Abstract
In the search for new antituberculosis drugs with novel mechanisms of action, we evaluated the antimycobacterial activity of a panel of eight phenolic acids against four pathogenic mycobacterial model species, including Mycobacterium tuberculosis. We demonstrated that salicylic acid (SA), as well as the iodinated derivatives 5-iodo-salicylic acid (5ISA) and 3,5-diiodo-salicylic acid (3,5diISA), displayed promising antitubercular activities. Remarkably, using a genetically encoded mycobacterial intrabacterial pH reporter, we describe for the first time that SA, 5ISA, 3,5diISA, and the anti-inflammatory drug aspirin (ASP) act by disrupting the intrabacterial pH homeostasis of M. tuberculosis in a dose-dependent manner under in vitro conditions mimicking the endolysosomal pH of macrophages. In contrast, the structurally related second-line anti-TB drug 4-aminosalicylic acid (PAS) had no pH-dependent activity and was strongly antagonized by l-methionine supplementation, thereby suggesting distinct modes of action. Finally, we propose that SA, ASP, and its two iodinated derivatives could restrict M. tuberculosis growth in a pH-dependent manner by acidifying the cytosol of the bacilli, therefore making such compounds very attractive for further development of antibacterial agents.
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