ClgR regulation of chaperone and protease systems is essential for Mycobacterium tuberculosis parasitism of the macrophage

ClgR regulation of chaperone and protease systems is essential for Mycobacterium tuberculosis parasitism of the macrophage

Chaperone and protease systems play essential roles in cellular homeostasis and have vital functions in controlling the abundance of specific cellular proteins involved in processes such as transcription, replication, metabolism and virulence. Bacteria have evolved accurate regulatory systems to control the expression and function of chaperones and potentially destructive proteases. Here, we have used a combination of transcriptomics, proteomics and targeted mutagenesis to reveal that the clp gene regulator (ClgR) of Mycobacterium tuberculosis activates the transcription of at least ten genes, including four that encode protease systems (ClpP1/C, ClpP2/C, PtrB and HtrA-like protease Rv1043c) and three that encode chaperones (Acr2, ClpB and the chaperonin Rv3269). Thus, M. tuberculosis ClgR controls a larger network of protein homeostatic and regulatory systems than ClgR in any other bacterium studied to date. We demonstrate that ClgR-regulated transcriptional activation of these systems is essential for M. tuberculosis to replicate in macrophages. Furthermore, we observe that this defect is manifest early in infection, as M. tuberculosis lacking ClgR is deficient in the ability to control phagosome pH 1 h post-phagocytosis.

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Main Authors: Estorninho, M., Smith, H.E., Thole, J.E.R., Harders-Westerveen, S.F., Kierzek, A., Butler, R.E., Neyrolles, O., Stewart, G.R.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:alpha-crystallin, bacillus-subtilis, clp atpases, corynebacterium-glutamicum, gene-expression, gram-positive bacteria, heat-shock response, microarray data, quality-control, sigma-factor sigma(h),
Online Access:https://research.wur.nl/en/publications/clgr-regulation-of-chaperone-and-protease-systems-is-essential-fo
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spelling dig-wur-nl-wurpubs-4015332024-12-04 Estorninho, M. Smith, H.E. Thole, J.E.R. Harders-Westerveen, S.F. Kierzek, A. Butler, R.E. Neyrolles, O. Stewart, G.R. Article/Letter to editor Microbiology 156 (2010) ISSN: 1350-0872 ClgR regulation of chaperone and protease systems is essential for Mycobacterium tuberculosis parasitism of the macrophage 2010 Chaperone and protease systems play essential roles in cellular homeostasis and have vital functions in controlling the abundance of specific cellular proteins involved in processes such as transcription, replication, metabolism and virulence. Bacteria have evolved accurate regulatory systems to control the expression and function of chaperones and potentially destructive proteases. Here, we have used a combination of transcriptomics, proteomics and targeted mutagenesis to reveal that the clp gene regulator (ClgR) of Mycobacterium tuberculosis activates the transcription of at least ten genes, including four that encode protease systems (ClpP1/C, ClpP2/C, PtrB and HtrA-like protease Rv1043c) and three that encode chaperones (Acr2, ClpB and the chaperonin Rv3269). Thus, M. tuberculosis ClgR controls a larger network of protein homeostatic and regulatory systems than ClgR in any other bacterium studied to date. We demonstrate that ClgR-regulated transcriptional activation of these systems is essential for M. tuberculosis to replicate in macrophages. Furthermore, we observe that this defect is manifest early in infection, as M. tuberculosis lacking ClgR is deficient in the ability to control phagosome pH 1 h post-phagocytosis. en application/pdf https://research.wur.nl/en/publications/clgr-regulation-of-chaperone-and-protease-systems-is-essential-fo 10.1099/mic.0.042275-0 https://edepot.wur.nl/160832 alpha-crystallin bacillus-subtilis clp atpases corynebacterium-glutamicum gene-expression gram-positive bacteria heat-shock response microarray data quality-control sigma-factor sigma(h) Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic alpha-crystallin
bacillus-subtilis
clp atpases
corynebacterium-glutamicum
gene-expression
gram-positive bacteria
heat-shock response
microarray data
quality-control
sigma-factor sigma(h)
alpha-crystallin
bacillus-subtilis
clp atpases
corynebacterium-glutamicum
gene-expression
gram-positive bacteria
heat-shock response
microarray data
quality-control
sigma-factor sigma(h)
spellingShingle alpha-crystallin
bacillus-subtilis
clp atpases
corynebacterium-glutamicum
gene-expression
gram-positive bacteria
heat-shock response
microarray data
quality-control
sigma-factor sigma(h)
alpha-crystallin
bacillus-subtilis
clp atpases
corynebacterium-glutamicum
gene-expression
gram-positive bacteria
heat-shock response
microarray data
quality-control
sigma-factor sigma(h)
Estorninho, M.
Smith, H.E.
Thole, J.E.R.
Harders-Westerveen, S.F.
Kierzek, A.
Butler, R.E.
Neyrolles, O.
Stewart, G.R.
ClgR regulation of chaperone and protease systems is essential for Mycobacterium tuberculosis parasitism of the macrophage
description Chaperone and protease systems play essential roles in cellular homeostasis and have vital functions in controlling the abundance of specific cellular proteins involved in processes such as transcription, replication, metabolism and virulence. Bacteria have evolved accurate regulatory systems to control the expression and function of chaperones and potentially destructive proteases. Here, we have used a combination of transcriptomics, proteomics and targeted mutagenesis to reveal that the clp gene regulator (ClgR) of Mycobacterium tuberculosis activates the transcription of at least ten genes, including four that encode protease systems (ClpP1/C, ClpP2/C, PtrB and HtrA-like protease Rv1043c) and three that encode chaperones (Acr2, ClpB and the chaperonin Rv3269). Thus, M. tuberculosis ClgR controls a larger network of protein homeostatic and regulatory systems than ClgR in any other bacterium studied to date. We demonstrate that ClgR-regulated transcriptional activation of these systems is essential for M. tuberculosis to replicate in macrophages. Furthermore, we observe that this defect is manifest early in infection, as M. tuberculosis lacking ClgR is deficient in the ability to control phagosome pH 1 h post-phagocytosis.
format Article/Letter to editor
topic_facet alpha-crystallin
bacillus-subtilis
clp atpases
corynebacterium-glutamicum
gene-expression
gram-positive bacteria
heat-shock response
microarray data
quality-control
sigma-factor sigma(h)
author Estorninho, M.
Smith, H.E.
Thole, J.E.R.
Harders-Westerveen, S.F.
Kierzek, A.
Butler, R.E.
Neyrolles, O.
Stewart, G.R.
author_facet Estorninho, M.
Smith, H.E.
Thole, J.E.R.
Harders-Westerveen, S.F.
Kierzek, A.
Butler, R.E.
Neyrolles, O.
Stewart, G.R.
author_sort Estorninho, M.
title ClgR regulation of chaperone and protease systems is essential for Mycobacterium tuberculosis parasitism of the macrophage
title_short ClgR regulation of chaperone and protease systems is essential for Mycobacterium tuberculosis parasitism of the macrophage
title_full ClgR regulation of chaperone and protease systems is essential for Mycobacterium tuberculosis parasitism of the macrophage
title_fullStr ClgR regulation of chaperone and protease systems is essential for Mycobacterium tuberculosis parasitism of the macrophage
title_full_unstemmed ClgR regulation of chaperone and protease systems is essential for Mycobacterium tuberculosis parasitism of the macrophage
title_sort clgr regulation of chaperone and protease systems is essential for mycobacterium tuberculosis parasitism of the macrophage
url https://research.wur.nl/en/publications/clgr-regulation-of-chaperone-and-protease-systems-is-essential-fo
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