Temoeraturebelow 25 kills mycobacterium tuberculosis
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Tuberculosis, caused by the intracellular pathogen Mycobacterium tuberculosis, is a deadly disease that requires a long course of treatment. The emergence of drug-resistant strains has driven efforts to discover new small molecules that can kill the bacterium. Here, we report characterizations of the compound HC2091, which kills M. tuberculosis in a time- and dose-dependent manner in vitro and inhibits M. tuberculosis growth in macrophages. Whole-genome sequencing of spontaneous HC2091-resistant mutants identified single-nucleotide variants in the mmpL3 mycolic acid transporter gene. HC2091-resistant mutants do not exhibit cross-resistance with the well-characterized Mycobacterium membrane protein large 3 (MmpL3) inhibitor SQ109, suggesting a distinct mechanism of interaction with MmpL3. Additionally, HC2091 does not modulate bacterial membrane potential or kill nonreplicating M. tuberculosis, thus acting differently from other known MmpL3 inhibitors. RNA sequencing (RNA-seq) transcriptional profiling and lipid profiling of M. tuberculosis treated with HC2091 or SQ109 show that the two compounds target a similar pathway. HC2091 has a chemical structure dissimilar to those of previously described MmpL3 inhibitors, supporting the notion that HC2091 is a new class of MmpL3 inhibitor.