β-adrenergic receptors: Stereospecificity and lack of affinity for catechols

Abstract

Listen

Translate article

Studies of adenylate cyclase activity in rat liver, heart and fat cell microsomal preparations and in turkey and rat erythrocyte ghosts indicate that β-adrenergic receptors exhibit very strict stereospecificity for (−)-catecholamines. (+)-Isomers of active catecholamines and inactive catechol compounds do not inhibit the β-adrenergic-mediated stimulation of adenylate cyclase and thus do not interact with specific receptors. However, very high concentrations (above 10 −4 M) of (−)- and (+)-isomers, as well as of biologically inactive non-catecholamine catechols (e.g., pyrocatechol, dihydroxymandelic acid), inhibit in a nonspecific manner the basal, hormone (catecholamine, glucagon)- and NaF-stimulated adenylate cyclase activity. Studies with propranolol suggest that the low activity (0.1 to 1%) of (+)-isomers of norepinephrine can be explained by contamination with the (−)-isomer. The activity of soterenol, a potent non-catechol β-adrenergic agonist, is uninfluenced by (+)-catecholamines or catechols. It is concluded that the binding of 3H-labeled catecholamines to a variety of cells, microsomes and membranes as described in various previous studies cannot represent specific receptor interactions. Binding to receptors must demonstrate strict stereospecificity and must not be affected by unrelated catechol substances.