Alteration of the substrate specificity of mouse 2A P450s by the identity of residue-209: steroid-binding site and orientation

Abstract

Mouse steroid 7α- and 15α-hydroxylases (P450c7 and P450c15) and coumarin 7-hydroxylase (P450coh) are structurally similar. To study the structural basis of the substrate specificities of these enzymes, we constructed a series of the mutant P450s, expressed in COS-1 and yeast cells, and studied them spectroscopically as well as enzyme-kinetically. A single amino acid mutation of residue-209 is sufficient to alter the substrate specificity of the P450s from xenobiotics to steroids and subsequently, from testosterone to corticosterone. Moreover, residue-209, when it is asparagine, appears to bind directly to the 11β-hydroxyl of corticosterone. The mutations also after the spin equilibrium of P450 depending on the hydrophobicity and size of residue-209. We conclude, therefore, that residue-209 resides close to the 6th ligand of heme in the mouse 2A subfamily and is located at a critical site of the substrate-binding pocket. As a result, the identity of the residue-209 plays a key role in determining the substrate specificity.