Abstract
An enantioselective and diastereoselective approach toward the synthesis of the polycyclic norditerpenoid ineleganolide is disclosed. A palladium-catalyzed enantioselective allylic alkylation is employed to stereoselectively construct the requisite chiral tertiary ether and facilitate the synthesis of a 1,3-cis-cyclopentenediol building block. Careful substrate design enabled the convergent assembly of the ineleganolide [6,7,5,5]-tetracyclic scaffold by a diastereoselective cyclopropanation-Cope rearrangement cascade under unusually mild conditions. Computational evaluation of ground state energies of late-stage synthetic intermediates was used to guide synthetic development and aid in the investigation of the conformational rigidity of these highly constrained and compact polycyclic structures. This work represents the first successful synthesis of the core structure of any member of the polycyclic norcembranoid diterpene family of natural products. Advanced synthetic manipulations generated a series of natural product-like compounds that were shown to possess selective secretory antagonism of either interleukin-5 or interleukin-17. This bioactivity stands in contrast to the known antileukemic activity of ineleganolide and suggests the norcembranoid natural product core may serve as a useful scaffold for the development of diverse therapeutics.
Highlights
Target-directed synthesis provides an irreplaceable platform for the invention of approaches to the structures of interest, and to previously unknown complex molecules of potential biological importance
Exploring the retrosynthetic dissection of ineleganolide (1) with an eye toward the isomeric norcembranoids, the common 1,3cis-cyclopentanediol moiety became an attractive synthon for the development of a convergent and modi able synthetic strategy
Enone would be synthesized through selective ole n oxidation of cycloheptadiene
Summary
Target-directed synthesis provides an irreplaceable platform for the invention of approaches to the structures of interest, and to previously unknown complex molecules of potential biological importance. Cleavage of highly strained bridging cyclopropane ent-14 upon isomerization to the cycloheptadiene product ent-13 is associated with an increased enthalpic gain compared to a prototypical cyclopropane-fused Cope rearrangement that employs an isolated carbocycle.20 the unsubstituted vinyl group contributes minimal steric hindrance within the bis-endo con guration (cf ent-14, Scheme 4) and highly organized boat-like transition state required for the cis-divinylcyclopropane rearrangement to proceed.12a,21
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