Diastereoselective FeCl3·6H2O/NaBH4 Reduction of Oxime Ether for the Synthesis of β-Lactamase Inhibitor Relebactam.
John Y L ChungDongfang MengMichael ShevlinVenugopal GudipatiQinghao ChenYizhou LiuColin Yu-Hong LamAaron DumasJeremy ScottQiang TuFeng XuPublished in: The Journal of organic chemistry (2020)
Relebactam, a potent β-lactamase inhibitor, in combination with Primaxin is an FDA-approved (Recarbrio) treatment for serious and antibiotic-resistant bacterial infections. An efficient synthesis of key chiral piperidine intermediate 1 suitable for large-scale preparation of relebactam is described. The key steps include a unique highly diastereoselective FeCl3·6H2O/NaBH4 reduction of a chiral oxime ether and chemoselective amidation of the resulting unprotected pipecolic acid. Nuclear magnetic resonance studies and density functional theory calculations were carried out on the substrate-Fe(III) complexes, which shed light on diastereoselective reduction.