Relative contributions of CYP2C9 and 2C19 to phenytoin 4-hydroxylation in vitro: inhibition by sulfaphenazole, omeprazole, and ticlopidine

Objectives: To determine the relative contribution of cytochromes P-450 (CY P) 2C9 and 2C19 to the formation of 5-(-4-hydroxyphenyl)-5-phenylhydantion (HPPH) from phenytoin (PPH). Design: Hydroxylation of PPH to form HPPH was studied in vitro using human liver microsomes and microsomes from cDNA-transfected human lymphoblastoid cells. Results: Formation of HPPH from PPH in liver microsomes had a mean (+/-SEM) apparent Km [substrate concentration corresponding to 50% of maximal react ion velocity (V-max)] of 23.6 +/- 1.8 mu mol/l. Coincubation with the CYP2C 9 inhibitor, sulfaphenazole (SPA), at 5 mu mol/l reduced reaction velocity to less than 15% of control values. The mean inhibitor concentration at whi ch 50% inhibition is achieved (IC50 value) for SPA versus PPH hydroxylation (0.49 muM) was similar to the SPA IC50 versus flurbiprofen hydroxylation ( 0.46 muM) and tolbutamide hydroxylation (0.7-1.5 muM) In contrast, the CYP2 C19 inhibitor omeprazole (OME) at 10 mu mol/l produced only a small degree of inhibition. Incubation of PPH with microsomes from cDNA-transfected huma n lymphoblastoid cells containing CYP1A2, 2A6, 2B6, 2C8, 2D6, 2E1, or 3A4 y ielded no detectable formation of HPPH. Only CYP2C9 and 2C19 had PPH hydrox ylation activity, with apparent K-m values for the high-affinity component of 14.6 mu mol/l and 24.1 mu mol/l, respectively. Based on V-max values in liver microsomes, the V-max and K-m values in expressed CYPs and the relati ve abundance of the two isoforms in human liver, CYP2C9, and 2C19 were esti mated to have relative contributions of 99% and 10%, respectively, to net i ntrinsic clearance. Conclusions: Formation of HPPH from PPH is mediated exclusively by CYP2C9 a nd 2C19, with CYP2C9 playing the major role.