Hébert Martin, Bellavance Gabriel, Barriault Louis
X-CHEM, 7171 rue Frederick Banting, Saint-Laurent H4S1Z9, Quebec, Canada.
Environment and Climate Change Canada, Place Vincent Massey, 351 Boulevard Saint-Joseph, Gatineau J8Y 3Z4, Quebec, Canada.
J Org Chem. 2025 Jul 4;90(26):9147-9159. doi: 10.1021/acs.joc.5c01012. Epub 2025 Jun 25.
Ginkgolides are highly oxygenated diterpenes isolated from that exhibit potent anti-inflammatory and neuroprotective properties. Their compact hexacyclic architecture─featuring multiple contiguous stereocenters, a spirocyclic core, and a rare -butyl group─presents a formidable challenge in synthetic organic chemistry. Herein, we report the first total synthesis of ginkgolide C (), the most structurally complex member of this family, completed in 26 steps from commercially available materials. The synthesis is guided by a functional group-driven strategy that enables the convergent construction of the polycyclic core through key diastereoselective carbon-carbon bond formations, selective oxidations, and late-stage epoxide-opening lactonizations. In parallel, the formal syntheses of ginkgolides A () and B () were accomplished via interception of a late-stage intermediate in 17 steps, the shortest route to these targets reported to date. This work provides a unified synthetic platform for accessing the ginkgolide family and offers new opportunities for the synthesis and biological evaluation of related analogues.
银杏内酯是从银杏中分离出的高度氧化的二萜类化合物,具有强大的抗炎和神经保护特性。它们紧凑的六环结构——具有多个连续的立体中心、一个螺环核心和一个罕见的叔丁基——在有机合成化学中构成了巨大挑战。在此,我们报道了银杏内酯C()的首次全合成,它是该家族中结构最复杂的成员,以市售原料经26步完成。该合成由官能团驱动策略指导,通过关键的非对映选择性碳-碳键形成、选择性氧化和后期环氧化合物开环内酯化反应,实现了多环核心的汇聚式构建。同时,银杏内酯A()和B()的形式合成通过截获一个后期中间体在17步内完成,这是迄今为止报道的通向这些目标的最短路线。这项工作为获取银杏内酯家族提供了一个统一的合成平台,并为相关类似物的合成和生物学评估提供了新的机会。
