Organocatalyst-mediated five-pot synthesis of (-)-quinine.

In this work, the enantioselective total synthesis of (-)-quinine has been accomplished in a pot-economical manner using five reaction vessels. In the first pot, reactions involve the diphenylprolinol silyl ether-mediated Michael reaction, aza-Henry reaction, hemiaminalization, and elimination of HNO2 (five reactions), affording a chiral tetrahydropyridine with excellent enantioselectivity. In the second pot, five reactions proceed with excellent diastereoselectivity to afford a trisubstituted piperidine with the desired stereochemistry. A further five reactions are carried out in the last one-pot sequence.

Evidence for an enolate mechanism in the asymmetric Michael reaction of α,ß-unsaturated aldehydes and ketones via a hybrid system of two secondary amine catalysts.

The key nucleophile was found to be neither an enamine nor an enol, but an enolate in the direct Michael reaction of α,ß-unsaturated aldehydes and non-activated ketones catalyzed by two amine catalysts namely diphenylprolinol silyl ether and pyrrolidine. This is a rare example of an enolate from a ketone serving as a key intermediate in the asymmetric organocatalytic reaction involving secondary amine catalysts because the ketone enolates are generally generated using a strong base, and the enamine is a common nucleophile in this type of reaction.