Petros C. Karakousis scite author profile

Mycobacterium tuberculosis residing within pulmonary granulomas and cavities represents an important reservoir of persistent organisms during human latent tuberculosis infection. We present a novel in vivo model of tuberculosis involving the encapsulation of bacilli in semidiffusible hollow fibers that are implanted subcutaneously into mice. Granulomatous lesions develop around these hollow fibers, and in this microenvironment, the organisms demonstrate an altered physiologic state characterized by stationary-state colony-forming unit counts and decreased metabolic activity. Moreover, these organisms show an antimicrobial susceptibility pattern similar to persistent bacilli in current models of tuberculosis chemotherapy in that they are more susceptible to the sterilizing drug, rifampin, than to the bactericidal drug isoniazid. We used this model of extracellular persistence within host granulomas to study both gene expression patterns and mutant survival patterns. Our results demonstrate induction of dosR (Rv3133c) and 20 other members of the DosR regulon believed to mediate the transition into dormancy, and that rel Mtb is required for Mycobacterium tuberculosis survival during extracellular persistence within host granulomas. Interestingly, the dormancy phenotype of extracellular M. tuberculosis within host granulomas appears to be immune mediated and interferon-γ dependent.

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Development of a Novel Lead that Targets M. tuberculosis Polyketide Synthase 13

Aggarwal

Parai

Shetty

et al. 2017

Cell

150

220

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SummaryWidespread resistance to first-line TB drugs is a major problem that will likely only be resolved through the development of new drugs with novel mechanisms of action. We have used structure-guided methods to develop a lead molecule that targets the thioesterase activity of polyketide synthase Pks13, an essential enzyme that forms mycolic acids, required for the cell wall of Mycobacterium tuberculosis. Our lead, TAM16, is a benzofuran class inhibitor of Pks13 with highly potent in vitro bactericidal activity against drug-susceptible and drug-resistant clinical isolates of M. tuberculosis. In multiple mouse models of TB infection, TAM16 showed in vivo efficacy equal to the first-line TB drug isoniazid, both as a monotherapy and in combination therapy with rifampicin. TAM16 has excellent pharmacological and safety profiles, and the frequency of resistance for TAM16 is ∼100-fold lower than INH, suggesting that it can be developed as a new antitubercular aimed at the acute infection.PaperClip

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Phosphate Depletion: A Novel Trigger forMycobacterium tuberculosisPersistence

2009

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Persistent Mycobacterium tuberculosis (MTB) likely encounters a phosphate-limited environment within macrophage phagosomes. We studied MTB growth, antibiotic susceptibility, and gene expression during phosphate limitation. With use of MTB mutants deficient in phosphate-related genes, we assessed bacillary survival under phosphate-limited conditions and in mouse and guinea pig lungs. Phosphate limitation restricted MTB growth in a dose-dependent manner, and phosphate-starved bacilli became phenotypically tolerant to isoniazid. The MTB genes ppk1 and relA were upregulated significantly after phosphate starvation, consistent with inorganic polyphosphate accumulation and MTB stringent response induction. The phosphate-specific transport operon pstS3-pstC2-pstA1 was induced during phosphate starvation and its expression was dependent on the 2-component regulatory system SenX3-RegX3. The MTB gene regX3 appears to be essential for bacillary survival during phosphate limitation and in mammalian lungs. Our data suggest that MTB encounters phosphate-limited conditions during mammalian lung infection and that expression of the phosphate starvation response (PSR) is important for MTB persistence.

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