Asymmetric syntheses of 3,4-syn- and 3,4-anti-3-substituted-4-aminopiperidin-2-ones: application to the asymmetric synthesis of (+)-(3S,4R)-cisapride |
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Authors: | Stephen G. Davies Rosemary Huckvale James A. Lee Thomas J.A. Lorkin Paul M. Roberts James E. Thomson |
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Affiliation: | Department of Chemistry, Chemistry Research Laboratory, University of Oxford, Mansfield Road, Oxford OX1 3TA, UK |
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Abstract: | The conjugate addition of lithium (R)-N-benzyl-N-(α-methylbenzyl)amide to δ-(N-allylamino)-α,β-unsaturated esters, followed by N-deallylation and cyclisation of the resultant β,δ-diamino esters, gives the corresponding 4-aminopiperidin-2-ones as single diastereoisomers (>99:1 dr). Subsequent deprotonation with LiHMDS and functionalisation of the resultant lithium enolate gives 3,4-anti-3-substituted-4-aminopiperidin-2-ones in >99:1 dr. Alternatively, in situ oxidation of the intermediate lithium (Z)-β-amino enolates formed upon conjugate addition gives α-hydroxy-β,δ-diamino esters, which after N-deallylation and cyclisation gives the corresponding 3,4-syn-3-hydroxy-4-aminopiperidin-2-ones in >99:1 dr. The utility of this methodology was successfully demonstrated in a concise asymmetric synthesis of the gastroprokinetic agent (+)-(3S,4R)-cisapride {(+)-(3S,4R)-N(1)-[3′-(4″-fluorophenoxy)propyl]-3-methoxy-4-(2?-methoxy-4?-amino-5?-chlorobenzamido)piperidine} in nine steps from commercially available starting materials with an overall yield of 19%. |
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