Mycobacterium tuberculosis exploits a molecular off switch of the immune system for intracellular survival
Mycobacterium tuberculosis exploits a molecular off switch of the immune system for intracellular survival
Mycobacterium tuberculosis (M. tuberculosis) survives and multiplies inside human macrophages by subversion of immune mechanisms. Although these immune evasion strategies are well characterised functionally, the underlying molecular mechanisms are poorly understood. Here we show that during infection of human whole blood with M. tuberculosis, host gene transcriptional suppression, rather than activation, is the predominant response. Spatial, temporal and functional characterisation of repressed genes revealed their involvement in pathogen sensing and phagocytosis, degradation within the phagolysosome and antigen processing and presentation. To identify mechanisms underlying suppression of multiple immune genes we undertook epigenetic analyses. We identified significantly differentially expressed microRNAs with known targets in suppressed genes. In addition, after searching regions upstream of the start of transcription of suppressed genes for common sequence motifs, we discovered novel enriched composite sequence patterns, which corresponded to Alu repeat elements, transposable elements known to have wide ranging influences on gene expression. Our findings suggest that to survive within infected cells, mycobacteria exploit a complex immune “molecular off switch” controlled by both microRNAs and Alu regulatory elements.
von Both, Ulrich
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Berk, Maurice
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Agapow, Paul-Michael
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Wright, Joseph D.
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Git, Anna
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Hamilton, Melissa Shea
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Goldgof, Greg
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Siddiqui, Nazneen
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Bellos, Evangelos
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Wright, Victoria J.
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Coin, Lachlan J.
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Newton, Sandra M.
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Levin, Michael
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12 January 2018
von Both, Ulrich
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Berk, Maurice
d61255bf-468d-4066-97cc-1c78e7a1a869
Agapow, Paul-Michael
ce412acf-0552-4038-af96-ace1f18fd4a2
Wright, Joseph D.
6573bc43-cbf3-43a3-b67a-80cc5166da96
Git, Anna
e38e8b1b-1efa-4c0b-8d83-bf7bc5c4f487
Hamilton, Melissa Shea
305af1be-9690-4066-a6e6-e9dece78cbdc
Goldgof, Greg
b193e129-325c-4d13-8f6e-367dcf101adb
Siddiqui, Nazneen
4f83c78e-4672-40f9-8d23-6954d56f566a
Bellos, Evangelos
719c8ef8-c89d-4231-810a-867dd59d31dc
Wright, Victoria J.
d067229c-5ab0-4ffd-b6a7-97984595bbcb
Coin, Lachlan J.
a1d76463-6047-43f6-a753-3ef99c2c0d2e
Newton, Sandra M.
1fa61f60-327d-4f11-9672-9d542bf18f08
Levin, Michael
bfd97a3d-1801-406e-9723-5accca311b2f
von Both, Ulrich, Berk, Maurice, Agapow, Paul-Michael, Wright, Joseph D., Git, Anna, Hamilton, Melissa Shea, Goldgof, Greg, Siddiqui, Nazneen, Bellos, Evangelos, Wright, Victoria J., Coin, Lachlan J., Newton, Sandra M. and Levin, Michael
(2018)
Mycobacterium tuberculosis exploits a molecular off switch of the immune system for intracellular survival.
Scientific Reports, 8, [661].
(doi:10.1038/s41598-017-18528-y).
Abstract
Mycobacterium tuberculosis (M. tuberculosis) survives and multiplies inside human macrophages by subversion of immune mechanisms. Although these immune evasion strategies are well characterised functionally, the underlying molecular mechanisms are poorly understood. Here we show that during infection of human whole blood with M. tuberculosis, host gene transcriptional suppression, rather than activation, is the predominant response. Spatial, temporal and functional characterisation of repressed genes revealed their involvement in pathogen sensing and phagocytosis, degradation within the phagolysosome and antigen processing and presentation. To identify mechanisms underlying suppression of multiple immune genes we undertook epigenetic analyses. We identified significantly differentially expressed microRNAs with known targets in suppressed genes. In addition, after searching regions upstream of the start of transcription of suppressed genes for common sequence motifs, we discovered novel enriched composite sequence patterns, which corresponded to Alu repeat elements, transposable elements known to have wide ranging influences on gene expression. Our findings suggest that to survive within infected cells, mycobacteria exploit a complex immune “molecular off switch” controlled by both microRNAs and Alu regulatory elements.
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Published date: 12 January 2018
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Local EPrints ID: 500670
URI: http://eprints.soton.ac.uk/id/eprint/500670
ISSN: 2045-2322
PURE UUID: 835c36d6-3001-46f2-99ec-cae75d628bf9
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Date deposited: 08 May 2025 17:07
Last modified: 09 May 2025 02:14
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Contributors
Author:
Ulrich von Both
Author:
Maurice Berk
Author:
Paul-Michael Agapow
Author:
Joseph D. Wright
Author:
Anna Git
Author:
Melissa Shea Hamilton
Author:
Greg Goldgof
Author:
Nazneen Siddiqui
Author:
Evangelos Bellos
Author:
Victoria J. Wright
Author:
Lachlan J. Coin
Author:
Sandra M. Newton
Author:
Michael Levin
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