A chemical genetic screen in Mycobacterium tuberculosis identifies carbon-source-dependent growth inhibitors devoid of in vivo efficacy

Candidate antibacterials are usually identified on the basis of their in vitro activity. However, the apparent inhibitory activity of new leads can be misleading because most culture media do not reproduce an environment relevant to infection in vivo. In this study, while screening for novel anti-tu...

Descripción completa

Detalles Bibliográficos
Autores principales: Pethe, Kevin, Sequeira, Patricia C., Agarwalla, Sanjay, Rhee, Kyu, Kuhen, Kelli, Phong, Wai Yee, Patel, Viral, Beer, David, Walker, John R., Duraiswamy, Jeyaraj, Jiricek, Jan, Keller, Thomas H., Chatterjee, Arnab, Tan, Mai Ping, Ujjini, Manjunatha, Rao, Srinivasa P.S., Camacho, Luis, Bifani, Pablo, Mak, Puiying A., Ma, Ida, Barnes, S. Whitney, Chen, Zhong, Plouffe, David, Thayalan, Pamela, Ng, Seow Hwee, Au, Melvin, Lee, Boon Heng, Tan, Bee Huat, Ravindran, Sindhu, Nanjundappa, Mahesh, Lin, Xiuhua, Goh, Anne, Lakshminarayana, Suresh B., Shoen, Carolyn, Cynamon, Michael, Kreiswirth, Barry, Dartois, Veronique, Peters, Eric C., Glynne, Richard, Brenner, Sydney, Dick, Thomas
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group 2010
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3220188/
https://www.ncbi.nlm.nih.gov/pubmed/20975714
http://dx.doi.org/10.1038/ncomms1060
_version_ 1782216961469448192
author Pethe, Kevin
Sequeira, Patricia C.
Agarwalla, Sanjay
Rhee, Kyu
Kuhen, Kelli
Phong, Wai Yee
Patel, Viral
Beer, David
Walker, John R.
Duraiswamy, Jeyaraj
Jiricek, Jan
Keller, Thomas H.
Chatterjee, Arnab
Tan, Mai Ping
Ujjini, Manjunatha
Rao, Srinivasa P.S.
Camacho, Luis
Bifani, Pablo
Mak, Puiying A.
Ma, Ida
Barnes, S. Whitney
Chen, Zhong
Plouffe, David
Thayalan, Pamela
Ng, Seow Hwee
Au, Melvin
Lee, Boon Heng
Tan, Bee Huat
Ravindran, Sindhu
Nanjundappa, Mahesh
Lin, Xiuhua
Goh, Anne
Lakshminarayana, Suresh B.
Shoen, Carolyn
Cynamon, Michael
Kreiswirth, Barry
Dartois, Veronique
Peters, Eric C.
Glynne, Richard
Brenner, Sydney
Dick, Thomas
author_facet Pethe, Kevin
Sequeira, Patricia C.
Agarwalla, Sanjay
Rhee, Kyu
Kuhen, Kelli
Phong, Wai Yee
Patel, Viral
Beer, David
Walker, John R.
Duraiswamy, Jeyaraj
Jiricek, Jan
Keller, Thomas H.
Chatterjee, Arnab
Tan, Mai Ping
Ujjini, Manjunatha
Rao, Srinivasa P.S.
Camacho, Luis
Bifani, Pablo
Mak, Puiying A.
Ma, Ida
Barnes, S. Whitney
Chen, Zhong
Plouffe, David
Thayalan, Pamela
Ng, Seow Hwee
Au, Melvin
Lee, Boon Heng
Tan, Bee Huat
Ravindran, Sindhu
Nanjundappa, Mahesh
Lin, Xiuhua
Goh, Anne
Lakshminarayana, Suresh B.
Shoen, Carolyn
Cynamon, Michael
Kreiswirth, Barry
Dartois, Veronique
Peters, Eric C.
Glynne, Richard
Brenner, Sydney
Dick, Thomas
author_sort Pethe, Kevin
collection PubMed
description Candidate antibacterials are usually identified on the basis of their in vitro activity. However, the apparent inhibitory activity of new leads can be misleading because most culture media do not reproduce an environment relevant to infection in vivo. In this study, while screening for novel anti-tuberculars, we uncovered how carbon metabolism can affect antimicrobial activity. Novel pyrimidine–imidazoles (PIs) were identified in a whole-cell screen against Mycobacterium tuberculosis. Lead optimization generated in vitro potent derivatives with desirable pharmacokinetic properties, yet without in vivo efficacy. Mechanism of action studies linked the PI activity to glycerol metabolism, which is not relevant for M. tuberculosis during infection. PIs induced self-poisoning of M. tuberculosis by promoting the accumulation of glycerol phosphate and rapid ATP depletion. This study underlines the importance of understanding central bacterial metabolism in vivo and of developing predictive in vitro culture conditions as a prerequisite for the rational discovery of new antibiotics.
format Online
Article
Text
id pubmed-3220188
institution National Center for Biotechnology Information
language English
publishDate 2010
publisher Nature Publishing Group
record_format MEDLINE/PubMed
spelling pubmed-32201882011-11-21 A chemical genetic screen in Mycobacterium tuberculosis identifies carbon-source-dependent growth inhibitors devoid of in vivo efficacy Pethe, Kevin Sequeira, Patricia C. Agarwalla, Sanjay Rhee, Kyu Kuhen, Kelli Phong, Wai Yee Patel, Viral Beer, David Walker, John R. Duraiswamy, Jeyaraj Jiricek, Jan Keller, Thomas H. Chatterjee, Arnab Tan, Mai Ping Ujjini, Manjunatha Rao, Srinivasa P.S. Camacho, Luis Bifani, Pablo Mak, Puiying A. Ma, Ida Barnes, S. Whitney Chen, Zhong Plouffe, David Thayalan, Pamela Ng, Seow Hwee Au, Melvin Lee, Boon Heng Tan, Bee Huat Ravindran, Sindhu Nanjundappa, Mahesh Lin, Xiuhua Goh, Anne Lakshminarayana, Suresh B. Shoen, Carolyn Cynamon, Michael Kreiswirth, Barry Dartois, Veronique Peters, Eric C. Glynne, Richard Brenner, Sydney Dick, Thomas Nat Commun Article Candidate antibacterials are usually identified on the basis of their in vitro activity. However, the apparent inhibitory activity of new leads can be misleading because most culture media do not reproduce an environment relevant to infection in vivo. In this study, while screening for novel anti-tuberculars, we uncovered how carbon metabolism can affect antimicrobial activity. Novel pyrimidine–imidazoles (PIs) were identified in a whole-cell screen against Mycobacterium tuberculosis. Lead optimization generated in vitro potent derivatives with desirable pharmacokinetic properties, yet without in vivo efficacy. Mechanism of action studies linked the PI activity to glycerol metabolism, which is not relevant for M. tuberculosis during infection. PIs induced self-poisoning of M. tuberculosis by promoting the accumulation of glycerol phosphate and rapid ATP depletion. This study underlines the importance of understanding central bacterial metabolism in vivo and of developing predictive in vitro culture conditions as a prerequisite for the rational discovery of new antibiotics. Nature Publishing Group 2010-08 /pmc/articles/PMC3220188/ /pubmed/20975714 http://dx.doi.org/10.1038/ncomms1060 Text en Copyright © 2010, Nature Publishing Group, a division of Macmillan Publishers Limited. All Rights Reserved. http://creativecommons.org/licenses/by-nc-nd/3.0/ This work is licensed under a Creative Commons Attribution-NonCommercial-No Derivative Works 3.0 Unported License. To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-nd/3.0/
spellingShingle Article
Pethe, Kevin
Sequeira, Patricia C.
Agarwalla, Sanjay
Rhee, Kyu
Kuhen, Kelli
Phong, Wai Yee
Patel, Viral
Beer, David
Walker, John R.
Duraiswamy, Jeyaraj
Jiricek, Jan
Keller, Thomas H.
Chatterjee, Arnab
Tan, Mai Ping
Ujjini, Manjunatha
Rao, Srinivasa P.S.
Camacho, Luis
Bifani, Pablo
Mak, Puiying A.
Ma, Ida
Barnes, S. Whitney
Chen, Zhong
Plouffe, David
Thayalan, Pamela
Ng, Seow Hwee
Au, Melvin
Lee, Boon Heng
Tan, Bee Huat
Ravindran, Sindhu
Nanjundappa, Mahesh
Lin, Xiuhua
Goh, Anne
Lakshminarayana, Suresh B.
Shoen, Carolyn
Cynamon, Michael
Kreiswirth, Barry
Dartois, Veronique
Peters, Eric C.
Glynne, Richard
Brenner, Sydney
Dick, Thomas
A chemical genetic screen in Mycobacterium tuberculosis identifies carbon-source-dependent growth inhibitors devoid of in vivo efficacy
title A chemical genetic screen in Mycobacterium tuberculosis identifies carbon-source-dependent growth inhibitors devoid of in vivo efficacy
title_full A chemical genetic screen in Mycobacterium tuberculosis identifies carbon-source-dependent growth inhibitors devoid of in vivo efficacy
title_fullStr A chemical genetic screen in Mycobacterium tuberculosis identifies carbon-source-dependent growth inhibitors devoid of in vivo efficacy
title_full_unstemmed A chemical genetic screen in Mycobacterium tuberculosis identifies carbon-source-dependent growth inhibitors devoid of in vivo efficacy
title_short A chemical genetic screen in Mycobacterium tuberculosis identifies carbon-source-dependent growth inhibitors devoid of in vivo efficacy
title_sort chemical genetic screen in mycobacterium tuberculosis identifies carbon-source-dependent growth inhibitors devoid of in vivo efficacy
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3220188/
https://www.ncbi.nlm.nih.gov/pubmed/20975714
http://dx.doi.org/10.1038/ncomms1060
work_keys_str_mv AT pethekevin achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT sequeirapatriciac achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT agarwallasanjay achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT rheekyu achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT kuhenkelli achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT phongwaiyee achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT patelviral achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT beerdavid achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT walkerjohnr achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT duraiswamyjeyaraj achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT jiricekjan achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT kellerthomash achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT chatterjeearnab achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT tanmaiping achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT ujjinimanjunatha achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT raosrinivasaps achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT camacholuis achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT bifanipablo achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT makpuiyinga achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT maida achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT barnesswhitney achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT chenzhong achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT plouffedavid achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT thayalanpamela achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT ngseowhwee achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT aumelvin achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT leeboonheng achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT tanbeehuat achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT ravindransindhu achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT nanjundappamahesh achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT linxiuhua achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT gohanne achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT lakshminarayanasureshb achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT shoencarolyn achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT cynamonmichael achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT kreiswirthbarry achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT dartoisveronique achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT petersericc achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT glynnerichard achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT brennersydney achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT dickthomas achemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT pethekevin chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT sequeirapatriciac chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT agarwallasanjay chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT rheekyu chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT kuhenkelli chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT phongwaiyee chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT patelviral chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT beerdavid chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT walkerjohnr chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT duraiswamyjeyaraj chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT jiricekjan chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT kellerthomash chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT chatterjeearnab chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT tanmaiping chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT ujjinimanjunatha chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT raosrinivasaps chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT camacholuis chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT bifanipablo chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT makpuiyinga chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT maida chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT barnesswhitney chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT chenzhong chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT plouffedavid chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT thayalanpamela chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT ngseowhwee chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT aumelvin chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT leeboonheng chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT tanbeehuat chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT ravindransindhu chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT nanjundappamahesh chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT linxiuhua chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT gohanne chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT lakshminarayanasureshb chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT shoencarolyn chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT cynamonmichael chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT kreiswirthbarry chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT dartoisveronique chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT petersericc chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT glynnerichard chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT brennersydney chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy
AT dickthomas chemicalgeneticscreeninmycobacteriumtuberculosisidentifiescarbonsourcedependentgrowthinhibitorsdevoidofinvivoefficacy

Ejemplares similares