Exploring the SAR of the β-Ketoacyl-ACP Synthase Inhibitor GSK3011724A and Optimization around a Genotoxic Metabolite.
Fraser CunninghamJorge EsquiviasRaquel Fernández-MenéndezArancha PérezAna GuardiaJaime EscribanoCristina RiveroMythily VimalMónica CachoPaco de Dios-AntónMaría Santos Martínez-MartínezElena JiménezLeticia Huertas ValentínMaría José Rebollo-LópezEva María López-RománVerónica Sousa-MorcuendeJoaquín RullasMargaret NeuChun-Wa ChungRobert H BatesPublished in: ACS infectious diseases (2020)
In the course of optimizing a novel indazole sulfonamide series that inhibits β-ketoacyl-ACP synthase (KasA) of Mycobacterium tuberculosis, a mutagenic aniline metabolite was identified. Further lead optimization efforts were therefore dedicated to eliminating this critical liability by removing the embedded aniline moiety or modifying its steric or electronic environment. While the narrow SAR space against the target ultimately rendered this goal unsuccessful, key structural knowledge around the binding site of this underexplored target for TB was generated to inform future discovery efforts.