OP27 High-dimensional mass cytometry reveals the immune cell landscape in inflammatory bowel disease

Abstract Background Inflammatory bowel disease (IBD) is characterised by chronic inflammation of the intestine. Studies on individual immune lineages have shown alterations in the innate and adaptive intestinal immune system implicated in IBD. However, a comprehensive analysis of the cell compositio...

Full description

Saved in:
Bibliographic Details
Published in:Journal of Crohn's and colitis 2019-01, Vol.13 (Supplement_1), p.S020-S020
Main Authors: van Unen, V, Li, N, Abdelaal, T, Kooy-Winkelaar, Y, Ouboter, L, Beyrend, G, Höllt, T, Mearin, L, Witte, A, Escher, H, Lelieveldt, B, van der Meulen - de Jong, A, Koning, F
Format: Article
Language:English
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Abstract Background Inflammatory bowel disease (IBD) is characterised by chronic inflammation of the intestine. Studies on individual immune lineages have shown alterations in the innate and adaptive intestinal immune system implicated in IBD. However, a comprehensive analysis of the cell composition in intestinal biopsies from IBD patients across all major immune lineages simultaneously was lacking. Methods In patients aged 10–40 years with a clinical suspicion of IBD, we took paired biopsies (N = 104) from ileum and colon (both inflamed and uninflamed mucosa if available) and blood samples in 23 IBD patients and in 15 controls with a normal colonoscopy. Single-cell suspensions were stained with a 36-antibody panel and analysed with mass cytometry. The generated dataset was analysed with Hierarchical t-SNE (HSNE) in the Cytosplore analysis and visualisation tool. Results In total, we identified 309 distinct cell clusters from the collective intestinal dataset containing 3.4 million cells in a data-driven manner. Here, controls clustered separate from patients, ileum samples separate from colon samples, and affected segments separate from unaffected segments (Figure 1A). However, affected samples from the different subgroups of IBD (Crohn’s disease, ulcerative colitis, undeterminate colitis) were mostly intermixed, suggesting similarities in the immune profiles. Moreover, we observed a large interindividual variation in the immune cell composition, indicative of unique individual ‘immune fingerprints’ in the intestinal tract. In addition, 19 subsets were significantly different between affected-IBD samples and unaffected-IBD samples/controls. Finally, in a correlation analysis, several CD4+ T-cell clusters correlated with ILC and myeloid cell clusters and were up-regulated in IBD-affected segments (Figure 1B, top-left network), while in particular TCRgd cell clusters (Figure 1B, top-right network) and a group of ILC clusters (Figure 1B, bottom network) were up-regulated in unaffected samples of patients and controls. Abstract OP027 – Figure 1. Integrated immune system analysis of immune cell infiltrates. (A) PCA-visualisation of samples clustered for 309 cell cluster frequencies. Coloured for clinical info. (B) Network representation of immune cell cluster correlations. Conclusions Our study provides evidence that a coordinated cellular network of both innate and adaptive immune cell types are implicated in IBD. Together with the evidence for the unique in
ISSN:1873-9946
1876-4479
DOI:10.1093/ecco-jcc/jjy222.026