DIFFERENTIAL-EFFECTS OF MUTATIONS IN SUBSTRATE RECOGNITION SITE-1 OF CYTOCHROME-P450-2C2 ON LAURIC ACID AND PROGESTERONE HYDROXYLATION

Mutations at amino acid positions 107-120, which are part of a predict ed substrate recognition site [Gotoh, O. (1992) J. Biol. Chem. 267, 83 -90], were analyzed in C2MstC1, a chimera of P450 2C2 and P450 2C1. Th is hybrid protein has a new activity for progesterone C21-hydroxylatio n in addition to the lauric acid (omega-1)hydroxylase activity present in both parent proteins. Various substitutions for highly conserved g lycines at positions 111 and 117 and tryptophan at position 120 strong ly decreased the lauric acid hydroxylase activity of P450 2C2 and C2Ms tC1 and the progesterone hydroxylase activity of C2MstC1. Activities o f mutant proteins with substitutions at 107, 108, and 112-115 were als o strongly reduced. Modest or no decreases in activity were observed f or substitutions at 109, 110, 116, 118, and 119. Lauric acid hydroxyla se activity decreased more in most C2MstC1 mutants than in those of P4 50 2C2, particularly at positions 107 and 108. A substitution of pheny lalanine for valine-112 reduced progesterone hydroxylation by 30-fold while only moderately reducing lauric acid hydroxylase by 40%. This di fferential effect on two dissimilar substrates demonstrates the import ance of residue 112 for substrate interactions. The results are consis tent with a model in which residues 107-110 align with the B'-helix of the bacterial proteins P450cam and P450BM-3. This helix is followed b y a substrate-contacting loop from 111 to 116, and residues 117-120 al ign with the C-helices of the bacterial proteins. In this alignment, T rp-120 is positioned behind the heme such that it could participate in electron transfer from the reductase. A glycine followed by three or four hydrophobic amino acids, comparable to residues 111-114 of P450 2 C2, is conserved in all family 2 cytochromes P450 and in steroid and f atty acid hydroxylases of other families. This, therefore, may be a mo tif that mediates hydrophobic interactions with the substrate in many distantly related P450s.