Asymmetric Total Synthesis of the Rearranged Steroid Phomarol Enabled by a Biomimetic S<sub>N</sub>2′ Cyclization
Xudong Wang, Ganlin Huang, Yun Wang, Jinghan Gui
Abstract
Phomarol is a structurally unusual 1(10 → 19) abeo -steroid with a pseudo-symmetrical cycloheptene-1,3-diol motif, an aromatic B ring, and a densely functionalized tetrahydropyran ring. Herein, we report a 13-step synthesis of this natural product from inexpensive sitolactone by means of a convergent fragment-coupling approach. Key transformations include a diastereoselective allylboration, a decarboxylative elimination, a Schönecker–Baran C–H hydroxylation, a biomimetic S N 2′ cyclization, and a late-stage 6π electrocyclization. Mechanistic studies indicate that the pivotal formation of the tetrahydropyran ring occurs via a silyl migration/intramolecular S N 2′ cyclization cascade rather than via an epoxide-opening process.