Structure‐Based Macrocyclization of Substrate Analogue NS2B‐NS3 Protease Inhibitors of Zika, West Nile and Dengue viruses

A series of cyclic active‐site‐directed inhibitors of the NS2B‐NS3 proteases from Zika (ZIKV), West Nile (WNV), and dengue‐4 (DENV4) viruses has been designed. The most potent compounds contain a reversely incorporated d‐lysine residue in the P1 position. Its side chain is connected to the P2 backbone, its α‐amino group is converted into a guanidine to interact with the conserved Asp129 side chain in the S1 pocket, and its C terminus is connected to the P3 residue via different linker segments. The most potent compounds inhibit the ZIKV protease with K (i) values <5 nM. Crystal structures of seven ZIKV protease inhibitor complexes were determined to support the inhibitor design. All the cyclic compounds possess high selectivity against trypsin‐like serine proteases and furin‐like proprotein convertases. Both WNV and DENV4 proteases are inhibited less efficiently. Nonetheless, similar structure‐activity relationships were observed for these enzymes, thus suggesting their potential application as pan‐flaviviral protease inhibitors.