Evaluation of the inhibitory activity of (aza)isoindolinone-type compounds: Towards in vitro InhA action, Mycobacterium tuberculosis growth and mycolic acid biosynthesis.

Inhibitors of the Mycobacterium tuberculosis enoyl-ACP reductase (InhA) are considered as potential promising therapeutics for the treatment of tuberculosis. Previously, we reported that azaisoindolinone-type compounds displayed, in vitro, inhibitory activity towards InhA. Herein we describe chemical modifications of azaisoindolinone scaffold, the synthesis of 15 new compounds and their evaluations toward the in vitro InhA activity. Based on these results, a structure-InhA inhibitory activity relationship analysis and a molecular docking study, using the conformation of InhA found in the 2H7M crystal structure, were carried out in order to predict a possible mode of interaction of the best (aza)isoindolinone-type inhibitors with InhA in vitro. Then, the work was extended toward evaluations of these compounds against Mycobacterium tuberculosis (Mtb) growth and finally some of them were also investigated in respect with their ability to inhibit mycolic acid biosynthesis inside mycobacteria. Although, some azaisoindolinones were able to inhibit InhA activity and Mtb growth in vitro, they did not inhibit the mycolic acid biosynthesis inside Mtb.