Amala Bhagwat scite author profile

Drug resistance is an increasing problem for the treatment of tuberculosis. The prevalence of clinical isolates with pre-existing resistance needs to be considered in any drug discovery program. Non-specific mechanisms of resistance such as increased efflux or decreased permeability need to be considered both in developing individual drug candidates and when designing novel regimens. We review a number of different approaches to develop new analogs and drug combinations or improve efficacy of existing drugs that may overcome or delay the appearance of clinical resistance. We also discuss the need to fully characterize mechanisms of resistance and cross- resistance to existing drugs to ensure that novel drugs will be clinically effective.

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Inoculum-dependent bactericidal activity of a Mycobacterium tuberculosis MmpL3 inhibitor

Berube

Deshpande

Bhagwat

et al. 2023

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Indolcarboxamides are a promising series of anti-tubercular agents, which target Mycobacterium tuberculosis MmpL3, the exporter of trehalose monomycolate, a key cell-wall component. We determined the kill kinetics of the lead indolcarboxamide NITD-349 and determined that while kill was rapid against low-density cultures, bactericidal activity was inoculum-dependent. A combination of NITD-349 with isoniazid (which inhibits mycolate synthesis) had an increased kill rate; this combination prevented the appearance of resistant mutants, even at higher inocula.

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Amala Bhagwat

Influence of bacterial culture medium on peptidoglycan binding of cell wall lytic enzymes

Selective antimicrobial activity of cell lytic enzymes in a bacterial consortium

Opportunities for broadening the application of cell wall lytic enzymes

How Mycobacterium tuberculosis drug resistance has shaped anti-tubercular drug discovery

Inoculum-dependent bactericidal activity of a Mycobacterium tuberculosis MmpL3 inhibitor

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