Catalytic Asymmetric Reductive Michael Cyclization - Journal of the

A highly efficient and chemo-, regio-, diastereo-, and enantioselective organocatalytic tandem conjugate reduction−Michael cyclization of enal enone...
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Published on Web 10/06/2005

Catalytic Asymmetric Reductive Michael Cyclization Jung Woon Yang, Maria T. Hechavarria Fonseca, and Benjamin List* Max-Planck-Institut fu¨r Kohlenforschung, D-45470 Mu¨lheim an der Ruhr, Germany Received August 22, 2005; E-mail: [email protected]

Asymmetric catalysis of carbonyl transformations using amines or ammonium salts as catalysts has recently gained considerable attention.1 While enamine catalysis has been used mostly in the context of carbonyl R-substitution reactions,2 iminium catalysis is typically employed in conjugate and cycloadditions of enals.3 The two strategies are closely related, and the same catalysts can often be utilized in both approaches. In fact, enamine catalysis generally proceeds via iminium ion formation, while iminium catalysis often leads to an enamine intermediate. Combining the two catalysis principles in tandem sequences using a single catalyst is obviously attractive but has rarely been realized. Here we disclose an efficient asymmetric in situ iminium catalytic conjugate reduction followed by an enamine catalytic intramolecular Michael reaction. Our process gives five- and six-membered carbacycles in excellent yields and enantioselectivities. We have previously developed an organocatalytic, metal-free asymmetric transfer hydrogenation of R,β-unsaturated aldehydes.4 In this reaction, an enal (1) is activated with a MacMillan imidazolidinium salt (2) via iminium ion formation (3). A subsequent hydride transfer to intermediate 3 from Hantzsch ester 4a presumably gives enamine intermediate 5. In situ hydrolysis then provides saturated aldehyde 6, usually in high yields and enantioselectivities (eq 1). We reasoned that the reductively generated enamine intermediate 5, in addition to hydrolysis, should also be able to react in situ with various electrophiles (X ) Y) to give an R-modified aldehyde 7. To the best of our knowledge, such a combination of iminium and enamine catalysis has not been realized before.

The tandem sequence would be related to previously developed metal-mediated reductive enolate generation-electrophile trapping processes.5 For example, catalytic inter- and intramolecular reductive aldol and Michael reactions of unsaturated carbonyl compounds via metal enolates have been developed.6 While asymmetric 15036

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J. AM. CHEM. SOC. 2005, 127, 15036-15037

Table 1. Catalyst Screening for the Reductive Michael Cyclization

catalyst

R1

R2

R3

X

time [h]

yield [%]

ee [%]

9a 9b 9c 9d 9e 9f 9g

H H H Bn p-BnOBn p-t-BuOBn Bn

t-Bu t-Bu 2,6-Ph2Ph t-Bu t-Bu t-Bu Me

H H H H H H Me

CF3CO2 Cl Cl Cl Cl Cl Cl

2 12 12 3 6 6 24

82 90 75 98 91 90