Total Synthesis of Microtubule-Stabilizing Agent (−)-Laulimalide1

Abstract

An enantioselective first total synthesis of laulimalide (1) is described. Laulimalide, a remarkably potent antitumor macrolide, has been isolated from the Indonesian sponge Hyattella sp. and the Okinawan sponge Fasciospongia rimosa. Laulimalide represents a new class of antitumor agents with significant clinical potential. The synthesis is convergent and involved the assembly of C₃−C₁₆ segment 4 and C₁₇−C₂₈ segment 5 by Julia olefination. The sensitive C₂−C₃cis-olefin functionality was installed by Yamaguchi macrolactonization of a hydroxy alkynic acid followed by hydrogenation of the resulting alkynoic lactone over Lindlar's catalyst. Initial attempts of intramolecular Still's variant of Horner−Emmons olefination between the C₁₉-phosphonocetate and C₃-aldehyde provided a 1:2 mixture of cis- and trans-macrolactones. The trans-isomer was photoisomerized to a mixture of cis- and trans-isomers. The other key steps involved ring-closing olefin metathesis to construct both dihydropyran units, stereoselective anomeric alkylation to functionalize the dihydropyran ring, stereoselective reduction of the resulting alkynyl ketone to set the C₂₀-hydroxyl stereochemistry, and a novel Julia olefination protocol for the installation of the C₁₃-exo-methylene unit. The sensitive epoxide at C₁₆−C₁₇ was introduced in a highly stereoselective manner by Sharpless epoxidation at the final stage of the synthesis.