Article
Author: Quotadamo, Antonio ; Pucci, Vincenzo ; Toniatti, Carlo ; Torrente, Esther ; Montalbetti, Christian ; Proto, Giulia ; Amaudrut, Jérôme ; Bencheva, Leda ; Orsale, Maria V ; Corio, Alessandra ; Veneziano, Maria ; Ontoria, Jesus M ; Tomei, Licia ; Alli, Cristina ; Vasile, Silvana ; Bisbocci, Monica ; Ferrigno, Federica ; Conti, Silvia ; Orsatti, Laura ; Paonessa, Giacomo ; Alaimo, Nadine ; Nibbio, Martina ; Colaceci, Fabrizio ; Paolini, Chantal ; Di Fabio, Romano ; Beghetto, Elisa ; Ievoli, Giovanni ; Graziani, Rita ; Missineo, Antonino ; Bresciani, Alberto
Abstract:
The mosquito-transmitted Zika virus (ZIKV) poses a global health threat, with no approved antiviral drugs or vaccines currently available. Here, we report the discovery of a series of ZIKV NS3 protease inhibitors identified through phenotypic high-throughput screening (HTS) using a ZIKV replicon-based cellular assay, and the subsequent selection of resistant mutants. These inhibitors, characterized by the presence of an
N
-acylsydnone imine group, bind to a previously undescribed allosteric pocket of the protease, locking the enzyme into a catalytically inactive conformation. We describe the characterization of IRBM-Z-1, our initial allosteric hit and IRBM-Z-2, a potent inhibitor of ZIKV infectivity and other orthoflavivirus proteases with a favourable in vitro and in vivo ADME profile, resulting in oral efficacy against ZIKV infection in mouse models, with potential as a prophylactic agent for human use.