Ni(II)-Catalyzed Asymmetric Nitration of Oxindoles: Construction of Cipargamin Analogues
Mingjun Lv, Xiaoxun Li
Abstract
The efficient stereoselective nitration of sp3 carbons, especially in an asymmetric manner, remains a formidable challenge. Here we report an example of nickel-catalyzed asymmetric nitration reaction, delivering chiral oxindoles bearing a tertiary nitro group in good yields with high enantioselectivities (up to 83% yield and 95% ee). Diverse enantioenriched 3-nitro oxindoles were prepared from readily available oxindoles efficiently, benefiting the synthesis of chiral 3-amino oxindoles. Notably, the synthetic potential of this asymmetric nitration method was further demonstrated by constructing analogues of Cipargamin, a potent antimalarial agent. Preliminary mechanistic studies supported a radical process involved in this transformation.