Iminium catalysts conjugate addition

In a collection of insightful pieces of work Enders has incorporated an iminium ion conjugate addition of nitroalkanes to a,P-unsaturated aldehydes into a triple cascade reaction generating up to four contiguous stereocentres in one pot, again indicative of the complexity attainable from superficially simple catalysts and techniques [175-177] (Scheme 46). 

In 1937, Langenbeck reported the first iminium catalyzed conjugated addition. N-Methylglycine and piperidinium acetate were found to be good catalysts for the conjugate addition of water to crotonaldehyde [6]. 

The majority of the Michael-type conjugate additions are promoted by amine-based catalysts and proceed via an enamine or iminium intermediate species. Subsequently, Jprgensen et al. [43] explored the aza-Michael addition of hydra-zones to cyclic enones catalyzed by Cinchona alkaloids. Although the reaction proceeds under pyrrolidine catalysis via iminium activation of the enone, and also with NEtj via hydrazone activation, both methods do not confer enantioselectivity to the reaction. Under a Cinchona alkaloid screen, quinine 3 was identified as an effective aza-Michael catalyst to give 92% yield and 1 3.5 er (Scheme 4). 

In a series of reports between 1991 and 1997 Yamaguchi showed that rubidium salts of L-proline (9) catalysed the conjugate addition of both nitroalkanes [29, 30] andmalonates [31-33] to prochiral a,p-unsaturated carbonyl compounds in up to 88% ee (Scheme 1). Rationalisation of the selectivities observed involved initial formation of an iminium ion between the secondary amine of the catalyst and the a,p-unsaturated carbonyl substrate. Subsequent deprotonation of the nucleophile by the carboxylate and selective delivery using ion pair... 

Formation of C-C bonds remains the ultimate challenge to the synthetic chemist. The employment of new synthetic methods in complex target synthesis can be frustrated by a lack of functional group tolerance and substrate specificity. These problems can be somewhat alleviated within conjugate addition reactions by the use of secondary amine catalysts where a number of important and highly selective methods have been developed. Two principle classes of nucleophile have been shown to be effective in the iminium ion activated conjugate addition of carbon nucleophiles to a,P-unsaturated carbonyl systems aryl, heteroaromatic and vinyl... 

As previously noted (Scheme 1), prior to the explosion of interest in iminium ion catalysis as a platform for the activation of a,P-unsaturated carbonyl compounds in 2000, Yamaguchi [29-33] and Taguchi [34] showed that proline derived bi-func-tional catalysts could provide an effective platform for the ion-pair controlled conjugate addition of malonates and nitroalkanes to a, 3-unsaturated ketones with good levels of stereocontrol. 

Pyrrolidin-2-yltetrazole has been found to be a versatile organocatalyst for the asymmetric conjugate addition of nitroalkanes to enones.45 Using this catalyst, this transformation requires short reaction times, tolerates a broad substrate scope, and possibly proceeds via generation of an iminium species. 

When the donor and the acceptor of the conjugate addition are carbonyl compounds, the amine catalyst may activate both reagents, forming the iminium and enamine intermediates, respectively. The major mechanistic path is dictated by the structure of the substrates and catalyst and, to a lesser extent, by the reaction conditions. 

As indicated from computational studies, the catalyst-activated iminium ion MM3-2 was expected to form with only the (E)-conformation to avoid nonbonding interactions between the substrate double bond and the gem-dimethyl substituents on the catalyst framework. In addition, the benzyl group of the imidazolidinone moiety should effectively shield the iminium-ion Si-face, leaving the Re-face exposed for enantioselective bond formation. The efficiency of chiral amine 1 in iminium catalysis was demonstrated by its successful application in several transformations such as enantioselective Diels-Alder reactions [6], nitrone additions [12], and Friedel-Crafts alkylations of pyrrole nucleophiles [13]. However, diminished reactivity was observed when indole and furan heteroaromatics where used for similar conjugate additions, causing the MacMillan group to embark upon studies to identify a more reactive and versatile amine catalyst. This led ultimately to the discovery of the second-generation imidazolidinone catalyst 3 (Fig. 3.1, bottom) [14],... 

This catalytic cascade was first realized using propanal, nitrostyrene and cinnamaldehyde in the presence of catalytic amounts of (9TMS-protected diphenylprolinol ((.S )-71,20 mol%), which is capable of catalyzing each step of this triple cascade. In the first step, the catalyst (S)-71 activates component A by enamine formation, which then selectively adds to the nitroalkene B in a Michael-type reaction (Hayashi et al. 2005). The following hydrolysis liberates the catalyst, which is now able to form the iminium ion of the a, 3-unsaturated aldehyde C to accomplish in the second step the conjugate addition of the nitroalkane (Prieto et al. 2005). In the subsequent third step, a further enamine reactivity of the proposed intermediate leads to an intramolecular aldol condensation. Hydrolysis returns the catalyst for further cycles and releases the desired tetrasubstituted cyclohexene carbaldehyde 72 (Fig. 8) (Enders and Hiittl 2006). 

The process mechanism as shown in Figure 2.23 consists of an initial activation of the aldehyde (66) by the catalyst [(5)-67] with the formation of the corresponding chiral enamine, which then, selectively, adds to nitroalkene (65) in a Michael-type reaction. The following hydrolysis liberates the catalyst, which forms the iminium ion of the a,(3-unsaturated aldehyde (62) to accomplish the conjugate addition with the nitroalkane A. In the third step, another enamine activation of the intermediate B leads to an intramolecular aldol condensation via C. Finally, the hydrolysis of it returns the catalyst and releases the desired chiral tetra-substituted cyclohexene carbaldehyde (68). 

Another mechanism for catalysis of conjugate addition is via iminium salts. This reactivity has been exploited for several enantioselective catalysts (see Sect. 6.2). A simple example is provided by the use of pyrrolidine salts [225]. 

In addition to chiral acids, amines and amine salts have been used to catalyze conjugate addition. These catalysts presumably function by formation of iminium... 

Oxindoles are a particular class of cyclic amides which are acidic enough to play the role of pro-nucleophiles in conjugate additions under iminium activation. In particular, the reaction between 3-alkyl substituted oxindoles and ot,p-unsaturated aldehydes leading to the formation of a quaternary stereocenter at the heterocyclic unit has been studied by several authors (Scheme 3.12). The use of 0-trialkylsilyldiarylprolinols like 31a as catalysts led... 

---