A153 IL10-PRODUCING GUT-RESIDENT TR1 CELLS ARE FOUND AT HIGH FREQUENCIES IN HEALTHY HUMANS AND MICE AND MAY PROTECT AGAINST MURINE ACUTE COLITIS
C Poloni, A Sze, S Lim, M Esmaeilzadeh, X Wang, L Cook, T Steiner

TL;DR
Gut-resident Tr1 cells, which produce IL-10, are abundant in humans and mice and may protect against colitis, suggesting potential as a therapy for inflammatory bowel disease.
Contribution
Identification of Tr1 cells as a major source of IL-10 in the gut and demonstration of their protective role in a murine model of colitis.
Findings
Tr1 cells are the main source of IL-10 in the gut, producing more than FOXP3+ T regulatory cells in both mice and humans.
Adoptive transfer of Tr1 cells reduces weight loss and colon damage in a mouse model of acute colitis.
Tr1 cells are long-lived and detectable up to 8 weeks post-transfer, with increased ICOS expression in adoptively transferred cells.
Abstract
Inflammatory bowel disease (IBD) affects an estimated 270,000 people in Canada and is increasing in prevalence. Current treatments, such as anti-TNFα mAbs, block inflammatory pathways, but require repeated dosing and do not reverse intestinal fibrosis. Additionally, a significant subset of IBD patients have relapsing disease and do not respond to biologics. We have shown type 1 regulatory cells (Tr1s) are capable of suppressing inflammation via IL-10, promote gut-healing and barrier function via IL-22, and are long-lasting in mouse models. We aimed to evaluate adoptive transfer of Tr1 cells as a therapy for IBD. We hypothesized that Tr1 cells can prevent inflammatory damage and fibrosis in the context of IBD. The frequency of non-FOXP3 (Tr1) regulatory cells were analyzed from IL-10-eGFP mice and human gut samples from the Australian Donation and Transplantation Biobank to determine…
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Taxonomy
TopicsDigestive system and related health · IL-33, ST2, and ILC Pathways
