TY - JOUR
T1 - Anaerobic release of fluoride from halothane. Relationship to the binding of halothane metabolites to hepatic cellular constituents
AU - Van Dyke, R. A.
AU - Gandolfi, A. J.
PY - 1976
Y1 - 1976
N2 - Halothane has been found to undergo a reductive defluorination. This reaction requires an active cytochrome P 450 system and NADPH, and is inducible by phenobarbital and polychlorinated biphenyls but not by methylcholanthrene. The fluoride release occurs only under low O2 tension, while high O2 tension results in the oxidation of halothane to trifluoroacetic acid, inorganic bromide, and chloride. The release of the inorganic fluoride is linear up to 60 min. Because the conditions required for fluoride release and the binding of a halothane metabolite to microsomal phospholipids are similar, the defluorinated halothane molecule is assumed to be involved with this binding. However, based on the amount of fluoride released, the defluorinated halothane metabolite represents only approximately 60% of the total amount of halothane metabolite bound, which suggests that more than one metabolite may be involved in the binding.
AB - Halothane has been found to undergo a reductive defluorination. This reaction requires an active cytochrome P 450 system and NADPH, and is inducible by phenobarbital and polychlorinated biphenyls but not by methylcholanthrene. The fluoride release occurs only under low O2 tension, while high O2 tension results in the oxidation of halothane to trifluoroacetic acid, inorganic bromide, and chloride. The release of the inorganic fluoride is linear up to 60 min. Because the conditions required for fluoride release and the binding of a halothane metabolite to microsomal phospholipids are similar, the defluorinated halothane molecule is assumed to be involved with this binding. However, based on the amount of fluoride released, the defluorinated halothane metabolite represents only approximately 60% of the total amount of halothane metabolite bound, which suggests that more than one metabolite may be involved in the binding.
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M3 - Article
C2 - 3400
AN - SCOPUS:0017262966
SN - 0090-9556
VL - 4
SP - 40
EP - 44
JO - Drug Metabolism and Disposition
JF - Drug Metabolism and Disposition
IS - 1
ER -