<i>Mycobacterium tuberculosis</i> F-ATP Synthase Inhibitors and Targets

<i>Mycobacterium tuberculosis</i> F-ATP Synthase Inhibitors and Targets

<i>Mycobacteria tuberculosis</i> (<i>Mtb</i>) infection causes tuberculosis (TB). TB is one of the most intractable infectious diseases, causing over 1.13 million deaths annually. Under harsh growing conditions, the innate response of mycobacteria is to shut down its respirat...

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Bibliographic Details
Main Authors: Amaravadhi Harikishore, Gerhard Grüber
Format: Article
Language:English
Published: MDPI AG 2024-12-01
Series:Antibiotics
Subjects:
F-ATP synthase
OXPHOS
ETC (electron transport chain)
inhibitors
mycobacteria
bedaquiline
Online Access:https://www.mdpi.com/2079-6382/13/12/1169
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Summary:<i>Mycobacteria tuberculosis</i> (<i>Mtb</i>) infection causes tuberculosis (TB). TB is one of the most intractable infectious diseases, causing over 1.13 million deaths annually. Under harsh growing conditions, the innate response of mycobacteria is to shut down its respiratory metabolism to a basal level, transit into a dormant, non-replicating phase to preserve viability, and establish latent infection. <i>Mtb</i> utilizes non-canonical regulatory mechanisms, such as alternative oxidase pathways, to survive in low oxygen/nutrient conditions. The bacterium’s survival in its native microenvironmental niches is aided by its ability to evolve mutations to drug binding sites, enhance overexpression of various enzymes that activate β-lactam antibiotics hydrolysis, or stimulate efflux pathways to ward off the effect of antibiotics. Bedaquiline and its 3,5-dialkoxypyridine analogs, sudapyridine and squaramide S31f, have been shown to be potent <i>Mtb</i> F<sub>1</sub>F<sub>O</sub>-ATP synthase inhibitors of replicating and non-replicating <i>Mtb</i> and have brought oxidative phosphorylation into focus as an anti-TB target. In this review, we attempt to highlight non-canonical structural and regulatory pathogen-specific epitopes of the F<sub>1</sub>-domain, ligand development on such sites, structural classes of inhibitors targeting the Fo-domain, and alternative respiratory metabolic responses that <i>Mtb</i> employs in response to bedaquiline to ensure its survival and establish latent infection.
ISSN:2079-6382

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