Effector-host interactome map links type III secretion systems in healthy gut microbiomes to immune modulation

Veronika Young; Bushra Dohai; Hridi Halder; Jaime Fernandez-Macgregor; Niels S van Heusden; Thomas C A Hitch; Benjamin Weller; Patrick Hyden; Deeya Saha; Daan K J Pieren; Sonja Rittchen; Luke Lambourne; Sibusiso B Maseko; Chung-Wen Lin; Ye Min Tun; Jonas Bibus; Luisa Pletschacher; Mégane Boujeant; Sébastien A Choteau; Lou Bergogne; Jérémie Perrin; Franziska Ober; Patrick Schwehn; Simin T Rothballer; Melina Altmann; Stefan Altmann; Alexandra Strobel; Michael Rothballer; Marie Tofaute; Daniel Kotlarz; Matthias Heinig; Thomas Clavel; Michael A Calderwood; Marc Vidal; Jean-Claude Twizere; Renaud Vincentelli; Daniel Krappmann; Marianne Boes; Claudia Falter; Thomas Rattei; Christine Brun; Andreas Zanzoni; Pascal Falter-Braun

doi:10.1038/s41564-025-02241-y

Effector-host interactome map links type III secretion systems in healthy gut microbiomes to immune modulation

Veronika Young
, Bushra Dohai
, Hridi Halder
, Jaime Fernandez-Macgregor
, Niels S van Heusden
, Thomas C A Hitch
, Benjamin Weller
, Patrick Hyden
, Deeya Saha
, Daan K J Pieren
, Sonja Rittchen
, Luke Lambourne
, Sibusiso B Maseko
, Chung-Wen Lin
, Ye Min Tun
, Jonas Bibus
, Luisa Pletschacher
, Mégane Boujeant
, Sébastien A Choteau
, Lou Bergogne

Jérémie Perrin, Franziska Ober, Patrick Schwehn, Simin T Rothballer, Melina Altmann, Stefan Altmann, Alexandra Strobel, Michael Rothballer, Marie Tofaute, Daniel Kotlarz, Matthias Heinig, Thomas Clavel, Michael A Calderwood, Marc Vidal, Jean-Claude Twizere, Renaud Vincentelli, Daniel Krappmann, Marianne Boes, Claudia Falter, Thomas Rattei, Christine Brun, Andreas Zanzoni, Pascal Falter-Braun^*

^*Corresponding author for this work

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

Abstract

Pseudomonadota (formerly Proteobacteria) are prevalent in the commensal human gut microbiota, but also include many pathogens that rely on secretion systems to support pathogenicity by injecting proteins into host cells. Here we show that 80% of Pseudomonadota from healthy gut microbiomes also have intact type III secretion systems (T3SS). Candidate effectors predicted by machine learning display sequence and structural features that are distinct from those of pathogen effectors. Towards a systems-level functional understanding, we experimentally constructed a protein-protein meta-interactome map between human proteins and commensal effectors. Network analyses uncovered that effector-targeted neighbourhoods are enriched for genetic variation linked to microbiome-associated conditions, including autoimmune and metabolic diseases. Metagenomic analysis revealed effector enrichment in Crohn's disease but depletion in ulcerative colitis. Functionally, commensal effectors can translocate into human cells and modulate NF-κB signalling and cytokine secretion in vitro. Our findings indicate that T3SS contribute to microorganism-host cohabitation and that effector-host protein interactions may represent an underappreciated route by which commensal gut microbiota influences health.

Original language	English
Pages (from-to)	442-460
Number of pages	19
Journal	Nature Microbiology
Volume	11
Issue number	2
DOIs	https://doi.org/10.1038/s41564-025-02241-y
Publication status	Published - Feb 2026

Keywords

Bacterial Proteins/metabolism
Cytokines/metabolism
Gastrointestinal Microbiome/immunology
Host Microbial Interactions/immunology
Host-Pathogen Interactions/immunology
Humans
Metagenomics
NF-kappa B/metabolism
Protein Interaction Maps
Type III Secretion Systems/genetics

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s41564-025-02241-yFinal published version, 10.5 MBLicence: CC BY

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Young, V., Dohai, B., Halder, H., Fernandez-Macgregor, J., van Heusden, N. S., Hitch, T. C. A., Weller, B., Hyden, P., Saha, D., Pieren, D. K. J., Rittchen, S., Lambourne, L., Maseko, S. B., Lin, C.-W., Tun, Y. M., Bibus, J., Pletschacher, L., Boujeant, M., Choteau, S. A., ... Falter-Braun, P. (2026). Effector-host interactome map links type III secretion systems in healthy gut microbiomes to immune modulation. Nature Microbiology, 11(2), 442-460. https://doi.org/10.1038/s41564-025-02241-y

@article{88a200dae95c470db9e3c48f1ba0a7ad,

title = "Effector-host interactome map links type III secretion systems in healthy gut microbiomes to immune modulation",

abstract = "Pseudomonadota (formerly Proteobacteria) are prevalent in the commensal human gut microbiota, but also include many pathogens that rely on secretion systems to support pathogenicity by injecting proteins into host cells. Here we show that 80\% of Pseudomonadota from healthy gut microbiomes also have intact type III secretion systems (T3SS). Candidate effectors predicted by machine learning display sequence and structural features that are distinct from those of pathogen effectors. Towards a systems-level functional understanding, we experimentally constructed a protein-protein meta-interactome map between human proteins and commensal effectors. Network analyses uncovered that effector-targeted neighbourhoods are enriched for genetic variation linked to microbiome-associated conditions, including autoimmune and metabolic diseases. Metagenomic analysis revealed effector enrichment in Crohn's disease but depletion in ulcerative colitis. Functionally, commensal effectors can translocate into human cells and modulate NF-κB signalling and cytokine secretion in vitro. Our findings indicate that T3SS contribute to microorganism-host cohabitation and that effector-host protein interactions may represent an underappreciated route by which commensal gut microbiota influences health.",

keywords = "Bacterial Proteins/metabolism, Cytokines/metabolism, Gastrointestinal Microbiome/immunology, Host Microbial Interactions/immunology, Host-Pathogen Interactions/immunology, Humans, Metagenomics, NF-kappa B/metabolism, Protein Interaction Maps, Type III Secretion Systems/genetics",

author = "Veronika Young and Bushra Dohai and Hridi Halder and Jaime Fernandez-Macgregor and \{van Heusden\}, \{Niels S\} and Hitch, \{Thomas C A\} and Benjamin Weller and Patrick Hyden and Deeya Saha and Pieren, \{Daan K J\} and Sonja Rittchen and Luke Lambourne and Maseko, \{Sibusiso B\} and Chung-Wen Lin and Tun, \{Ye Min\} and Jonas Bibus and Luisa Pletschacher and M{\'e}gane Boujeant and Choteau, \{S{\'e}bastien A\} and Lou Bergogne and J{\'e}r{\'e}mie Perrin and Franziska Ober and Patrick Schwehn and Rothballer, \{Simin T\} and Melina Altmann and Stefan Altmann and Alexandra Strobel and Michael Rothballer and Marie Tofaute and Daniel Kotlarz and Matthias Heinig and Thomas Clavel and Calderwood, \{Michael A\} and Marc Vidal and Jean-Claude Twizere and Renaud Vincentelli and Daniel Krappmann and Marianne Boes and Claudia Falter and Thomas Rattei and Christine Brun and Andreas Zanzoni and Pascal Falter-Braun",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2026.",

year = "2026",

month = feb,

doi = "10.1038/s41564-025-02241-y",

language = "English",

volume = "11",

pages = "442--460",

journal = "Nature Microbiology",

issn = "2058-5276",

publisher = "Nature Research",

number = "2",

}

Young, V, Dohai, B, Halder, H, Fernandez-Macgregor, J, van Heusden, NS, Hitch, TCA, Weller, B, Hyden, P, Saha, D, Pieren, DKJ, Rittchen, S, Lambourne, L, Maseko, SB, Lin, C-W, Tun, YM, Bibus, J, Pletschacher, L, Boujeant, M, Choteau, SA, Bergogne, L, Perrin, J, Ober, F, Schwehn, P, Rothballer, ST, Altmann, M, Altmann, S, Strobel, A, Rothballer, M, Tofaute, M, Kotlarz, D, Heinig, M, Clavel, T, Calderwood, MA, Vidal, M, Twizere, J-C, Vincentelli, R, Krappmann, D, Boes, M, Falter, C, Rattei, T, Brun, C, Zanzoni, A & Falter-Braun, P 2026, 'Effector-host interactome map links type III secretion systems in healthy gut microbiomes to immune modulation', Nature Microbiology, vol. 11, no. 2, pp. 442-460. https://doi.org/10.1038/s41564-025-02241-y

TY - JOUR

T1 - Effector-host interactome map links type III secretion systems in healthy gut microbiomes to immune modulation

AU - Young, Veronika

AU - Dohai, Bushra

AU - Halder, Hridi

AU - Fernandez-Macgregor, Jaime

AU - van Heusden, Niels S

AU - Hitch, Thomas C A

AU - Weller, Benjamin

AU - Hyden, Patrick

AU - Saha, Deeya

AU - Pieren, Daan K J

AU - Rittchen, Sonja

AU - Lambourne, Luke

AU - Maseko, Sibusiso B

AU - Lin, Chung-Wen

AU - Tun, Ye Min

AU - Bibus, Jonas

AU - Pletschacher, Luisa

AU - Boujeant, Mégane

AU - Choteau, Sébastien A

AU - Bergogne, Lou

AU - Perrin, Jérémie

AU - Ober, Franziska

AU - Schwehn, Patrick

AU - Rothballer, Simin T

AU - Altmann, Melina

AU - Altmann, Stefan

AU - Strobel, Alexandra

AU - Rothballer, Michael

AU - Tofaute, Marie

AU - Kotlarz, Daniel

AU - Heinig, Matthias

AU - Clavel, Thomas

AU - Calderwood, Michael A

AU - Vidal, Marc

AU - Twizere, Jean-Claude

AU - Vincentelli, Renaud

AU - Krappmann, Daniel

AU - Boes, Marianne

AU - Falter, Claudia

AU - Rattei, Thomas

AU - Brun, Christine

AU - Zanzoni, Andreas

AU - Falter-Braun, Pascal

PY - 2026/2

Y1 - 2026/2

N2 - Pseudomonadota (formerly Proteobacteria) are prevalent in the commensal human gut microbiota, but also include many pathogens that rely on secretion systems to support pathogenicity by injecting proteins into host cells. Here we show that 80% of Pseudomonadota from healthy gut microbiomes also have intact type III secretion systems (T3SS). Candidate effectors predicted by machine learning display sequence and structural features that are distinct from those of pathogen effectors. Towards a systems-level functional understanding, we experimentally constructed a protein-protein meta-interactome map between human proteins and commensal effectors. Network analyses uncovered that effector-targeted neighbourhoods are enriched for genetic variation linked to microbiome-associated conditions, including autoimmune and metabolic diseases. Metagenomic analysis revealed effector enrichment in Crohn's disease but depletion in ulcerative colitis. Functionally, commensal effectors can translocate into human cells and modulate NF-κB signalling and cytokine secretion in vitro. Our findings indicate that T3SS contribute to microorganism-host cohabitation and that effector-host protein interactions may represent an underappreciated route by which commensal gut microbiota influences health.

AB - Pseudomonadota (formerly Proteobacteria) are prevalent in the commensal human gut microbiota, but also include many pathogens that rely on secretion systems to support pathogenicity by injecting proteins into host cells. Here we show that 80% of Pseudomonadota from healthy gut microbiomes also have intact type III secretion systems (T3SS). Candidate effectors predicted by machine learning display sequence and structural features that are distinct from those of pathogen effectors. Towards a systems-level functional understanding, we experimentally constructed a protein-protein meta-interactome map between human proteins and commensal effectors. Network analyses uncovered that effector-targeted neighbourhoods are enriched for genetic variation linked to microbiome-associated conditions, including autoimmune and metabolic diseases. Metagenomic analysis revealed effector enrichment in Crohn's disease but depletion in ulcerative colitis. Functionally, commensal effectors can translocate into human cells and modulate NF-κB signalling and cytokine secretion in vitro. Our findings indicate that T3SS contribute to microorganism-host cohabitation and that effector-host protein interactions may represent an underappreciated route by which commensal gut microbiota influences health.

KW - Bacterial Proteins/metabolism

KW - Cytokines/metabolism

KW - Gastrointestinal Microbiome/immunology

KW - Host Microbial Interactions/immunology

KW - Host-Pathogen Interactions/immunology

KW - Humans

KW - Metagenomics

KW - NF-kappa B/metabolism

KW - Protein Interaction Maps

KW - Type III Secretion Systems/genetics

U2 - 10.1038/s41564-025-02241-y

DO - 10.1038/s41564-025-02241-y

M3 - Article

C2 - 41588163

SN - 2058-5276

VL - 11

SP - 442

EP - 460

JO - Nature Microbiology

JF - Nature Microbiology

IS - 2

ER -

Effector-host interactome map links type III secretion systems in healthy gut microbiomes to immune modulation

Abstract

Keywords

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