Catecholamine Binding to Plasma Membrane Enriched Fractions of Heart and Skeletal Muscle

Abstract

Binding of [³H]epinephrine to plasma membrane enriched fractions from guinea pig heart and rabbit skeletal muscle was investigated using the micropore filtration technique. [³H]Epinephrine and [³H]norepinephrine were found to be degraded rapidly in aqueous buffer at pH 7.6 and 37 °C. Deterioration of the compounds could be prevented by low concentrations of dithiothreitol. Binding of [³H]epinephrine to both membrane preparations was a slow process requiring 60 min to approach equilibrium in the case of cardiac membranes at 37 °C, and 20 min for skeletal muscle membranes at 0 °C. Binding was antagonized by the unlabeled beta-agonists, isopropyl-norepinephrine, epinephrine, and norepinephrine but all were equipotent. A variety of catechol compounds were as effective antagonists of binding as the catecholamines. The beta-adrenergic antagonists propranolol, pronethalol, and dichloroisoproterenol were not effective in inhibiting binding to either membrane preparation. D-Norepinephrine and L-norepinephrine were equieffective in antagonizing binding of [³H]norepinephrine to skeletal muscle membranes. It was concluded that binding of labeled catecholamine to isolated tissue membranes using the micropore filtration technique does not represent interaction with the specific beta-adrenergic receptor, but more likely reflects a less specific binding of compounds having one or more hydroxyl groups on a ring.