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

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 - 13 Feb 2025

Keywords

chemotaxis
interferon-gamma
intestinal epithelium
T lymphocytes

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10.1093/jleuko/qiae205Licence: CC BY

qiae205Final published version, 2.25 MBLicence: CC BY

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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 = "chemotaxis, interferon-gamma, intestinal epithelium, T lymphocytes",

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.}",

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doi = "10.1093/jleuko/qiae205",

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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.

PY - 2025/2/13

Y1 - 2025/2/13

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 - chemotaxis

KW - interferon-gamma

KW - intestinal epithelium

KW - T lymphocytes

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JO - Journal of leukocyte biology

JF - Journal of leukocyte biology

IS - 2

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ER -

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

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