ISOFORM SELECTIVITY AND KINETICS OF MORPHINE 3- AND 6-GLUCURONIDATION BY HUMAN UDP-GLUCURONOSYLTRANSFERASES: EVIDENCE FOR ATYPICAL GLUCURONIDATION KINETICS BY UGT2B7

Andrew N. Stone
Peter I. Mackenzie
Aleksandra Galetin
J. Brian Houston
John O. Miners

Department of Clinical Pharmacology, Flinders Medical Centre and Flinders University, Adelaide, Australia (A.N.S., P.I.M., J.O.M.); and School of Pharmacy and Pharmaceutical Sciences, University of Manchester, Manchester, United Kingdom (A.G., J.B.H.)

Morphine elimination involves UDP-glucuronosyltransferase (UGT)catalyzed conjugation with glucuronic acid to form morphine3- and 6-glucuronides (M3G and M6G, respectively). It has beenproposed that UGT2B7 is the major enzyme involved in thesereactions, but there is evidence to suggest that other isoformsalso catalyze morphine glucuronidation in man. Thus, we have characterized the selectivity and kinetics of M3G and M6G formationby recombinant human UGTs. UGT 1A1, 1A3, 1A6, 1A8, 1A9, 1A10,and 2B7 all catalyzed M3G formation, but only UGT2B7 formedM6G. The kinetics of M3G formation by the UGT1A family isoformswas consistent with a single enzyme Michaelis-Menten model,with apparent K_m values ranging from 2.6 to 37.4 mM. In contrast,M3G and M6G formation by UGT2B7 exhibited atypical kinetics.The atypical kinetics may be described by a model with high-and low-affinity K_m values (0.42 and 8.3 mM for M3G, and 0.97and 7.4 mM for M6G) from fitting to a biphasic Michaelis-Menten model. However, a multisite model with an interaction betweentwo identical binding sites in a negative cooperative mannerprovides a more realistic approach to modeling these data.According to this model, the respective binding affinities(K_s) for M3G and M6G were 1.76 and 1.41 mM, respectively. Thesedata suggest that M6G formation may be used as a selectiveprobe for UGT2B7 activity, and morphine glucuronidation by UGT2B7 appears to involve the simultaneous binding of two substratemolecules, highlighting the need for careful analysis of morphineglucuronidation kinetics in vitro.

Address correspondence to: Professor John O. Miners, Department of Clinical Pharmacology, Flinders Medical Centre, Bedford Park, SA 5042, Australia. E-mail: john.miners{at}flinders.edu.au

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