EthA/R-Independent Killing of Mycobacterium tuberculosis by Ethionamide

EthA/R-Independent Killing of Mycobacterium tuberculosis by Ethionamide

Ethionamide (ETH) is part of the drug arsenal available to treat multi-drug resistant tuberculosis. The current paradigm of this pro-drug activation involves the mycobacterial enzyme EthA and the transcriptional repressor, EthR. However, several lines of evidence suggest the involvement of additiona...

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Bibliographic Details
Main Authors: Ang, Michelle L. T., Zainul Rahim, Siti Z., de Sessions, Paola Florez, Lin, Wenwei, Koh, Vanessa, Pethe, Kevin, Hibberd, Martin L., Alonso, Sylvie
Other Authors: School of Biological Sciences
Format: Article
Language:English
Published: 2017
Subjects:
Ethionamide
Mycobacterium tuberculosis
Online Access:https://hdl.handle.net/10356/83568
http://hdl.handle.net/10220/42676
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Institution: Nanyang Technological University
Language: English
Description
Summary:Ethionamide (ETH) is part of the drug arsenal available to treat multi-drug resistant tuberculosis. The current paradigm of this pro-drug activation involves the mycobacterial enzyme EthA and the transcriptional repressor, EthR. However, several lines of evidence suggest the involvement of additional players. The ethA/R locus was deleted in Mycobacterium bovis BCG and three Mycobacterium tuberculosis (MTB) strains. While complete resistance to ETH was observed with BCG ethA/R KO, drug susceptibility and dose-dependent killing were retained in the ethA/R KO MTB mutants, suggesting the existence of an alternative pathway of ETH bio-activation in MTB. We further demonstrated that this alternative pathway is EthRindependent, whereby re-introduction of ethR in ethA/R KO MTB did not lead to increased resistance to ETH. Consistently, ethA KO MTB (with intact ethR expression) displayed similar ETH susceptibility profile as their ethA/R KO counterparts. To identify the alternative ETH bio-activator, spontaneous ETH-resistant mutants were obtained from ethA/R KO MTB and whole genome sequencing identified single nucleotide polymorphisms in mshA, involved in mycothiol biosynthesis and previously linked to ETH resistance. Deletion of mshA in ethA/R KO MTB led to complete ETH resistance, supporting that the role of MshA in ETH killing is EthA/R-independent. Furthermore mshA single KO MTB displayed levels of ETH resistance similar or greater than those obtained with ethA/R KO strains, supporting that mshA is as critical as ethA/R for ETH killing efficacy.

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