Evolution of Mycobacterium tuberculosis transcription regulation is associated with increased transmission and drug resistance

Peter H. Culviner; Abigail M. Frey; Qingyun Liu; Dang Thi Minh Ha; Phan Vuong Khac Thai; Do Dang Anh Thu; Nguyen Le Quang; Roger Calderon; Leonid Lecca; Maxine Caws; Sarah J. Dunstan; Megan B. Murray; Nguyen Thuy Thuong Thuong; Sarah M. Fortune

doi:10.1016/j.cell.2025.09.005

Evolution of Mycobacterium tuberculosis transcription regulation is associated with increased transmission and drug resistance

Peter H. Culviner
, Abigail M. Frey
, Qingyun Liu
, Dang Thi Minh Ha
, Phan Vuong Khac Thai
, Do Dang Anh Thu
, Nguyen Le Quang
, Roger Calderon
, Leonid Lecca
, Maxine Caws
, Sarah J. Dunstan
, Megan B. Murray
, Nguyen Thuy Thuong Thuong
, Sarah M. Fortune

Clinical Sciences

Harvard University
University of North Carolina at Chapel Hill
Pham Ngoc Thach Hospital
University of Oxford
Universidad de San Martín de Porres
Socios en Salud
Birat Nepal Medical Trust
Department of Infectious Diseases

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

Mycobacterium tuberculosis (Mtb) has co-evolved with humans for thousands of years and is characterized by variation in virulence, transmissibility, and disease phenotypes. To identify bacterial contributors to phenotypic diversity, we developed new RNA sequencing (RNA-seq) and phylogenomic tools to capture hundreds of Mtb isolate transcriptomes, link transcriptional and genetic variation, and find associations between variants and epidemiologic traits. Across 274 Mtb clinical isolates, we uncovered unexpected diversity in virulence gene expression, which we linked to known and unknown regulators. Surprisingly, we found that many isolates harbor variants associated with decreased expression of EsxA (Esat6) and EsxB (Cfp10), which are virulence effectors, dominant T cell antigens, and immunodiagnostic targets. Across >55,000 isolates, these variants associate with increased transmissibility, especially in drug-resistant Mtb strains. Our data suggest expression of Mtb virulence genes is evolving in response to drug-linked pressure, raising concerns about use of these targets in immunodiagnostics and next-generation vaccines.

Original language	English
Pages (from-to)	6620-6635.e14
Journal	Cell
Volume	188
Issue number	23
DOIs	https://doi.org/10.1016/j.cell.2025.09.005
Publication status	Published - 30 Sept 2025

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

antibiotic resistance
evolution
genome-wide association study
RNA-seq
transmission
tuberculosis
virulence system

Themes

Tuberculosis and Antimicrobial Resistance

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10.1016/j.cell.2025.09.005Licence: CC BY-NC-ND

PIIS0092867425010360Final published version, 7.57 MBLicence: CC BY-NC-ND

Cite this

Culviner, P. H., Frey, A. M., Liu, Q., Ha, D. T. M., Thai, P. V. K., Thu, D. D. A., Quang, N. L., Calderon, R., Lecca, L., Caws, M., Dunstan, S. J., Murray, M. B., Thuong, N. T. T., & Fortune, S. M. (2025). Evolution of Mycobacterium tuberculosis transcription regulation is associated with increased transmission and drug resistance. Cell, 188(23), 6620-6635.e14. https://doi.org/10.1016/j.cell.2025.09.005

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title = "Evolution of Mycobacterium tuberculosis transcription regulation is associated with increased transmission and drug resistance",

abstract = "Mycobacterium tuberculosis (Mtb) has co-evolved with humans for thousands of years and is characterized by variation in virulence, transmissibility, and disease phenotypes. To identify bacterial contributors to phenotypic diversity, we developed new RNA sequencing (RNA-seq) and phylogenomic tools to capture hundreds of Mtb isolate transcriptomes, link transcriptional and genetic variation, and find associations between variants and epidemiologic traits. Across 274 Mtb clinical isolates, we uncovered unexpected diversity in virulence gene expression, which we linked to known and unknown regulators. Surprisingly, we found that many isolates harbor variants associated with decreased expression of EsxA (Esat6) and EsxB (Cfp10), which are virulence effectors, dominant T cell antigens, and immunodiagnostic targets. Across >55,000 isolates, these variants associate with increased transmissibility, especially in drug-resistant Mtb strains. Our data suggest expression of Mtb virulence genes is evolving in response to drug-linked pressure, raising concerns about use of these targets in immunodiagnostics and next-generation vaccines.",

keywords = "antibiotic resistance, evolution, genome-wide association study, RNA-seq, transmission, tuberculosis, virulence system",

author = "Culviner, \{Peter H.\} and Frey, \{Abigail M.\} and Qingyun Liu and Ha, \{Dang Thi Minh\} and Thai, \{Phan Vuong Khac\} and Thu, \{Do Dang Anh\} and Quang, \{Nguyen Le\} and Roger Calderon and Leonid Lecca and Maxine Caws and Dunstan, \{Sarah J.\} and Murray, \{Megan B.\} and Thuong, \{Nguyen Thuy Thuong\} and Fortune, \{Sarah M.\}",

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doi = "10.1016/j.cell.2025.09.005",

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Culviner, PH, Frey, AM, Liu, Q, Ha, DTM, Thai, PVK, Thu, DDA, Quang, NL, Calderon, R, Lecca, L, Caws, M, Dunstan, SJ, Murray, MB, Thuong, NTT & Fortune, SM 2025, 'Evolution of Mycobacterium tuberculosis transcription regulation is associated with increased transmission and drug resistance', Cell, vol. 188, no. 23, pp. 6620-6635.e14. https://doi.org/10.1016/j.cell.2025.09.005

TY - JOUR

T1 - Evolution of Mycobacterium tuberculosis transcription regulation is associated with increased transmission and drug resistance

AU - Culviner, Peter H.

AU - Frey, Abigail M.

AU - Liu, Qingyun

AU - Ha, Dang Thi Minh

AU - Thai, Phan Vuong Khac

AU - Thu, Do Dang Anh

AU - Quang, Nguyen Le

AU - Calderon, Roger

AU - Lecca, Leonid

AU - Caws, Maxine

AU - Dunstan, Sarah J.

AU - Murray, Megan B.

AU - Thuong, Nguyen Thuy Thuong

AU - Fortune, Sarah M.

PY - 2025/9/30

Y1 - 2025/9/30

N2 - Mycobacterium tuberculosis (Mtb) has co-evolved with humans for thousands of years and is characterized by variation in virulence, transmissibility, and disease phenotypes. To identify bacterial contributors to phenotypic diversity, we developed new RNA sequencing (RNA-seq) and phylogenomic tools to capture hundreds of Mtb isolate transcriptomes, link transcriptional and genetic variation, and find associations between variants and epidemiologic traits. Across 274 Mtb clinical isolates, we uncovered unexpected diversity in virulence gene expression, which we linked to known and unknown regulators. Surprisingly, we found that many isolates harbor variants associated with decreased expression of EsxA (Esat6) and EsxB (Cfp10), which are virulence effectors, dominant T cell antigens, and immunodiagnostic targets. Across >55,000 isolates, these variants associate with increased transmissibility, especially in drug-resistant Mtb strains. Our data suggest expression of Mtb virulence genes is evolving in response to drug-linked pressure, raising concerns about use of these targets in immunodiagnostics and next-generation vaccines.

AB - Mycobacterium tuberculosis (Mtb) has co-evolved with humans for thousands of years and is characterized by variation in virulence, transmissibility, and disease phenotypes. To identify bacterial contributors to phenotypic diversity, we developed new RNA sequencing (RNA-seq) and phylogenomic tools to capture hundreds of Mtb isolate transcriptomes, link transcriptional and genetic variation, and find associations between variants and epidemiologic traits. Across 274 Mtb clinical isolates, we uncovered unexpected diversity in virulence gene expression, which we linked to known and unknown regulators. Surprisingly, we found that many isolates harbor variants associated with decreased expression of EsxA (Esat6) and EsxB (Cfp10), which are virulence effectors, dominant T cell antigens, and immunodiagnostic targets. Across >55,000 isolates, these variants associate with increased transmissibility, especially in drug-resistant Mtb strains. Our data suggest expression of Mtb virulence genes is evolving in response to drug-linked pressure, raising concerns about use of these targets in immunodiagnostics and next-generation vaccines.

KW - antibiotic resistance

KW - evolution

KW - genome-wide association study

KW - RNA-seq

KW - transmission

KW - tuberculosis

KW - virulence system

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DO - 10.1016/j.cell.2025.09.005

M3 - Article

C2 - 41033311

AN - SCOPUS:105021622355

SN - 0092-8674

VL - 188

SP - 6620-6635.e14

JO - Cell

JF - Cell

IS - 23

ER -

Evolution of Mycobacterium tuberculosis transcription regulation is associated with increased transmission and drug resistance

Abstract

UN SDGs

Keywords

Themes

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