Mycobacterium tuberculosis H(2)S Functions as a Sink to Modulate Central Metabolism, Bioenergetics, and Drug Susceptibility

H(2)S is a potent gasotransmitter in eukaryotes and bacteria. Host-derived H(2)S has been shown to profoundly alter M. tuberculosis (Mtb) energy metabolism and growth. However, compelling evidence for endogenous production of H(2)S and its role in Mtb physiology is lacking. We show that multidrug-re...

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Autores principales: Kunota, Tafara T. R., Rahman, Md. Aejazur, Truebody, Barry E., Mackenzie, Jared S., Saini, Vikram, Lamprecht, Dirk A., Adamson, John H., Sevalkar, Ritesh R., Lancaster, Jack R., Berney, Michael, Glasgow, Joel N., Steyn, Adrie J. C.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8389258/
https://www.ncbi.nlm.nih.gov/pubmed/34439535
http://dx.doi.org/10.3390/antiox10081285
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author Kunota, Tafara T. R.
Rahman, Md. Aejazur
Truebody, Barry E.
Mackenzie, Jared S.
Saini, Vikram
Lamprecht, Dirk A.
Adamson, John H.
Sevalkar, Ritesh R.
Lancaster, Jack R.
Berney, Michael
Glasgow, Joel N.
Steyn, Adrie J. C.
author_facet Kunota, Tafara T. R.
Rahman, Md. Aejazur
Truebody, Barry E.
Mackenzie, Jared S.
Saini, Vikram
Lamprecht, Dirk A.
Adamson, John H.
Sevalkar, Ritesh R.
Lancaster, Jack R.
Berney, Michael
Glasgow, Joel N.
Steyn, Adrie J. C.
author_sort Kunota, Tafara T. R.
collection PubMed
description H(2)S is a potent gasotransmitter in eukaryotes and bacteria. Host-derived H(2)S has been shown to profoundly alter M. tuberculosis (Mtb) energy metabolism and growth. However, compelling evidence for endogenous production of H(2)S and its role in Mtb physiology is lacking. We show that multidrug-resistant and drug-susceptible clinical Mtb strains produce H(2)S, whereas H(2)S production in non-pathogenic M. smegmatis is barely detectable. We identified Rv3684 (Cds1) as an H(2)S-producing enzyme in Mtb and show that cds1 disruption reduces, but does not eliminate, H(2)S production, suggesting the involvement of multiple genes in H(2)S production. We identified endogenous H(2)S to be an effector molecule that maintains bioenergetic homeostasis by stimulating respiration primarily via cytochrome bd. Importantly, H(2)S plays a key role in central metabolism by modulating the balance between oxidative phosphorylation and glycolysis, and it functions as a sink to recycle sulfur atoms back to cysteine to maintain sulfur homeostasis. Lastly, Mtb-generated H(2)S regulates redox homeostasis and susceptibility to anti-TB drugs clofazimine and rifampicin. These findings reveal previously unknown facets of Mtb physiology and have implications for routine laboratory culturing, understanding drug susceptibility, and improved diagnostics.
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spelling pubmed-83892582021-08-27 Mycobacterium tuberculosis H(2)S Functions as a Sink to Modulate Central Metabolism, Bioenergetics, and Drug Susceptibility Kunota, Tafara T. R. Rahman, Md. Aejazur Truebody, Barry E. Mackenzie, Jared S. Saini, Vikram Lamprecht, Dirk A. Adamson, John H. Sevalkar, Ritesh R. Lancaster, Jack R. Berney, Michael Glasgow, Joel N. Steyn, Adrie J. C. Antioxidants (Basel) Article H(2)S is a potent gasotransmitter in eukaryotes and bacteria. Host-derived H(2)S has been shown to profoundly alter M. tuberculosis (Mtb) energy metabolism and growth. However, compelling evidence for endogenous production of H(2)S and its role in Mtb physiology is lacking. We show that multidrug-resistant and drug-susceptible clinical Mtb strains produce H(2)S, whereas H(2)S production in non-pathogenic M. smegmatis is barely detectable. We identified Rv3684 (Cds1) as an H(2)S-producing enzyme in Mtb and show that cds1 disruption reduces, but does not eliminate, H(2)S production, suggesting the involvement of multiple genes in H(2)S production. We identified endogenous H(2)S to be an effector molecule that maintains bioenergetic homeostasis by stimulating respiration primarily via cytochrome bd. Importantly, H(2)S plays a key role in central metabolism by modulating the balance between oxidative phosphorylation and glycolysis, and it functions as a sink to recycle sulfur atoms back to cysteine to maintain sulfur homeostasis. Lastly, Mtb-generated H(2)S regulates redox homeostasis and susceptibility to anti-TB drugs clofazimine and rifampicin. These findings reveal previously unknown facets of Mtb physiology and have implications for routine laboratory culturing, understanding drug susceptibility, and improved diagnostics. MDPI 2021-08-13 /pmc/articles/PMC8389258/ /pubmed/34439535 http://dx.doi.org/10.3390/antiox10081285 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Kunota, Tafara T. R.
Rahman, Md. Aejazur
Truebody, Barry E.
Mackenzie, Jared S.
Saini, Vikram
Lamprecht, Dirk A.
Adamson, John H.
Sevalkar, Ritesh R.
Lancaster, Jack R.
Berney, Michael
Glasgow, Joel N.
Steyn, Adrie J. C.
Mycobacterium tuberculosis H(2)S Functions as a Sink to Modulate Central Metabolism, Bioenergetics, and Drug Susceptibility
title Mycobacterium tuberculosis H(2)S Functions as a Sink to Modulate Central Metabolism, Bioenergetics, and Drug Susceptibility
title_full Mycobacterium tuberculosis H(2)S Functions as a Sink to Modulate Central Metabolism, Bioenergetics, and Drug Susceptibility
title_fullStr Mycobacterium tuberculosis H(2)S Functions as a Sink to Modulate Central Metabolism, Bioenergetics, and Drug Susceptibility
title_full_unstemmed Mycobacterium tuberculosis H(2)S Functions as a Sink to Modulate Central Metabolism, Bioenergetics, and Drug Susceptibility
title_short Mycobacterium tuberculosis H(2)S Functions as a Sink to Modulate Central Metabolism, Bioenergetics, and Drug Susceptibility
title_sort mycobacterium tuberculosis h(2)s functions as a sink to modulate central metabolism, bioenergetics, and drug susceptibility
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8389258/
https://www.ncbi.nlm.nih.gov/pubmed/34439535
http://dx.doi.org/10.3390/antiox10081285
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