MECHANISM OF DEFLUORINATION OF ENFLURANE - IDENTIFICATION OF AN ORGANIC METABOLITE IN RAT AND MAN

Abstract

Difluoromethoxydifluoroacetic acid (CHF2OCF2CO2H) was identified as a metabolite of enflurance (CHF2OCF2CHCIF) in rat liver microsomes in vitro and in human urine by gas chromatography-mass spectrometry. The formation of the metabolite in rat liver microsomes was dependent upon the presence of NADPH and O2, and was inhibited when SKF 525-A [proadifen hydrochloride] or CO/O2 (8:2 vol/vol) were present in the reaction mixture. When the C.sbd.H bonds of the CHCIF group of enflurane or the CHCI group of isoflurane (CHF2OCHCICF3) were replaced with C.sbd.CI bond, virtually no F ion was produced from either derivative in rat liver microsomes. Cytochrome P-450 catalyzes the oxidative dehalogenation of CHF2OCF2CHCIF at its CHCIF group to form CHF2OCF2CO2H and Cl and F ions. The CHF2 group does not appear to be appreciably susceptible to metabolic oxidative dehalogenation. These results can be used for the more rational design of new inhalation anesthetics that would not be appreciably metabolized to the potential kidney toxin, F-.