Interindividual variability in the glucuronidation of (S) oxazepam contrasted with that of (R) oxazepam

Abstract

Although conjugation with glucuronic acid is a major process for converting many xenobiotics into hydrophilic, excretable metabolites, relatively little has been reported concerning interindividual variability of glucuronidation in human populations. Oxazepam, a therapeutically active metabolite of diazepam, is one of a number of C3-hydroxylated benzodiazepines for which glucuronide conjugation is the predominant pathway of biotransformation. The drug is normally formulated as a racemic mixture of inactive (R) and active (S) enantiomers. In the present study we have investigated the use of oxazepam as a potential probe drug for studying the variability of glucuronide conjugation, and for demonstrating the extent to which genetic factors may be responsible. In preliminary studies we determined oxazepam pharmacokinetics metabolite profiles after administration of racemic (R,S) oxazepam to eleven human volunteers. The (S) glucuronide was preferentially formed and excreted in nine of the eleven subjects. The ratios of (S) to (R) glucuronide metabolites (S/R ratios) were 3.87 ± 0.79 (mean ± SD) and 3.52 ± 0.60 in urine and plasma, respectively. However, both ratios were significantly lower in two subjects (p