To evaluate the roles of MEOS (microsomal ethanol oxidizing system) and catalase in non-alcohol dehydrogenase (ADH) ethanol metabolism, MEOS and catalase activities in vitro and ethanol oxidation rates in hepatocytes from ADH-negative deermice were measured after treatment with catalase inhibitors and/or a stimulator of H2O2 generation. Inhibition of ethanol peroxidation by 3-amino-1,2,4-triazole (aminotriazole) was found to be greater than 85% up to 3 h and 80% at 6 h in liver homogenates. Urate (1 mM) which stimulates H2O2 production in living systems, increased ethanol oxidation fourfold in control but not in cells from aminotriazole-treated animals, documenting effective inhibition of catalase-mediated ethanol peroxidation by aminotriazole. While aminotriazole slightly depressed (15%) basal ethanol oxidation in hepatocytes, in vitro experiments showed a similar decrease in MEOS activity after aminotriazole pretreatment. Azide (0.1 mM), a potent inhibitor of catalase in vitro, also did not affect ethanol oxidation in control cells. By contrast, 1-butanol, a competitive inhibitor of MEOS, but neither a substrate nor an inhibitor of catalase, decreased ethanol oxidation rates in a dose-dependent manner. These results show that, in deermice lacking ADH, catalase plays little if any role in hepatic ethanol oxidation, and that MEOS mediates non-ADH metabolism.