CCR10+ ILC2s with ILC1‐like properties exhibit a protective function in severe allergic asthma

Abstract

Background

We previously showed that patients with severe allergic asthma have high numbers of circulating ILC2s expressing CCR10.

Method

Herein, CCR10⁺ ILC2s were further analyzed in the blood of healthy individuals or patients with allergic and non−allergic asthma. Characteristics of human CCR10⁺ and CCR10⁻ ILC2s were assessed by flow cytometry as well as single‐cell multiplex RT‐qPCR. The role of CCR10⁺ ILC2s in asthma pathophysiology was studied in allergen‐treated mice.

Results

When compared to healthy controls, CCR10⁺ ILC2s are enriched in the blood of both allergic and non‐allergic severe asthmatic patients, and these cells are recruited to the lungs. Plasma concentrations of the CCR10 ligand CCL27 are significantly increased in severe asthmatics when compared to non‐asthmatic patients. CCR10⁺ ILC2s secrete little T_H2 cytokines, but exhibit ILC1‐like properties, including a capacity to produce IFN‐γ. Also, single cell analysis reveals that the CCR10⁺ ILC2 subset is enriched in cells expressing Amphiregulin. CCR10⁺ ILC2s depletion, as well as blocking of IFN‐γ activity, exacerbates airway hyperreactivity in allergen‐challenged mice, providing evidence for a protective role of these cells in allergic inflammation.

Conclusions

Frequencies of circulating CCR10⁺ ILC2s and CCL27 plasma concentrations represent candidate markers of asthma severity. The characterization of CCR10⁺ ILC2s in human samples and in mouse asthma models suggests that these cells downregulate allergic inflammation through IFN‐γ production.

This article is protected by copyright. All rights reserved.

https://ift.tt/2P4TeXd