Stereoselective glucuronidation of ofloxacin in rat liver microsomes.

The stereoselective glucuronidation of ofloxacin [(+/-)-OFLX], a new quinolone antibacterial agent, was studied in vitro using rat liver microsomes. OFLX glucuronidation exhibited Michaelis-Menten kinetics in rat liver microsomes. Stereoselective glucuronidation of the optical enantiomers occurred. S-(-)-OFLX glucuronide was produced 7-fold more than R-(+)-OFLX glucuronide with little or no difference in the values of KM of the enantiomers. The value of Vmax/KM for the glucuronide conjugate of S-(-)-OFLX was 8-fold greater than for the conjugate of R-(+)-OFLX. These results demonstrate that OFLX undergoes stereoselective glucuronidation in vitro. Moreover, we studied the in vivo interaction between enantiomers of OFLX in rats to clarify the effects of R-(+)-OFLX on the metabolism and disposition of S-(-)-OFLX. When the racemate [(+/-)-OFLX (20 mg/kg)] or single enantiomer [S-(-)-OFLX (10 mg/kg)] is administered iv to the rat, the serum concentrations of S-(-)-OFLX were higher after racemate administration than those after enantiomer administration, although the dose of S-(-)-OFLX was identical in both cases. These results indicate that R-(+)-OFLX may compete with S-(-)-OFLX in the in vivo glucuronidation. Furthermore, the results of the enantiomeric inhibition study showed that R-(+)-OFLX competitively inhibited S-(-)-OFLX glucuronidation in vitro with a Ki value of 2.92 mM.