate cyclase activity, the involvement of EP1-receptors could be further excluded. The synthetic prostaglandin E-analogues misoprostol and nocloprost stimulated adenylate cyclase almost identically, though they were about 10-fold less potent than the natural PGE2.
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PMID:Effects of EP-receptor subtype specific agonists and other prostanoids on adenylate cyclase activity of duodenal epithelial cells. 136 78

1. Comparison of the rank order of potency of the natural prostanoids prostaglandin E2 (PGE2), PGD2, PGF2 alpha and carbaprostacyclin in stimulating cyclic AMP in Jurkat cells is consistent with the presence of an EP receptor. 2. Lack of responsiveness to the EP1/EP3 selective agonist, sulprostone, and the EP2 agonists, butaprost and AH 13205, indicates that this receptor is not of the EP1, EP2 or EP3 subtypes. 3. Inhibition of PGE2-stimulated cyclic AMP by the EP4 antagonist, AH 23848 is non-competitive, unlike the competitive antagonism reported in the pig saphenous vein EP4 preparation. Furthermore, 16,16-dimethyl PGE2 is 100 fold less potent than PGE2 in Jurkat cells, while these agonists are equipotent in the rabbit jugular vein purported EP4 preparation. In addition, 1-OH PGE1, which also is active in the rabbit jugular vein preparation, is inactive in Jurkat cells at concentrations up to 1 x 10(-4) M. These data are not wholly consistent with any adenylate cyclase coupled EP receptor described to date. 4. It is postulated that an EP receptor, positively coupled to adenylate cyclase, with a unique pharmacological profile is present in Jurkat cells.
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PMID:An EP receptor with a novel pharmacological profile in the T-cell line Jurkat. 758 50

Prostaglandins, released from Kupffer cells, have been shown to mediate the increase in hepatic glycogenolysis by various stimuli such as zymosan, endotoxin, immune complexes, and anaphylotoxin C3a involving prostaglandin (PG) receptors coupled to phospholipase C via a G(0) protein. PGs also decreased glucagon-stimulated glycogenolysis in hepatocytes by a different signal chain involving PGE2 receptors coupled to adenylate cyclase via a Gi protein (EP3 receptors). The source of the prostaglandins for this latter glucagon-antagonistic action is so far unknown. This study provides evidence that Kupffer cells may be one source: in Kupffer cells, maintained in primary culture for 72 hours, glucagon (0.1 to 10 nmol/L) increased PGE2, PGF2 alpha, and PGD2 synthesis rapidly and transiently. Maximal prostaglandin concentrations were reached after 5 minutes. Glucagon (1 nmol/L) elevated the cyclic adenosine monophosphate (cAMP) and inositol triphosphate (InsP3) levels in Kupffer cells about fivefold and twofold, respectively. The increase in glycogen phosphorylase activity elicited by 1 nmol/L glucagon was about twice as large in monocultures of hepatocytes than in cocultures of hepatocytes and Kupffer cells with the same hepatocyte density. Treatment of cocultures with 500 mumol/L acetylsalicylic acid (ASA) to irreversibly inhibit cyclooxygenase (PGH-synthase) 30 minutes before addition of glucagon abolished this difference. These data support the hypothesis that PGs produced by Kupffer cells in response to glucagon might participate in a feedback loop inhibiting glucagon-stimulated glycogenolysis in hepatocytes.
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PMID:Feedback-inhibition of glucagon-stimulated glycogenolysis in hepatocyte/Kupffer cell cocultures by glucagon-elicited prostaglandin production in Kupffer cells. 759 Jun 78

1. The aims of this study were to characterize the EP receptor subtype mediating the inhibition of superoxide anion generation by formyl methionyl leucine phenylalanine (FMLP)-stimulated human neutrophils, and to test the hypothesis that adenosine 3':5'-cyclic monophosphate (cyclic AMP) is the second messenger mediating the inhibition of the neutrophil by prostaglandin (PG)E2. 2. PGE2 (0.001-10 microM) inhibited FMLP (100 nM)-induced O2-generation from human peripheral blood neutrophils in a concentration-dependent manner, with an EC50 of 0.15 +/- 0.03 microM, and a maximum effect ranging from 36-84% (mean inhibition of 68.7 +/- 2.5%, n = 32). 3. The EP2-receptor agonists, misoprostol, 11-deoxy PGE1, AH13205 and butaprost, all at 10 microM, inhibited O2- generation, causing 95.5 +/- 2.9%, 56.8 +/- 5.2%, 37.1 +/- 6.6% and 18.9 +/- 4.4% inhibition respectively, the latter two being much less effective than PGE2. Similarly, the EP1-receptor agonist, 17-phenyl PGE2 (10 microM), and the EP3/EP1-receptor agonist, sulprostone (10 microM), also inhibited O2- generation, causing 32.2 +/- 7.0% and 15.3 +/- 3.4% inhibition respectively. 4. The non-selective phosphodiesterase inhibitor, isobutyl methylxanthine (IBMX, 0.25 mM) inhibited the FMLP response by 54.5 +/- 5.0%. In addition, IBMX shifted concentration-effect curves for PGE2, misoprostol, 11-deoxy PGE1, butaprost, and AH 13205 to the left, to give EC50s of 0.04 +/- 0.03 (n = 13), 0.07 +/- 0.03 (n = 4), 0.08 +/- 0.03 (n = 4), 0.33 +/- 0.13 (n = 4) and 0.41 +/- 0.2 microM (n = 3) respectively, allowing equieffective concentration-ratios (EECs, PGE2 = 1) of 11.5, 5.3, 50.7 and 12.7 to be calculated. This agrees well with the relative potencies of these agonists at EP2 receptors.5. By contrast, even in the presence of IBMX (0.25 mM), sulprostone and 17-phenyl PGE2 were only effective at the highest concentration (10 microM), and gave EECs of > 700 and 486 respectively, suggesting that EP1 or EP3 receptors are not involved.6. The selective type IV phosphodiesterase inhibitor, rolipram at 2 and 10 nM did not inhibit the FMLP response, but at the higher concentration of 50 nM, it decreased the FMLP response by 46.6 +/-7.3%.However, rolipram shifted concentration-effect curves for PGE2 to the left to give EC50s of 0.06 +/-0.022,0.015 +/- 0.0, 0.012 +/- 0.006 microM at 2, 10 and 50 nM respectively, compared to the control EC50 of0.27+/- 0.09 microM for PGE2.7. The EP4/TP receptor blocking drug, AH 23848B (10 microM, 10 min) did not inhibit 02- generation by PGE2, but was found to potentiate significantly the effect of PGE2 at the lower concentrations of PGE2 tested (0.001-0.1 microM).8. The adenylate cyclase inhibitor, SQ 22,536 (0.1 mM, 2 min) reduced PGE2-induced inhibition of 02-production, giving an EC50 in the absence of SQ 22,536 of 0.24 +/- 0.1, and 1.9 +/- 1.1 AM in its presence.9. These results suggest that inhibition of superoxide generation by PGE2 is mediated by stimulation ofEP2 receptors and activation of adenylate cyclase, leading to the elevation of intracellular levels of cyclic AMP.
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PMID:Characterization of the PGE receptor subtype mediating inhibition of superoxide production in human neutrophils. 760 49

Prostaglandin (PG) E receptor EP3D is coupled to both Gi and Gs. To examine the roles of the interaction of alpha-carboxylic acid of PGE2 and its putative binding site, the arginine residue in the seventh transmembrane domain of EP3D, in receptor-G protein coupling, we have mutated the arginine residue to the noncharged glutamine. PGE2 with a negatively charged alpha-carboxylic acid and sulprostone, an EP3 agonist with a noncharged modified alpha-carboxylic acid, inhibited the forskolin-stimulated adenylate cyclase activity via Gi activation in the EP3D receptor in the same concentration-dependent manner. In contrast, the adenylate cyclase stimulation via Gs activation by sulprostone was much lower than that by PGE2. On the other hand, both PGE2 and sulprostone showed potent Gi activity but failed to show Gs activity in the mutant receptor. EP3D receptor showed a high affinity binding for PGE2 in the form coupled to either Gi or Gs. Although the mutant receptor showed high affinity binding when coupled to Gi, it lost high affinity binding in the condition of Gs coupling. Furthermore, sulprostone bound to the Gi-coupled EP3D receptor with higher affinity than the Gs-coupled receptor. Among various EP3 agonists, alpha-carboxylic acid-unmodified agonists showed both Gi and Gs activities, but the modified agonists showed only Gi activity. These findings suggest that the interaction between the alpha-carboxylic acid of PGE2 and the arginine residue of the receptor regulates the selectivity of the G protein coupling.
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PMID:Selective coupling of prostaglandin E receptor EP3D to Gi and Gs through interaction of alpha-carboxylic acid of agonist and arginine residue of seventh transmembrane domain. 760 75

Prostaglandin E receptor EP3D is coupled to stimulation and inhibition of adenylate cyclase and stimulation of phosphatidylinositol turnover. To examine the roles of the interaction of the carboxylic acid of an agonist and its putative binding site, the arginine residue in the seventh transmembrane domain of EP3D, in receptor-G protein coupling, we have mutated the arginine to the non-charged glutamine. TEI-3356, an EP3 agonist with a negatively charged the carboxylic acid, and TEI-4343, a non-charged methylester of TEI-3356, inhibited the forskolin-stimulated cAMP formation in the same concentration-dependent manner, but stimulation of basal cAMP formation and Ca2+ mobilization by TEI-4343 was much lower than that by TEI-3356. In the mutant receptor, both TEI-3356 and TEI-4343 showed the inhibition of forskolin-stimulated cAMP formation in the same profile, but did not stimulate basal cAMP formation or Ca2+ mobilization. These findings suggest that the interaction between the carboxylic acid of agonist and the arginine residue is important in signal transduction for adenylate cyclase stimulation and Ca2+ mobilization but not for adenylate cyclase inhibition.
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PMID:Selective coupling of prostaglandin E receptor EP3D to multiple G proteins depending on interaction of the carboxylic acid of agonist and arginine residue of seventh transmembrane domain. 762 39

Interleukin 3-dependent BNu-2cl3 mast cells, mucosal type-like mast cells, exhibited a specific high-affinity binding site for [3H]prostaglandin (PG) E2. The binding was completely displaced by M&B 28767, an EP3-selective agonist, but not by EP1- or EP2-selective ligands, indicating that the PGE2 binding site is of the EP3 subtype PGE receptor. Whereas the EP3 subtype is presumed to be coupled to inhibition of adenylate cyclase in various tissues and cells, in BNu-2cl3 cells PGE2 had no ability to inhibit adenylate cyclase activity, while it induced concentration-dependent stimulation of phosphoinositide metabolism and caused an increase in the intracellular free Ca2+ concentration in a pertussis toxin-sensitive manner. PGE2 by itself did not evoke histamine release from the cells, but it markedly stimulated histamine release in concert with ionomycin, a Ca2+ ionophore. The PGE2-stimulated release was also completely blocked by pertussis toxin. Thus, the PGE receptor expressed on BNu-2cl3 mast cells is of the EP3 subtype and is linked to phosphoinositide metabolism via a pertussis toxin-sensitive G protein, and this activation leads to histamine release.
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PMID:Characterization of the prostaglandin E receptor expressed on a cultured mast cell line, BNu-2cl3. 769 May 67

Human promyelocytic leukaemic HL-60 cells can be differentiated with DMSO to become neutrophil-like. In this study, the prostanoid receptors linked to adenylate cyclase have been compared in human neutrophils and in differentiated HL-60 cells. Both cell types appear to express EP2 receptors as recognised by the ability of EP2 agonists and not EP1 or EP3 agonists to increase cell cyclic AMP levels, and the finding that the increase in cyclic AMP induced by PGE2 was not blocked by the EP4 receptor antagonist AH 23,848 (30 microM). Neither cell type appears to express receptors for PGI2, but human neutrophils and not differentiated HL-60 cells express receptors for PGD2. In addition, human neutrophils may contain EP3 receptors linked to a reduction in cyclic AMP levels. The lack of other prostanoid receptors coupled to adenylate cyclase in HL-60 cells suggests that these cells may provide a useful starting point for the cloning of the EP2 receptor.
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PMID:Comparison of the prostaglandin E (EP) receptor of human neutrophils and HL-60 cells differentiated with DMSO. 787 90

We recently cloned the mouse prostaglandin (PG) E receptor EP3 subtype that is coupled to adenylate cyclase inhibition through Gi and identified three isoforms which are produced through alternative splicing. In Chinese hamster ovary cells expressing each EP3 isoform, PGE2 induced an immediate increase in the intracellular Ca2+ concentration ([Ca2+]i) due to both Ca2+ mobilization from internal stores and influx from the extracellular medium. This increase was abolished by prior treatment with pertussis toxin (PT). PGE2 also stimulated an accumulation of inositol trisphosphate (IP3) in a PT-sensitive manner. Both the PGE2-induced increase in [Ca2+]i and accumulation of IP3 were blocked by the phospholipase C inhibitor U-73122. Thus, EP3 is linked to phospholipase C activation via Gi, and this activation leads to Ca2+ mobilization from internal stores and influx from the extracellular medium.
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PMID:Mouse prostaglandin E receptor EP3 subtype mediates calcium signals via Gi in cDNA-transfected Chinese hamster ovary cells. 794 76

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