Catalysis-Enabled Concise and Stereoselective Total Synthesis of the Tricyclic Prostaglandin D₂ Metabolite Methyl Ester

Abstract

A concise and stereoselective total synthesis of the clinically relevant tricyclic prostaglandin D₂ metabolite (tricyclic-PGDM) methyl ester in racemic form was accomplished in eight steps from a readily available known cyclopentene-diol derivative. The synthesis features a nickel-catalyzed Ueno–Stork-type dicarbofunctionalization to generate two consecutive stereocenters, a palladium-catalyzed carbonylative spirolactonization to build the core oxaspirolactone, and a Z-selective cross-metathesis to introduce the (Z)-3-butenoate side chain, a group challenging to introduce through traditional Wittig protocols and troublesome for the two previous total syntheses. A general Z-selective cross-metathesis protocol to construct (Z)-β,γ-unsaturated esters was also developed that has broad functional group tolerance and high stereoselectivity. Additionally, our synthesis already accumulated 75 mg of valuable material for an ¹⁸O-tricyclic-PGDM-based assay used in clinical settings for inflammation.

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