Molecular modeling and identification of substrate binding site of orphan human cytochrome P450 4F22

Cytochrome P450s are superfamily of heme proteins which generally monooxygenate hydrophobic compounds. The human cytochrome P450 4F22 (CYP4F22) was categorized into “orphan” CYPs because of its unknown function. CYP4F22 is a potential drug target for cancer therapy. However, three-dimensional structure, the active site topology and substrate specificity of CYP4F22 remain unclear. In this study, a three-dimensional model of human P450 4F22 was constructed by comparative modeling using Modeller 9v5. The resulting model was refined by energy minimization subjected to the quality assessment from both geometric and energetic aspects and was found to be of reasonable quality. Docking approach was employed to dock arachidonic acid into the active site of CYP4F22 in order to probe the ligand-binding modes. As a result, several key residues were identified to be responsible for the binding of arachidonic acid with CYP4F22. These findings provide useful information for understanding the biological roles of CYP4F22 and structure-based drug design.