Quantitative changes in cytochrome P450 (CYP) proteins involved in drug metabolism as a consequence of drug treatment are important parameters in predicting the fates and pharmacological consequences of xenobiotics and drugs. In this study we undertook comparative P450 proteomics using liver from control and 1,4-bis-2-(3,5-dichloropyridyloxybenzene) (TCPOBOP)-dosed mice. The method involved separation of microsomal proteins by SDS-PAGE, trypsin digestion, and postdigest 18 O/ 16 O labeling followed by nano-LC-MS/MS for peptide identification and LC-MS for relative quantification. Seventeen P450 proteins were identified from mouse liver of which 16 yielded data sufficient for relative quantification. All the P450s detected were unambiguously identified except the highly homologous CYP2A4/2A5. With the exception of CYP2A12, -2D10, and -2F2, the levels of all the P450s quantified were affected by treatment with TCPOBOP (3 mg/kg). CYP1A2, -2A4/5, -2B10, -2B20, -2C29, -2C37, -2C38, -3A11, and -39A1 were up-regulated, and CYP2C40, -2E1, -3A41, and -27A1 down-regulated. The response of CYP2B20 to stimulation has not been distinguished previously from that of CYP2B10 because of the poor discrimination between these two proteins (they share 87% sequence identity). Differential response to chemical stimulation by closely related members of the CYP2C subfamily was also observed. Molecular & Cellular Proteomics 6:953-962, 2007.The cytochromes P450 (P450s or CYPs 1 ) are a superfamily of mixed function oxidases, members of which are present in virtually all living organisms. P450s are characterized into families and subfamilies by their sequence similarities. Currently there are over 360 families and more than 3100 sequenced and named enzymes; these numbers are continuing to increase. In human there are 57 putatively functional P450 genes, whereas in mouse there are 102 such genes.2 P450s are thought to have evolved, in part, as a protective adaptive response against the toxic effects of environmental chemicals (1). They are the most important drug-metabolizing enzymes in mammals and in humans are responsible for the phase I metabolism of 70 -80% of all clinically used drugs (2). In addition to their detoxification role, P450s can also be responsible for the conversion of chemical toxins and procarcinogens to their toxic or carcinogenic forms (3). The ability of P450s to activate chemical toxins has been exploited in cancer chemotherapy where several anticancer drugs, including cyclophosphamide, ifosfamide, dacarbazine, and AQ4N are known to be metabolically activated by P450 isoforms to their respective cytotoxic species (4). A method that would enable not only the non-selective identification of the P450 enzymes present in diseased tissue but also the quantification of expression levels relative to that of surrounding normal tissue would provide invaluable information regarding the metabolic fate of the selected drugs and hence the outcome of therapy.Traditional approaches to the analysis of P450 enzymes rely on immunoblot...
