Frontiers in Immunology (Jun 2022)

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

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

DOI
https://doi.org/10.3389/fimmu.2022.893803
Journal volume & issue
Vol. 13

Abstract

Read online

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