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Identification of 2-Aryl-Quinolone Inhibitors of Cytochrome bd and Chemical Validation of Combination Strategies for Respiratory Inhibitors against Mycobacterium tuberculosis

[Image: see text] Mycobacterium tuberculosis cytochrome bd quinol oxidase (cyt bd), the alternative terminal oxidase of the respiratory chain, has been identified as playing a key role during chronic infection and presents a putative target for the development of novel antitubercular agents. Here, w...

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Autores principales: Jeffreys, Laura N., Ardrey, Alison, Hafiz, Taghreed A., Dyer, Lauri-Anne, Warman, Ashley J., Mosallam, Nada, Nixon, Gemma L., Fisher, Nicholas E., Hong, W. David, Leung, Suet C., Aljayyoussi, Ghaith, Bibby, Jaclyn, Almeida, Deepak V., Converse, Paul J., Fotouhi, Nader, Berry, Neil G., Nuermberger, Eric L., Upton, Anna M., O’Neill, Paul M., Ward, Stephen A., Biagini, Giancarlo A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2023
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9926492/
https://www.ncbi.nlm.nih.gov/pubmed/36606559
http://dx.doi.org/10.1021/acsinfecdis.2c00283
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author Jeffreys, Laura N.
Ardrey, Alison
Hafiz, Taghreed A.
Dyer, Lauri-Anne
Warman, Ashley J.
Mosallam, Nada
Nixon, Gemma L.
Fisher, Nicholas E.
Hong, W. David
Leung, Suet C.
Aljayyoussi, Ghaith
Bibby, Jaclyn
Almeida, Deepak V.
Converse, Paul J.
Fotouhi, Nader
Berry, Neil G.
Nuermberger, Eric L.
Upton, Anna M.
O’Neill, Paul M.
Ward, Stephen A.
Biagini, Giancarlo A.
author_facet Jeffreys, Laura N.
Ardrey, Alison
Hafiz, Taghreed A.
Dyer, Lauri-Anne
Warman, Ashley J.
Mosallam, Nada
Nixon, Gemma L.
Fisher, Nicholas E.
Hong, W. David
Leung, Suet C.
Aljayyoussi, Ghaith
Bibby, Jaclyn
Almeida, Deepak V.
Converse, Paul J.
Fotouhi, Nader
Berry, Neil G.
Nuermberger, Eric L.
Upton, Anna M.
O’Neill, Paul M.
Ward, Stephen A.
Biagini, Giancarlo A.
author_sort Jeffreys, Laura N.
collection PubMed
description [Image: see text] Mycobacterium tuberculosis cytochrome bd quinol oxidase (cyt bd), the alternative terminal oxidase of the respiratory chain, has been identified as playing a key role during chronic infection and presents a putative target for the development of novel antitubercular agents. Here, we report confirmation of successful heterologous expression of M. tuberculosis cytochrome bd. The heterologous M. tuberculosis cytochrome bd expression system was used to identify a chemical series of inhibitors based on the 2-aryl-quinolone pharmacophore. Cytochrome bd inhibitors displayed modest efficacy in M. tuberculosis growth suppression assays together with a bacteriostatic phenotype in time-kill curve assays. Significantly, however, inhibitor combinations containing our front-runner cyt bd inhibitor CK-2-63 with either cyt bcc-aa(3) inhibitors (e.g., Q203) and/or adenosine triphosphate (ATP) synthase inhibitors (e.g., bedaquiline) displayed enhanced efficacy with respect to the reduction of mycobacterium oxygen consumption, growth suppression, and in vitro sterilization kinetics. In vivo combinations of Q203 and CK-2-63 resulted in a modest lowering of lung burden compared to treatment with Q203 alone. The reduced efficacy in the in vivo experiments compared to in vitro experiments was shown to be a result of high plasma protein binding and a low unbound drug exposure at the target site. While further development is required to improve the tractability of cyt bd inhibitors for clinical evaluation, these data support the approach of using small-molecule inhibitors to target multiple components of the branched respiratory chain of M. tuberculosis as a combination strategy to improve therapeutic and pharmacokinetic/pharmacodynamic (PK/PD) indices related to efficacy.
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spelling pubmed-99264922023-02-15 Identification of 2-Aryl-Quinolone Inhibitors of Cytochrome bd and Chemical Validation of Combination Strategies for Respiratory Inhibitors against Mycobacterium tuberculosis Jeffreys, Laura N. Ardrey, Alison Hafiz, Taghreed A. Dyer, Lauri-Anne Warman, Ashley J. Mosallam, Nada Nixon, Gemma L. Fisher, Nicholas E. Hong, W. David Leung, Suet C. Aljayyoussi, Ghaith Bibby, Jaclyn Almeida, Deepak V. Converse, Paul J. Fotouhi, Nader Berry, Neil G. Nuermberger, Eric L. Upton, Anna M. O’Neill, Paul M. Ward, Stephen A. Biagini, Giancarlo A. ACS Infect Dis [Image: see text] Mycobacterium tuberculosis cytochrome bd quinol oxidase (cyt bd), the alternative terminal oxidase of the respiratory chain, has been identified as playing a key role during chronic infection and presents a putative target for the development of novel antitubercular agents. Here, we report confirmation of successful heterologous expression of M. tuberculosis cytochrome bd. The heterologous M. tuberculosis cytochrome bd expression system was used to identify a chemical series of inhibitors based on the 2-aryl-quinolone pharmacophore. Cytochrome bd inhibitors displayed modest efficacy in M. tuberculosis growth suppression assays together with a bacteriostatic phenotype in time-kill curve assays. Significantly, however, inhibitor combinations containing our front-runner cyt bd inhibitor CK-2-63 with either cyt bcc-aa(3) inhibitors (e.g., Q203) and/or adenosine triphosphate (ATP) synthase inhibitors (e.g., bedaquiline) displayed enhanced efficacy with respect to the reduction of mycobacterium oxygen consumption, growth suppression, and in vitro sterilization kinetics. In vivo combinations of Q203 and CK-2-63 resulted in a modest lowering of lung burden compared to treatment with Q203 alone. The reduced efficacy in the in vivo experiments compared to in vitro experiments was shown to be a result of high plasma protein binding and a low unbound drug exposure at the target site. While further development is required to improve the tractability of cyt bd inhibitors for clinical evaluation, these data support the approach of using small-molecule inhibitors to target multiple components of the branched respiratory chain of M. tuberculosis as a combination strategy to improve therapeutic and pharmacokinetic/pharmacodynamic (PK/PD) indices related to efficacy. American Chemical Society 2023-01-06 /pmc/articles/PMC9926492/ /pubmed/36606559 http://dx.doi.org/10.1021/acsinfecdis.2c00283 Text en © 2023 The Authors. Published by American Chemical Society https://creativecommons.org/licenses/by-nc-nd/4.0/Permits non-commercial access and re-use, provided that author attribution and integrity are maintained; but does not permit creation of adaptations or other derivative works (https://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Jeffreys, Laura N.
Ardrey, Alison
Hafiz, Taghreed A.
Dyer, Lauri-Anne
Warman, Ashley J.
Mosallam, Nada
Nixon, Gemma L.
Fisher, Nicholas E.
Hong, W. David
Leung, Suet C.
Aljayyoussi, Ghaith
Bibby, Jaclyn
Almeida, Deepak V.
Converse, Paul J.
Fotouhi, Nader
Berry, Neil G.
Nuermberger, Eric L.
Upton, Anna M.
O’Neill, Paul M.
Ward, Stephen A.
Biagini, Giancarlo A.
Identification of 2-Aryl-Quinolone Inhibitors of Cytochrome bd and Chemical Validation of Combination Strategies for Respiratory Inhibitors against Mycobacterium tuberculosis
title Identification of 2-Aryl-Quinolone Inhibitors of Cytochrome bd and Chemical Validation of Combination Strategies for Respiratory Inhibitors against Mycobacterium tuberculosis
title_full Identification of 2-Aryl-Quinolone Inhibitors of Cytochrome bd and Chemical Validation of Combination Strategies for Respiratory Inhibitors against Mycobacterium tuberculosis
title_fullStr Identification of 2-Aryl-Quinolone Inhibitors of Cytochrome bd and Chemical Validation of Combination Strategies for Respiratory Inhibitors against Mycobacterium tuberculosis
title_full_unstemmed Identification of 2-Aryl-Quinolone Inhibitors of Cytochrome bd and Chemical Validation of Combination Strategies for Respiratory Inhibitors against Mycobacterium tuberculosis
title_short Identification of 2-Aryl-Quinolone Inhibitors of Cytochrome bd and Chemical Validation of Combination Strategies for Respiratory Inhibitors against Mycobacterium tuberculosis
title_sort identification of 2-aryl-quinolone inhibitors of cytochrome bd and chemical validation of combination strategies for respiratory inhibitors against mycobacterium tuberculosis
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9926492/
https://www.ncbi.nlm.nih.gov/pubmed/36606559
http://dx.doi.org/10.1021/acsinfecdis.2c00283
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