Grapefruit juice enhances intestinal absorption of the P-glycoprotein substrate talinolol

Grapefruit juice (GFJ) is known to affect the pharmacokinetics of various drugs, presumably mainly via inhibition of oxidative metabolism. In order to evaluate the effect of GFJ on P-glycoprotein-related transport processes, measurements of transport characteristics through Caco-2 monolayers and in vivo drug absorption studies were performed with the transported, yet not metabolized model compound talinolol. Apical-to-basolateral talinolol transport in the Caco-2 model at 1 mM racemate concentration was increased almost 3-fold when GFJ was present (S-talinoloI P-eff: 0.16x10(-6) vs. 0.61x10(-6) cm/s without vs. with GFJ; R-talinolol P-eff: 0.19x10(-6) vs. 0.71x10(-6) cm/s without vs. with GFJ). In vivo in rats, doubled maximum plasma concentrations, enhanced AUC values (C-max of S-talinolol: control, 77.5 ng/ml vs. GFJ, 163.6 ng/ml; C-max of R-talinolol: control, 79.5 ng/ml vs. GFJ, 163.0 ng/ml; AUC of S-talinolol: control, 19.3 mug ml(-1) min vs. GFJ, 29.9 mug ml(-1) min; AUC of R-talinolol: control, 22.2 mug ml(-1) min vs. GFJ, 30.1 mug ml(-1) min), and decreased apparent oral clearances were found for both talinolol enantiomers when GFJ was administered together with a racemic 10 mg/kg b.w. p.o. dose. Furthermore, GFJ tended to accelerate the rate of talinolol input, but did not significantly affect terminal talinolol half-lives. It is concluded that inhibition of intestinal secretion may contribute to bioavailability enhancement upon GFJ intake. (C) 2001 Elsevier Science B.V. All rights reserved.