Identification of Key Residues in Rabbit Liver Microsomal Cytochrome P450 2B4: Importance in Interactions with NADPH-Cytochrome P450 Reductase

A cytochrome P450 2B4 (CYP2B4) model was used to select key residues supposed to serve in interactions with NADPH-cytochrome P450 reductase (P450R). Eight amino acid residues located on the surface of the hemoprotein were chosen for mutagenesis experiments with CYP2B4(δ2-27) lacking the NH2-terminal signal anchor sequence. The mutated proteins were expressed in Escherichia coli, purified, and characterized by EPR- and CD-spectral analysis. Replacement of histidine 226 with alanine caused a 3.8-fold fall in the affinity for P450R with undisturbed reductive capacity of the system. Similarly, the K225A, R232A, and R253A variants exhibited P450R-directed activity that was depressed to about half that of the control enzyme, suggesting that the deletion of positive charges on the surface of CYP2B4(δ2-27) resulted in impaired electrostatic contacts with complementary amino acids on the P450R protein. While the Y235A mutant did not show appreciably perturbed reduction activity, the conservative substitution with alanine of the phenylalanine residues at positions 223 and 227 gave a 2.1- to 6.1-fold increase in the Km values with unchanged Vmax, this was attributed to the disruption of hydrophobic forces rather than to global structural rearrangement(s) of the engineered pigments. Measurement of the stoichiometry of aerobic NADPH consumption and H2O2 formation revealed the oxyferrous forms of the F223A, H226A, and F227A mutants to autoxidize more readily owing to less efficient coupling of the systems. Noteworthy, the F244A enzyme did not exhibit significant reduction activity, suggesting a pivotal role of Phe-244 in the functional coupling of P450R. The residue was predicted to constitute part of an obligatory electron transfer conduit through π-stacking with Phe-296 located close to the heme unit. All of the residues examined reside in the putative G helix of CYP2B4, so that this domain obviously defines part of the binding site for P450R.