The effect of EDTA and iron on the oxidation of hydroxyl radical scavenging agents and ethanol by rat liver microsomes.

Rat liver microsomes catalyzed an NADPH-dependent oxidation of dimethylsulfoxide, 2-keto-4-thiomethylbutyrate and ethanol. The addition of EDTA and iron (ferric)-EDTA increased the oxidation of the hydroxyl radical scavenging agents and ethanol. Unchelated iron had no effect; therefore, appropriately chelated iron is required to stimulate microsomal production of hydroxyl radicals. Catalase strongly inhibited control rates as well as EDTA or iron-EDTA stimulated rates of hydroxyl radical production whereas superoxide dismutase had no effect. The rate of ethanol oxidation was ten- to twenty-fold greater than the rate of oxidation of hydroxyl radical scavengers in the absence of EDTA or iron-EDTA, suggesting little contribution by hydroxyl radicals in the pathway of ethanol oxidation. In the presence of EDTA or iron-EDTA, the rate of ethanol oxidation increased, and under these conditions, hydroxyl radicals appear to play a more significant role in contributing toward the overall oxidation of ethanol.