Chemical and stereochemical aspects of propranolol metabolism. Diastereomeric 1-(1-hydroxy-2-propylamino)-3-(1-naphthoxy)-2-propanols produced by rat liver microsomal omega-hydroxylation

Abstract

A new metabolic pathway of terminal hydroxylation (omega-hydroxylation) of the N-isopropyl group of propranolol (1) was established. Selected ion-monitoring GC-MS analysis, based on use of the synthesized mixture of diastereoisomers of 1-(1-hydroxy-2-propylamino)-3-(1-naphthoxy)-2-propanol (2) as a standard, established formation of both diastereoisomers of 2 as metabolites of 1. These diastereoisomers were formed in unequal amounts when 1, its hexadeuterated analogue 8 or heptadeuterated analogue 9, were incubated in the presence of the rat liver microsomal fraction. Authentic (2R,2"S)-2, obtained from the amide formed from (2S)-3-(1-naphthoxy)-2-hydroxypropionic acid [(2S)-5] and (2S)-alaninol by diborane reduction, facilitated examination of stereochemical aspects of this process. From incubations of the enantiomers of 1 and pseudoracemic propranolol [equimolar (2R)-propranolol-3,3-d2 and (2S)-propranolol-d0] in the presence of the rat liver microsomal fraction, we established that the diastereomeric products were formed in the order (2S,2"S)-2 approximately equal to (2S,2"R)-2 greater than (2R,2"R)-2 greater than (2R,2"S)-2. (2S)-1, which was metabolized to 2 to a greater extent than (2R)-1, showed no stereoselectivity, affording about equal amounts of (2S,2"S)-2 and (2S,2"R)-2. (2R)-1, which was metabolized to 2 to a lesser extent, afforded considerably more (2R,2"R)-2 than (2R,2"S)-2. omega-Hydroxylation was a minor metabolic pathway in the microsomal incubation. About 2000X less 2 than 1-amino-3-(1-naphthoxy)-2-propanol (3), the product of N-dealkylation of 1, was formed.