Steven Wrighton

The cytochromes P450 are a superfamily of hemoproteins that catalyze the metabolism of a large number of xenobiotics and endobiotics. The type and amount (i.e., the animal's phenotype) of the P450s expressed by the animal, primarily in the liver, thus determine the metabolic response of the animal to a chemical challenge. A majority of the characterized P450s involved in hepatic drug metabolism have been identified in experimental animals. However, recently at least 12 human drug-metabolizing P450s have been characterized at the molecular and/or enzyme level. The characterization of these P450s has made it possible to "phenotype" microsomal samples with respect to their relative levels of the various P450s and their metabolic capabilities. The purpose of this review is to compare and contrast the human P450s involved in drug metabolism with their related forms in the rat and other experimental species.

We used monoclonal antibodies and complementary DNAs (cDNAs) to glucocorticoid-inducible liver cytochromes P-450 in rats (P-450p) and in man (HLp) to search for related cytochromes in intestinal mucosa. In rat enterocytes, we found two dexamethasone-inducible proteins related to the steroid-inducible liver cytochromes P-450. Induction of these proteins in enterocytes was associated with increases in the amount of a P-450p-related messenger RNA and of erythromycin demethylase, an activity highly characteristic of P-450p and HLp. Similar studies on human jejunal enterocytes revealed a microsomal protein indistinguishable from HLp on immunoblots and an abundance of RNA hybridizing with HLp cDNA. In human enterocytes the specific concentration of the HLp-related cytochrome (measured immunochemically or as erythromycin demethylase activity) was similar to that found in human liver and could account for all of the CO-binding hemo-protein detected. We conclude that the intestinal mucosa contains prominent form(s) of cytochromes P-450 similar to liver cytochrome P-450p in their structure, function, and some regulatory characteristics.