Penbutolol: beta-adrenoceptor interaction and the time course of plasma concentrations explain its prolonged duration of action in man.

Abstract

Beta-adrenoceptor binding of (-) penbutolol and its active metabolite 4-hydroxy-penbutolol to rat reticulocyte membranes was shown in the presence of native human plasma. Due to the high plasma protein binding (approximately 99%) the apparent Ki-values of penbutolol were shifted 100-fold to the right after inclusion of plasma in the assay; the Ki was approximately 40-70 ng/ml. That value is comparable to the IC50-values calculated from clinical studies. The interaction of 4-hydroxy-penbutolol with beta-adrenoceptors was not affected to the same extent by inclusion of plasma protein binding approximately 80%, apparent Ki-value approximately 7 ng/ml. Thus, the active metabolite of penbutolol displays higher potency at beta-adrenoceptors in vitro due to its lesser degree of plasma protein binding. A prediction procedure for antagonist activity after penbutolol administration using beta-adrenoceptor interaction and plasma concentration kinetics suggests that, in addition to a rapid elimination process from human plasma, a slow elimination phase of penbutolol (or an active metabolite) is necessary to explain the long duration of action observed in clinical studies after a single oral dose. Inhibition in vitro of beta-adrenoceptor binding by plasma samples obtained after oral administration of 40 mg penbutolol to 3 healthy volunteers indicated a biphasic concentration-time profile of the antagonist in plasma and was in accordance with the time course of the reported reduction in exercise tachycardia. Finally, plasma concentrations of penbutolol equivalents derived from the receptor assay were in the range of penbutolol concentrations detected by physico-chemical methods.(ABSTRACT TRUNCATED AT 250 WORDS)