Interferon-gamma induces epithelial reprogramming driving CXCL11-mediated T-cell migration

Alessandro Cutilli; Suze A. Jansen; Francesca Paolucci; Marliek Van Hoesel; Cynthia L. Frederiks; Tessa A.M. Mulder; Theofilos Chalkiadakis; Michal Mokry; Stefan Prekovic; Enric Mocholi; Caroline A. Lindemans; Paul J. Coffer

doi:10.1093/jleuko/qiae205

Interferon-gamma induces epithelial reprogramming driving CXCL11-mediated T-cell migration

Alessandro Cutilli
, Suze A. Jansen
, Francesca Paolucci
, Marliek Van Hoesel
, Cynthia L. Frederiks
, Tessa A.M. Mulder
, Theofilos Chalkiadakis
, Michal Mokry
, Stefan Prekovic
, Enric Mocholi
, Caroline A. Lindemans
, Paul J. Coffer

Research related

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

1 Citation (Scopus)

Abstract

The cytokine interferon-gamma plays a multifaceted role in intestinal immune responses ranging from anti- to proinflammatory depending on the setting. Here, using a 3D co-culture system based on human intestinal epithelial organoids, we explore the capacity of interferon-gamma exposure to reprogram intestinal epithelia and thereby directly modulate lymphocyte responses. Interferon-gamma treatment of organoids led to transcriptional reprogramming, marked by a switch to a proinflammatory gene expression profile, including transcriptional upregulation of the chemokines CXCL9, CXCL10, and CXCL11. Proteomic analysis of organoid-conditioned medium posttreatment confirmed chemokine secretion. Interferon-gamma treatment of organoids led to enhanced T-cell migration in a CXCL11-dependent manner without affecting T-cell activation status. Taken together, our results suggest a specific role for CXCL11 in T-cell recruitment that could be targeted to prevent T-cell trafficking to the inflamed intestine.

Original language	English
Article number	qiae205
Journal	Journal of Leukocyte Biology
Volume	117
Issue number	2
DOIs	https://doi.org/10.1093/jleuko/qiae205
Publication status	Published - 1 Feb 2025

Keywords

T lymphocytes
chemotaxis
interferon-gamma
intestinal epithelium
Intestinal Mucosa/immunology
T-Lymphocytes/immunology
Cell Movement/drug effects
Lymphocyte Activation
Coculture Techniques
Humans
Interferon-gamma/pharmacology
Epithelial Cells/drug effects
Chemokine CXCL11/metabolism
Cellular Reprogramming/drug effects
Organoids/drug effects

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10.1093/jleuko/qiae205

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Cutilli, A., Jansen, S. A., Paolucci, F., Van Hoesel, M., Frederiks, C. L., Mulder, T. A. M., Chalkiadakis, T., Mokry, M., Prekovic, S., Mocholi, E., Lindemans, C. A., & Coffer, P. J. (2025). Interferon-gamma induces epithelial reprogramming driving CXCL11-mediated T-cell migration. Journal of Leukocyte Biology, 117(2), Article qiae205. https://doi.org/10.1093/jleuko/qiae205

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title = "Interferon-gamma induces epithelial reprogramming driving CXCL11-mediated T-cell migration",

abstract = "The cytokine interferon-gamma plays a multifaceted role in intestinal immune responses ranging from anti- to proinflammatory depending on the setting. Here, using a 3D co-culture system based on human intestinal epithelial organoids, we explore the capacity of interferon-gamma exposure to reprogram intestinal epithelia and thereby directly modulate lymphocyte responses. Interferon-gamma treatment of organoids led to transcriptional reprogramming, marked by a switch to a proinflammatory gene expression profile, including transcriptional upregulation of the chemokines CXCL9, CXCL10, and CXCL11. Proteomic analysis of organoid-conditioned medium posttreatment confirmed chemokine secretion. Interferon-gamma treatment of organoids led to enhanced T-cell migration in a CXCL11-dependent manner without affecting T-cell activation status. Taken together, our results suggest a specific role for CXCL11 in T-cell recruitment that could be targeted to prevent T-cell trafficking to the inflamed intestine.",

keywords = "T lymphocytes, chemotaxis, interferon-gamma, intestinal epithelium, Intestinal Mucosa/immunology, T-Lymphocytes/immunology, Cell Movement/drug effects, Lymphocyte Activation, Coculture Techniques, Humans, Interferon-gamma/pharmacology, Epithelial Cells/drug effects, Chemokine CXCL11/metabolism, Cellular Reprogramming/drug effects, Organoids/drug effects",

author = "Alessandro Cutilli and Jansen, \{Suze A.\} and Francesca Paolucci and \{Van Hoesel\}, Marliek and Frederiks, \{Cynthia L.\} and Mulder, \{Tessa A.M.\} and Theofilos Chalkiadakis and Michal Mokry and Stefan Prekovic and Enric Mocholi and Lindemans, \{Caroline A.\} and Coffer, \{Paul J.\}",

note = "{\textcopyright} The Author(s) 2024. Published by Oxford University Press on behalf of Society for Leukocyte Biology.",

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doi = "10.1093/jleuko/qiae205",

language = "English",

volume = "117",

journal = "Journal of Leukocyte Biology",

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T1 - Interferon-gamma induces epithelial reprogramming driving CXCL11-mediated T-cell migration

AU - Cutilli, Alessandro

AU - Jansen, Suze A.

AU - Paolucci, Francesca

AU - Van Hoesel, Marliek

AU - Frederiks, Cynthia L.

AU - Mulder, Tessa A.M.

AU - Chalkiadakis, Theofilos

AU - Mokry, Michal

AU - Prekovic, Stefan

AU - Mocholi, Enric

AU - Lindemans, Caroline A.

AU - Coffer, Paul J.

N1 - © The Author(s) 2024. Published by Oxford University Press on behalf of Society for Leukocyte Biology.

PY - 2025/2/1

Y1 - 2025/2/1

N2 - The cytokine interferon-gamma plays a multifaceted role in intestinal immune responses ranging from anti- to proinflammatory depending on the setting. Here, using a 3D co-culture system based on human intestinal epithelial organoids, we explore the capacity of interferon-gamma exposure to reprogram intestinal epithelia and thereby directly modulate lymphocyte responses. Interferon-gamma treatment of organoids led to transcriptional reprogramming, marked by a switch to a proinflammatory gene expression profile, including transcriptional upregulation of the chemokines CXCL9, CXCL10, and CXCL11. Proteomic analysis of organoid-conditioned medium posttreatment confirmed chemokine secretion. Interferon-gamma treatment of organoids led to enhanced T-cell migration in a CXCL11-dependent manner without affecting T-cell activation status. Taken together, our results suggest a specific role for CXCL11 in T-cell recruitment that could be targeted to prevent T-cell trafficking to the inflamed intestine.

AB - The cytokine interferon-gamma plays a multifaceted role in intestinal immune responses ranging from anti- to proinflammatory depending on the setting. Here, using a 3D co-culture system based on human intestinal epithelial organoids, we explore the capacity of interferon-gamma exposure to reprogram intestinal epithelia and thereby directly modulate lymphocyte responses. Interferon-gamma treatment of organoids led to transcriptional reprogramming, marked by a switch to a proinflammatory gene expression profile, including transcriptional upregulation of the chemokines CXCL9, CXCL10, and CXCL11. Proteomic analysis of organoid-conditioned medium posttreatment confirmed chemokine secretion. Interferon-gamma treatment of organoids led to enhanced T-cell migration in a CXCL11-dependent manner without affecting T-cell activation status. Taken together, our results suggest a specific role for CXCL11 in T-cell recruitment that could be targeted to prevent T-cell trafficking to the inflamed intestine.

KW - T lymphocytes

KW - chemotaxis

KW - interferon-gamma

KW - intestinal epithelium

KW - Intestinal Mucosa/immunology

KW - T-Lymphocytes/immunology

KW - Cell Movement/drug effects

KW - Lymphocyte Activation

KW - Coculture Techniques

KW - Humans

KW - Interferon-gamma/pharmacology

KW - Epithelial Cells/drug effects

KW - Chemokine CXCL11/metabolism

KW - Cellular Reprogramming/drug effects

KW - Organoids/drug effects

UR - https://www.scopus.com/pages/publications/86000671174

UR - https://www.mendeley.com/catalogue/ec1d4202-d126-3fd7-aeac-c960310fa0d1/

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DO - 10.1093/jleuko/qiae205

M3 - Article

C2 - 39302156

AN - SCOPUS:86000671174

SN - 0741-5400

VL - 117

JO - Journal of Leukocyte Biology

JF - Journal of Leukocyte Biology

IS - 2

M1 - qiae205

ER -

Interferon-gamma induces epithelial reprogramming driving CXCL11-mediated T-cell migration

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Keywords

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