Cytochrome P450 2E1 metabolically activates propargyl alcohol: propiolaldehyde-induced hepatocyte cytotoxicity.

Pargyline, an antihypertensive agent and monoamine oxidase inhibitor, induces hepatic GSH depletion and hepatotoxicity in vivo in rats [E.G. De Master, H.W. Sumner, E. Kaplan, F. N. Shirota, H.T. Nagasawa, Toxicol. Appl. Pharmacol. 65 (1982) 390-401]. Propargyl alcohol (2-propyn-1-ol), because of its structural similarity to allyl alcohol, was thought to be activated by alcohol dehydrogenase. However, it is a poor substrate compared to allyl alcohol and it was therefore proposed that propargyl alcohol-induced liver injury involved metabolic activation by catalase/H(2)O(2) [E.G. De Master, T. Dahlseid, B. Redfern, Chem. Res. Toxicol. 7 (1994) 414-419]. In the following we showed that; (1) propargyl alcohol-induced cytotoxicity was markedly enhanced in CYP 2E1-induced hepatocytes and prevented by various CYP 2E1 inhibitors but was only slightly affected when alcohol dehydrogenase was inhibited with methylpyrazole/DMSO or when catalase was inactivated with azide or aminotriazole, (2) hepatocyte GSH depletion preceded cytotoxicity and was inhibited by cytochrome P450 inhibitors but not by catalase/alcohol dehydrogenase inhibitors. GSH conjugate formation during propargyl alcohol metabolism by microsomal mixed function oxidase in the presence of GSH was also prevented by anti-rat CYP 2E1 or CYP 2E1 inhibitors, (3) cytotoxicity was prevented when lipid peroxidation was inhibited with antioxidants, desferoxamine (ferric chelator) or dithiothreitol. Propargyl alcohol-induced cytotoxicity and reactive oxygen species formation were markedly increased in GSH-depleted hepatocytes. All of this evidence suggests that propargyl alcohol-induced cytotoxicity involves metabolic activation by CYP 2E1 to form propiolaldehyde that causes hepatocyte lysis as a result of GSH depletion and lipid peroxidation.