Tom-Philipp Zucker scite author profile

The action of prostacyclin, prostaglandin E1 (PGE1), and their mimetics on myocardial function includes changes in contractility, electrophysiological properties, and protection from injury caused by transient myocardial ischemia. This study was undertaken to investigate the basic properties of myocardial E-type prostaglandin (EP) receptors. Ligand binding studies using an enriched preparation of sarcolemmal membranes prepared from pig hearts revealed a single class of binding sites for [3H]PGE1, with a Kd of 3.7 nmol/L and a Bmax of 92 fmol/mg protein. Competition experiments indicated highest affinity for EPs, suggesting an EP receptor. In addition, the EP receptor subtype-selective agonists sulprostone (EP1 and EP3) and M&B 28.767 (EP3) were active, suggesting the presence of an EP3 receptor subtype. PGE1 stimulated sarcolemmal GTPase and inhibited sarcolemmal adenylyl cyclase activity, indicating EP3 receptor coupling to an inhibitory G protein (Gi). Additional in vivo experiments showed that intracoronary infusion of PGE1 (1 nmol/min) decreased isoprenaline-stimulated left ventricular contractile activity without altering systemic vascular resistance. This inhibition of beta-adrenergic effects is compatible with the known myocardial anti-ischemic action of prostaglandins. Further experiments examined EP3 receptor density and G-protein coupling in sarcolemma from ischemic and reperfused ischemic myocardium. In anesthetized open-chest minipigs, occlusion of the left anterior descending coronary artery for 60 minutes increased EP3 receptor density by 50%, whereas receptor affinity was unchanged. This upregulation was prevented by pretreatment with colchicine (2 mg/kg i.v.), indicating microtubule-dependent receptor externalization. Northern hybridization showed comparable EP3 receptor mRNA expression in control and ischemic myocardium. The increase of receptor protein was reversed during 60 minutes of reperfusion. G-protein coupling proved to be intact in ischemic and reperfused ischemic myocardial tissue, as shown by preserved GTP-gamma-S-induced decrease of [3H]PGE1 binding. These data demonstrate for the first time that myocardial receptors for PGE1 belong to the EP3 subtype. The properties of this receptor include inhibition of adenylyl cyclase and upregulation during regional myocardial ischemia, suggesting an involvement in the anti-ischemic activity of E- and I-type prostaglandins.

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Tom-Philipp Zucker

Post-anaesthesia pulmonary complications after use of muscle relaxants (POPULAR): a multicentre, prospective observational study

Tolerance development to antimitogenic actions of prostacyclin but not of prostaglandin E1 in coronary artery smooth muscle cells

Thrombin-Induced Mitogenesis in Coronary Artery Smooth Muscle Cells Is Potentiated by Thromboxane A ₂ and Involves Upregulation of Thromboxane Receptor mRNA

Expression, Function, and Regulation of E-Type Prostaglandin Receptors (EP ₃ ) in the Nonischemic and Ischemic Pig Heart

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Tom-Philipp Zucker

Post-anaesthesia pulmonary complications after use of muscle relaxants (POPULAR): a multicentre, prospective observational study

Tolerance development to antimitogenic actions of prostacyclin but not of prostaglandin E1 in coronary artery smooth muscle cells

Thrombin-Induced Mitogenesis in Coronary Artery Smooth Muscle Cells Is Potentiated by Thromboxane A 2 and Involves Upregulation of Thromboxane Receptor mRNA

Expression, Function, and Regulation of E-Type Prostaglandin Receptors (EP 3 ) in the Nonischemic and Ischemic Pig Heart

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Product

Resources

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Thrombin-Induced Mitogenesis in Coronary Artery Smooth Muscle Cells Is Potentiated by Thromboxane A ₂ and Involves Upregulation of Thromboxane Receptor mRNA

Expression, Function, and Regulation of E-Type Prostaglandin Receptors (EP ₃ ) in the Nonischemic and Ischemic Pig Heart