A Modular Chemoenzymatic Approach to C14-Functionalized Steroids

Abstract

AbstractC14-functionalized steroids belong to a unique class of steroids with important biological activities. However, the lack of efficient methods to access C14-functionalized steroids impede related steroidal drug discovery. Herein we report a modular chemoenzymatic approach to access diversified C14-functionalized steroids. We first identified a novel C14α-hydroxylase (CYP14A) from Cochliobolus lunatus with high catalytic efficiency and substrate promiscuity. Protein engineering of CYP14A generated three variants I111A, M115K and V124A that greatly improved the C14-hydroxy regioselectivity. Based on this efficient biocatalytic method, a range of C14α-OH steroids with C17 side chain were prepared in good yields, which was then transformed into Δ14 olefins through a facile elimination. The newly formed Δ14 olefin served as a versatile handle to install diversified functional groups (e.g. epoxide, β-OH, F, Cl and N3) at C14 position through hydrofunctionalization. Furthermore, the synthetic utility of this powerful chemoenzymatic methodology was demonstrated by performing a 7-step semisynthesis of periplogenin and the diversity-oriented synthesis of cardenolide (+)-digitoxigenin and its three diastereomers in a concise manner.