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. 2021 Sep;99(8):894-906.
doi: 10.1111/imcb.12481. Epub 2021 Jul 27.

Tissue-resident regulatory T cells accumulate at human barrier lymphoid organs

Rehana V Hewavisenti  1   2 Angela L Ferguson  1   2   3 Georgia Gasparini  1 Tomoki Ohashi  1 Asolina Braun  4 Thomas S Watkins  5 John J Miles  5 Michael Elliott  6   7 Frederic Sierro  1   8 Carl G Feng  1   2   3 Warwick J Britton  2   6 Thomas Gebhardt  4 Stuart Tangye  9   10 Umaimainthan Palendira  1   2   3
Affiliations

Tissue-resident regulatory T cells accumulate at human barrier lymphoid organs

Rehana V Hewavisenti et al. Immunol Cell Biol. 2021 Sep.

Abstract

Regulatory T cells (Tregs) play a critical role in immune regulation and peripheral tolerance. While different types of Tregs have been identified in both mice and humans, much of our understanding about how these cells maintain immune homeostasis is derived from animal models. In this study, we examined two distinct human lymphoid organs to understand how repeated exposure to infections at the mucosal surface influences the phenotype and tissue localization of Tregs. We show that while Tregs in both tonsils and spleen express a tissue-resident phenotype, they accumulate in greater numbers in tonsils. Tonsillar-resident Tregs exhibit a highly suppressive phenotype with significantly increased expression of CD39, ICOS and CTLA-4 compared with their counterparts in circulation or in the spleen. Functionally, resident Tregs are able effectively to suppress T cell proliferation. We further demonstrate that tonsillar-resident Tregs share key features of T follicular helper cells. Spatial analysis reveals that the vast majority of resident Tregs are localized at the border of the T-zone and B cell follicle, as well as within the lymphocyte pockets enriched with resident memory T cells. Together our findings suggest that resident Tregs are strategically co-localized to maintain immune homeostasis at sites of recurrent inflammation.

Keywords: T follicular helper cells; T follicular regulatory; Tregs; tissue-resident memory T cells.

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References

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