Chemoselective seleno-click amidation in kinetic target-guided synthesis

Abstract

Capitalizing on our previous kinetic target-guided synthesis (KTGS) involving the sulfo-click reaction to form N-acylsulfonamide-linked inhibitors in the presence of the protein–protein interaction target Mcl-1, we herein report a seleno-click approach for amide-linked inhibitors of Mcl-1. The seleno-click reaction leverages the enhanced reactivity of selenocarboxylates, enabling the templated amidation with electron-rich azides, thereby expanding the scope of KTGS. The potential of this approach is demonstrated by generating N-benzyl-5-(4-isopropylthiophenol)-2-hydroxyl nicotinamide, a known Mcl-1 inhibitor featuring an amide, via KTGS at 37 °C against Mcl-1. Notably, the seleno-click strategy was also effective at 4 °C, offering a variant for thermally sensitive biological targets.