Glycerol was shown recently to be metabolized to formaldehyde by microsomes from chowfed control rats (Winters et al., Biochem Biophys Res Commun 153: 612-617, 1988). In the present study, experiments were carried out to evaluate the oxidation of glycerol by microsomes isolated from rats treated with inducers of different isozymes of cytochrome P-450. The oxidation of glycerol to formaldehyde was increased in microsomes from rats treated with pyrazole, ethanol or acetone relative to their respective controls, but not after treatment with phenobarbital or 3-methylcholanthrene. This reaction was sensitive to inhibition by carbon monoxide and was inhibited by compounds known to be effective substrates for P-450j, e.g. aniline, ethanol, pyrazole and 4-methylpyrazole. Treatment with pyrazole caused an increase in Vmax for glycerol oxidation but did not affect affect the Km (about 15 mM) for glycerol, as compared to saline controls. Evidence that the product of glycerol metabolism is formaldehyde was provided by the observation that this product served as a substrate for the glutathione-dependent formaldehyde dehydrogenase, and the amount of formaldehyde detected was identical to that detected by the Nash reaction. By utilizing [14C]glycerol, and coupling the formaldehyde dehydrogenase reaction to the formate dehydrogenase reaction, 14CO2 could be detected, indicating that the formaldehyde produced was derived from the added glycerol. These results suggest that that glycerol is not metabolically inert when added to microsomes but serves as an effective substrate for the cytochrome P-450j isozyme, extending the alcohol substrate specificity of this enzyme to poly-ols. The production of formaldehyde from glycerol may require caution since glycerol is often present in microsomal or reconstituted systems.