Scalable, enantioselective taxane total synthesis

Taxanes are a large family of terpenes comprising over 350 members, the most famous of which is Taxol (paclitaxel) — a billion-dollar anticancer drug. Here, we describe the first practical and scalable synthetic entry to these natural products via a concise preparation of (+)-taxa-4(5),11(12)-dien-2-one, which possesses a suitable functional handle to access more oxidised members of its family. This route enabled a gram-scale preparation of the ”parent” taxane, taxadiene, representing the largest quantity of this naturally occurring terpene ever isolated or prepared in pure form. The taxane family’s characteristic 6-8-6 tricyclic system containing a bridgehead alkene is forged via a vicinal difunctionalisation/Diels–Alder strategy. Asymmetry is introduced by means of an enantioselective conjugate addition that forms an all-carbon quaternary centre, from which all other stereocentres are fixed via substrate control. This study lays a critical foundation for a planned access to minimally oxidised taxane analogs and a scalable laboratory preparation of Taxol itself.