Pulmonary Vascular Smooth Muscle Relaxation by cAMP-Mediated Pathways

Abstract

Adenosine 3′,5′-cyclic monophosphate (cAMP)-mediated pulmonary vascular smooth relaxation is a principle mechanism of pulmonary vasomotor control. The purpose of this study was to compare the potency and efficacy of the following receptor-linked pathways of pulmonary vasorelaxation which are mediated by cAMP: (1) β2-adrenergic receptor activation (response to isoproterenol) (2) Adenosine A2-receptor activation (response to adenosine) (3) Prostaglandin EP2-receptor activation (response to prostaglandin E1) (4) Histamine H2-receptor activation (response to the H2-receptor agonist dimaprit) and (5) Purinergic P2-receptor activation (response to ADP). Cumulative concentration-response curves were generated in isolated rat pulmonary artery rings suspended on individual tensiometers. Five rats/ten pulmonary artery rings were studied for each agonist. Relaxation by β2-adrenergic receptor activation was most effective as complete ring relaxation was achieved at 10−6Misoproterenol with a median effective dose of 10−7M. A2, P2, and EP2-receptor activation all achieved complete ring relaxation at concentrations up to 10−3M.Relaxation by H2-receptor activation was least effective as 30% ring tension remained at a concentration of 10−3M.We conclude that these receptor-linked pathways, although all mediated through cAMP, have significant differences in potency and efficacy.