Identification of a Disease-Associated Network of Intestinal Immune Cells in Treatment-Naive Inflammatory Bowel Disease

Vincent van Unen; Laura F. Ouboter; Na Li; Mette Schreurs; Tamim Abdelaal; Yvonne Kooy-Winkelaar; Guillaume Beyrend; Thomas Höllt; P. W.Jeroen Maljaars; M. Luisa Mearin; Ahmed Mahfouz; Anne M.C. Witte; Cornelis H.M. Clemens; Sunje Abraham; Johanna C. Escher; Boudewijn P.F. Lelieveldt; M. Fernanda Pascutti; Andrea E. van der Meulen – de Jong; Frits Koning

doi:10.3389/fimmu.2022.893803

Identification of a Disease-Associated Network of Intestinal Immune Cells in Treatment-Naive Inflammatory Bowel Disease

Vincent van Unen, Laura F. Ouboter, Na Li, Mette Schreurs, Tamim Abdelaal, Yvonne Kooy-Winkelaar, Guillaume Beyrend, Thomas Höllt, P. W.Jeroen Maljaars, M. Luisa Mearin, Ahmed Mahfouz, Anne M.C. Witte, Cornelis H.M. Clemens, Sunje Abraham, Johanna C. Escher, Boudewijn P.F. Lelieveldt, M. Fernanda Pascutti, Andrea E. van der Meulen – de Jong, Frits Koning^*

^*Corresponding author for this work

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

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Abstract

Chronic intestinal inflammation underlies inflammatory bowel disease (IBD). Previous studies indicated alterations in the cellular immune system; however, it has been challenging to interrogate the role of all immune cell subsets simultaneously. Therefore, we aimed to identify immune cell types associated with inflammation in IBD using high-dimensional mass cytometry. We analyzed 188 intestinal biopsies and paired blood samples of newly-diagnosed, treatment-naive patients (n=42) and controls (n=26) in two independent cohorts. We applied mass cytometry (36-antibody panel) to resolve single cells and analyzed the data with unbiased Hierarchical-SNE. In addition, imaging-mass cytometry (IMC) was performed to reveal the spatial distribution of the immune subsets in the tissue. We identified 44 distinct immune subsets. Correlation network analysis identified a network of inflammation-associated subsets, including HLA-DR⁺CD38⁺ EM CD4⁺ T cells, T regulatory-like cells, PD1⁺ EM CD8⁺ T cells, neutrophils, CD27⁺ TCRγδ cells and NK cells. All disease-associated subsets were validated in a second cohort. This network was abundant in a subset of patients, independent of IBD subtype, severity or intestinal location. Putative disease-associated CD4⁺ T cells were detectable in blood. Finally, imaging-mass cytometry revealed the spatial colocalization of neutrophils, memory CD4⁺ T cells and myeloid cells in the inflamed intestine. Our study indicates that a cellular network of both innate and adaptive immune cells colocalizes in inflamed biopsies from a subset of patients. These results contribute to dissecting disease heterogeneity and may guide the development of targeted therapeutics in IBD.

Original language	English
Article number	893803
Journal	Frontiers in Immunology
Volume	13
DOIs	https://doi.org/10.3389/fimmu.2022.893803
Publication status	Published - 2022

Keywords

Crohn’s disease
CyTOF
inflammatory bowel diseases
intestinal immune cell network
mass cytometry
mucosal immunology
single-cell analysis
ulcerative colitis

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10.3389/fimmu.2022.893803

fimmu-13-893803Final published version, 14.7 MBLicence: CC BY

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van Unen, V., Ouboter, L. F., Li, N., Schreurs, M., Abdelaal, T., Kooy-Winkelaar, Y., Beyrend, G., Höllt, T., Maljaars, P. W. J., Mearin, M. L., Mahfouz, A., Witte, A. M. C., Clemens, C. H. M., Abraham, S., Escher, J. C., Lelieveldt, B. P. F., Pascutti, M. F., van der Meulen – de Jong, A. E., & Koning, F. (2022). Identification of a Disease-Associated Network of Intestinal Immune Cells in Treatment-Naive Inflammatory Bowel Disease. Frontiers in Immunology, 13, Article 893803. https://doi.org/10.3389/fimmu.2022.893803

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title = "Identification of a Disease-Associated Network of Intestinal Immune Cells in Treatment-Naive Inflammatory Bowel Disease",

abstract = "Chronic intestinal inflammation underlies inflammatory bowel disease (IBD). Previous studies indicated alterations in the cellular immune system; however, it has been challenging to interrogate the role of all immune cell subsets simultaneously. Therefore, we aimed to identify immune cell types associated with inflammation in IBD using high-dimensional mass cytometry. We analyzed 188 intestinal biopsies and paired blood samples of newly-diagnosed, treatment-naive patients (n=42) and controls (n=26) in two independent cohorts. We applied mass cytometry (36-antibody panel) to resolve single cells and analyzed the data with unbiased Hierarchical-SNE. In addition, imaging-mass cytometry (IMC) was performed to reveal the spatial distribution of the immune subsets in the tissue. We identified 44 distinct immune subsets. Correlation network analysis identified a network of inflammation-associated subsets, including HLA-DR+CD38+ EM CD4+ T cells, T regulatory-like cells, PD1+ EM CD8+ T cells, neutrophils, CD27+ TCRγδ cells and NK cells. All disease-associated subsets were validated in a second cohort. This network was abundant in a subset of patients, independent of IBD subtype, severity or intestinal location. Putative disease-associated CD4+ T cells were detectable in blood. Finally, imaging-mass cytometry revealed the spatial colocalization of neutrophils, memory CD4+ T cells and myeloid cells in the inflamed intestine. Our study indicates that a cellular network of both innate and adaptive immune cells colocalizes in inflamed biopsies from a subset of patients. These results contribute to dissecting disease heterogeneity and may guide the development of targeted therapeutics in IBD.",

keywords = "Crohn{\textquoteright}s disease, CyTOF, inflammatory bowel diseases, intestinal immune cell network, mass cytometry, mucosal immunology, single-cell analysis, ulcerative colitis",

author = "{van Unen}, Vincent and Ouboter, {Laura F.} and Na Li and Mette Schreurs and Tamim Abdelaal and Yvonne Kooy-Winkelaar and Guillaume Beyrend and Thomas H{\"o}llt and Maljaars, {P. W.Jeroen} and Mearin, {M. Luisa} and Ahmed Mahfouz and Witte, {Anne M.C.} and Clemens, {Cornelis H.M.} and Sunje Abraham and Escher, {Johanna C.} and Lelieveldt, {Boudewijn P.F.} and Pascutti, {M. Fernanda} and {van der Meulen – de Jong}, {Andrea E.} and Frits Koning",

year = "2022",

doi = "10.3389/fimmu.2022.893803",

language = "English",

volume = "13",

journal = "Frontiers in Immunology",

issn = "1664-3224",

publisher = "Frontiers Media",

}

van Unen, V, Ouboter, LF, Li, N, Schreurs, M, Abdelaal, T, Kooy-Winkelaar, Y, Beyrend, G, Höllt, T, Maljaars, PWJ, Mearin, ML, Mahfouz, A, Witte, AMC, Clemens, CHM, Abraham, S, Escher, JC, Lelieveldt, BPF, Pascutti, MF, van der Meulen – de Jong, AE & Koning, F 2022, 'Identification of a Disease-Associated Network of Intestinal Immune Cells in Treatment-Naive Inflammatory Bowel Disease', Frontiers in Immunology, vol. 13, 893803. https://doi.org/10.3389/fimmu.2022.893803

TY - JOUR

T1 - Identification of a Disease-Associated Network of Intestinal Immune Cells in Treatment-Naive Inflammatory Bowel Disease

AU - van Unen, Vincent

AU - Ouboter, Laura F.

AU - Li, Na

AU - Schreurs, Mette

AU - Abdelaal, Tamim

AU - Kooy-Winkelaar, Yvonne

AU - Beyrend, Guillaume

AU - Höllt, Thomas

AU - Maljaars, P. W.Jeroen

AU - Mearin, M. Luisa

AU - Mahfouz, Ahmed

AU - Witte, Anne M.C.

AU - Clemens, Cornelis H.M.

AU - Abraham, Sunje

AU - Escher, Johanna C.

AU - Lelieveldt, Boudewijn P.F.

AU - Pascutti, M. Fernanda

AU - van der Meulen – de Jong, Andrea E.

AU - Koning, Frits

PY - 2022

Y1 - 2022

N2 - Chronic intestinal inflammation underlies inflammatory bowel disease (IBD). Previous studies indicated alterations in the cellular immune system; however, it has been challenging to interrogate the role of all immune cell subsets simultaneously. Therefore, we aimed to identify immune cell types associated with inflammation in IBD using high-dimensional mass cytometry. We analyzed 188 intestinal biopsies and paired blood samples of newly-diagnosed, treatment-naive patients (n=42) and controls (n=26) in two independent cohorts. We applied mass cytometry (36-antibody panel) to resolve single cells and analyzed the data with unbiased Hierarchical-SNE. In addition, imaging-mass cytometry (IMC) was performed to reveal the spatial distribution of the immune subsets in the tissue. We identified 44 distinct immune subsets. Correlation network analysis identified a network of inflammation-associated subsets, including HLA-DR+CD38+ EM CD4+ T cells, T regulatory-like cells, PD1+ EM CD8+ T cells, neutrophils, CD27+ TCRγδ cells and NK cells. All disease-associated subsets were validated in a second cohort. This network was abundant in a subset of patients, independent of IBD subtype, severity or intestinal location. Putative disease-associated CD4+ T cells were detectable in blood. Finally, imaging-mass cytometry revealed the spatial colocalization of neutrophils, memory CD4+ T cells and myeloid cells in the inflamed intestine. Our study indicates that a cellular network of both innate and adaptive immune cells colocalizes in inflamed biopsies from a subset of patients. These results contribute to dissecting disease heterogeneity and may guide the development of targeted therapeutics in IBD.

AB - Chronic intestinal inflammation underlies inflammatory bowel disease (IBD). Previous studies indicated alterations in the cellular immune system; however, it has been challenging to interrogate the role of all immune cell subsets simultaneously. Therefore, we aimed to identify immune cell types associated with inflammation in IBD using high-dimensional mass cytometry. We analyzed 188 intestinal biopsies and paired blood samples of newly-diagnosed, treatment-naive patients (n=42) and controls (n=26) in two independent cohorts. We applied mass cytometry (36-antibody panel) to resolve single cells and analyzed the data with unbiased Hierarchical-SNE. In addition, imaging-mass cytometry (IMC) was performed to reveal the spatial distribution of the immune subsets in the tissue. We identified 44 distinct immune subsets. Correlation network analysis identified a network of inflammation-associated subsets, including HLA-DR+CD38+ EM CD4+ T cells, T regulatory-like cells, PD1+ EM CD8+ T cells, neutrophils, CD27+ TCRγδ cells and NK cells. All disease-associated subsets were validated in a second cohort. This network was abundant in a subset of patients, independent of IBD subtype, severity or intestinal location. Putative disease-associated CD4+ T cells were detectable in blood. Finally, imaging-mass cytometry revealed the spatial colocalization of neutrophils, memory CD4+ T cells and myeloid cells in the inflamed intestine. Our study indicates that a cellular network of both innate and adaptive immune cells colocalizes in inflamed biopsies from a subset of patients. These results contribute to dissecting disease heterogeneity and may guide the development of targeted therapeutics in IBD.

KW - Crohn’s disease

KW - CyTOF

KW - inflammatory bowel diseases

KW - intestinal immune cell network

KW - mass cytometry

KW - mucosal immunology

KW - single-cell analysis

KW - ulcerative colitis

UR - http://www.scopus.com/inward/record.url?scp=85134033332&partnerID=8YFLogxK

U2 - 10.3389/fimmu.2022.893803

DO - 10.3389/fimmu.2022.893803

M3 - Article

C2 - 35812429

AN - SCOPUS:85134033332

SN - 1664-3224

VL - 13

JO - Frontiers in Immunology

JF - Frontiers in Immunology

M1 - 893803

ER -

Identification of a Disease-Associated Network of Intestinal Immune Cells in Treatment-Naive Inflammatory Bowel Disease

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