Porcine microsomes are able to hydroxylate chlorzoxazone and p-nitrophenol, the most commonly used human test substrates for CYP2E1. However, in pigs, CYP2E appears not to be the only enzyme involved in the hydroxylation of chlorzoxazone and p-nitrophenol, as the enzyme capacity and immunochemical level of the apoprotein do not correlate. The present study shows that the hydroxylation of chlorzoxazone and p-nitrophenol is inhibited 50-65% by anti-human CYP2A6, suggesting that these substrates are metabolized almost equally well by CYP2A and CYP2E in pigs. To find an alternative probe to porcine CYP2E, bupropion, another human substrate, was examined. Incubation with bupropion concentrations ranging from 0.05 to 20 mM and with various inhibitors revealed that this substrate is metabolized by both CYP2A and CYP2E. At the high substrate concentration (5 mM), however, the CYP2A6 inhibition decreased compared to inhibition percentages found using the low substrate concentration (0.5 mM). The opposite was found for CYP2E, as inhibition studies with antibodies and diethyldithiocarbamate indicate that it catalysed a negligible part of the reaction at the low substrate concentration and up to 84% at the high concentration. Thus, hydroxylation of bupropion follows the same pattern in pigs as in human beings and the activity measured in pigs is comparable with the human counterpart. Furthermore, bupropion is a more specific substrate for CYP2E than chlorzoxazone and p-nitrophenol although not perfect.