Bioenergetic Heterogeneity in Mycobacterium tuberculosis Residing in Different Subcellular Niches

ATP/ADP levels guide bacterial cells, whether to replicate or to enter nonreplicating persistence. However, tools for measuring ATP/ADP levels with spatiotemporal resolution are lacking. Here, we describe a method for tracking ATP/ADP levels at the single-cell and population levels. Using this tool, we have demonstrated that the transcription inhibitor rifampicin induces metabolic stress. In contrast, the cell wall synthesis inhibitor isoniazid does not alter the metabolic state of the bacilli, suggesting that transcription is tightly intertwined with metabolism, while cell wall synthesis is not. Furthermore, we analyzed the metabolic state of mycobacteria residing in different compartments of macrophages. We observed that Mtb cells residing inside phagosomes have healthy ATP/ADP levels. In contrast, the bacteria residing inside phagolysosomes and autophagosomes face depletion of ATP. Interestingly, the activation of macrophages facilitates the trafficking of mycobacterial cells from metabolism-conducive phagosomes to metabolism-averse phagolysosomes and autophagosomes. We believe that this tool holds the key to the identification of inhibitors of mycobacterial metabolism.