A co-evolutionary perspective on humans and Mycobacterium tuberculosis in the era of systems biology
A co-evolutionary perspective on humans and Mycobacterium tuberculosis in the era of systems biology
Tuberculosis is once again the most fatal global infectious disease and has killed many more humans than any other pathogen. Despite the identification of Mycobacterium tuberculosis (Mtb) over 140 years ago, we have yet to control the epidemic. A central issue is the complexity of the host-pathogen interaction, with multiple underlying pathways leading to tuberculosis disease. This intricate relationship stems from the prolonged co-evolution of the pathogen with humans, resulting in diverse immunological processes leading to tuberculosis disease. Conversely, Mtb exposure may give a survival advantage through innate immune training, thereby providing selective pressure over millennia. Emerging methodologies, such as single cell and spatial transcriptomics, offer a golden opportunity to understand the immunology unpinning this host-pathogen interaction at unprecedented resolution. However, these analyses will be fundamentally flawed if they do not consider the intricacies of human Mtb infection. Here, we propose that attempts to find single immunological mechanisms leading to tuberculosis are hindering progress, and we must embrace the complexity of multiple paths to disease to allow the systems biology era to deliver transformative solutions.
Reichmann, Michaela T.
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Tezera, Liku B.
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Denney, Laura
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Schiff, Hannah Frances
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Vallejo Pulido, Andres
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Mansour, Salah
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Leslie, Alasdair
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Garay Baquero, Diana J.
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Elkington, Paul
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Reichmann, Michaela T.
d887f227-13a8-4384-a1c5-d3c229cd0642
Tezera, Liku B.
c5598dbf-23a8-4934-96a4-7c783bf9e776
Denney, Laura
8c59500d-bda8-489f-9e8d-e6ca79956d1b
Schiff, Hannah Frances
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Vallejo Pulido, Andres
27bc0b94-0c40-4fd1-9533-7e267d588c0a
Mansour, Salah
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Leslie, Alasdair
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Garay Baquero, Diana J.
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Elkington, Paul
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Reichmann, Michaela T., Tezera, Liku B., Denney, Laura, Schiff, Hannah Frances, Vallejo Pulido, Andres, Mansour, Salah, Leslie, Alasdair, Garay Baquero, Diana J. and Elkington, Paul
(2026)
A co-evolutionary perspective on humans and Mycobacterium tuberculosis in the era of systems biology.
eLife.
(doi:10.7554/eLife.108175.3).
Abstract
Tuberculosis is once again the most fatal global infectious disease and has killed many more humans than any other pathogen. Despite the identification of Mycobacterium tuberculosis (Mtb) over 140 years ago, we have yet to control the epidemic. A central issue is the complexity of the host-pathogen interaction, with multiple underlying pathways leading to tuberculosis disease. This intricate relationship stems from the prolonged co-evolution of the pathogen with humans, resulting in diverse immunological processes leading to tuberculosis disease. Conversely, Mtb exposure may give a survival advantage through innate immune training, thereby providing selective pressure over millennia. Emerging methodologies, such as single cell and spatial transcriptomics, offer a golden opportunity to understand the immunology unpinning this host-pathogen interaction at unprecedented resolution. However, these analyses will be fundamentally flawed if they do not consider the intricacies of human Mtb infection. Here, we propose that attempts to find single immunological mechanisms leading to tuberculosis are hindering progress, and we must embrace the complexity of multiple paths to disease to allow the systems biology era to deliver transformative solutions.
Text
TB_perspective_RRS_151225_accepted
- Accepted Manuscript
Text
elife-108175-v1
- Version of Record
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e-pub ahead of print date: 7 January 2026
Identifiers
Local EPrints ID: 509580
URI: http://eprints.soton.ac.uk/id/eprint/509580
ISSN: 2050-084X
PURE UUID: e98150bf-cb6b-46be-8470-64f22490f95f
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Date deposited: 25 Feb 2026 18:02
Last modified: 03 Mar 2026 03:02
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Contributors
Author:
Michaela T. Reichmann
Author:
Laura Denney
Author:
Hannah Frances Schiff
Author:
Andres Vallejo Pulido
Author:
Alasdair Leslie
Author:
Diana J. Garay Baquero
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