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Progress toward the total synthesis of stemocurtisine and asymmetric synthesis of endoperoxide anticancer agents via Brønsted acid cascade catalysis

Date

2012

Authors

Rubush, David Michael, author
Rovis, Tomislav, advisor
Kennan, Alan, committee member
Crans, Debbie, committee member
Chen, Eugene, committee member
Kanatous, Shane, committee member

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Abstract

A viable route toward the pyrido-azepine core of stemocurtisine involving an N-heterocyclic carbene catalyzed Stetter reaction has been realized. The key steps involve a formal [3+2] cycloaddition of enones with isocyanoacetates and a catalytic asymmetric intramolecular Stetter reaction. Additionally, a diastereoselective intramolecular Stetter reaction was achieved to access highly substituted pyrrolidines. Asymmetric Brønsted acid catalyzed cascade reactions were also investigated. A diastereoselective acetalization/oxa-Micahel cascade has been developed to provide dioxolanes and oxazolidines using diphenylphosphinic acid as a catalyst. The enantioselective variant of this reaction was explored with minor success. The desymmetrization of p-peroxyquinols using a Brønsted acid catalyzed acetalization/oxa-Michael cascade was achieved in high yields and selectivities for a variety of aliphatic and aryl aldehydes. Mechanistic studies suggest that the reaction proceeds through a dynamic kinetic resolution of the peroxy-hemiacetal intermediate. The resulting 1,2,4-trioxane products were derivatized and show potent cytotoxicity toward specific cancer cells.

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