Litcius/Paper detail

General Synthetic Approach to Diverse Taxane Cores

Melecio A. Perea, Brian Wang, Benjamin C. Wyler, Jin Su Ham, Nicholas R. O’Connor, Shota Nagasawa, Yuto Kimura, Carolin Manske, Maximilian Scherübl, Johny M. Nguyen, Richmond Sarpong

2022Journal of the American Chemical Society25 citationsDOIOpen Access PDF

Abstract

Chemical synthesis of natural products is typically inspired by the structure and function of a target molecule. When both factors are of interest, such as in the case of taxane diterpenoids, a synthesis can both serve as a platform for synthetic strategy development and enable new biological exploration. Guided by this paradigm, we present here a unified enantiospecific approach to diverse taxane cores from the feedstock monoterpenoid (S)-carvone. Key to the success of our approach was the use of a skeletal remodeling strategy which began with the divergent reorganization and convergent coupling of two carvone-derived fragments, facilitated by Pd-catalyzed C–C bond cleavage tactics. This coupling was followed by additional restructuring using a Sm(II)-mediated rearrangement and a bioinspired, visible-light induced, transannular [2 + 2] photocycloaddition. Overall, this divergent monoterpenoid remodeling/convergent fragment coupling approach to complex diterpenoid synthesis provides access to structurally disparate taxane cores which have set the stage for the preparation of a wide range of taxanes.

Topics & Concepts

ChemistryTaxaneConvergent synthesisStereochemistryBreast cancerCancerMedicineInternal medicineCancer Treatment and PharmacologySynthetic Organic Chemistry MethodsOxidative Organic Chemistry Reactions