Asymmetric Synthesis of Trisubstituted Piperidines via Biocatalytic Transamination and Diastereoselective Enamine or Imine Reduction

Abstract

Substituted piperidine rings are a common motif in natural products and pharmaceutical drugs. The asymmetric synthesis of piperidines bearing multiple stereocentres remains a challenge, and current approaches often rely on lengthy reaction sequences and 'chiral pool' strategies. Herein, we report multi-enzymatic and chemo-enzymatic methods that allow the preparation of piperidines with three chirality centres in only two steps from achiral diketoester precursors. Stereocontrol is achieved by a highly enantioselective transamination leading to optically pure (ee > 99%) enamine or imine intermediates, followed by diastereoselective reduction of these unsaturated N-heterocycles using either platinum(0)-catalysed flow hydrogenation or enzymatic imine reduction. In the latter case, coupling of the two biocatalytic reactions in a concurrent one-pot process is possible, thus reducing the synthetic sequence to a single biotransformation. In total, nine trisubstituted piperidines were prepared in high stereoisomeric purities (dr & GE;98:2) and isolated yields of up to 73%. Lead-likeness analysis of five representative products using an open-source webtool suggests that these compounds possess considerable application potential as building blocks in drug discovery.