Interactions of galeterone and its 3-keto-Δ4 metabolite (D4G) with one of the key enzymes of corticosteroid biosynthesis - steroid 21-monooxygenase (CYP21A2).

Abstract

We have investigated interactions of galeterone and its pharmacologically active metabolite - 3-keto-Δ4-galeterone (D4G) - with one of the key enzymes of corticosteroid biosynthesis - steroid 21-monooxygenase (CYP21A2). It was shown by absorption spectroscopy that both compounds induce type I spectral changes of CYP21A2. Spectral dissociation constants (KS ) of complexes of CYP21A2 with galeterone or D4G were calculated as 3.1±0.7μm and 4.6±0.4μm, respectively. It was predicted by molecular docking that both ligands similarly bind to the active site of CYP21A2. We have revealed using reconstituted monooxygenase system that galeterone is a competitive inhibitor of CYP21A2 with the inhibition constant (Ki ) value of 12±3μm, while D4G at the concentrations of 10 and 25μm does not inhibit the enzyme. Summarizing, based on the in vitro analyses we detected inhibition of CYP21A2 by galeterone and lack of the influence of D4G on this enzyme.