IL-4Rα signaling in CD4+CD25+FoxP3+ T regulatory cells restrains airway inflammation via limiting local tissue IL-33
Jermaine Khumalo, Frank Kirstein, Sabelo Hadebe, Frank Brombacher
Jermaine Khumalo, Frank Kirstein, Sabelo Hadebe, Frank Brombacher
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Research Article Immunology

IL-4Rα signaling in CD4+CD25+FoxP3+ T regulatory cells restrains airway inflammation via limiting local tissue IL-33

Abstract

Impaired tolerance to innocuous particles during allergic asthma has been linked to increased plasticity of FoxP3+ regulatory T cells (Tregs) reprogramming into pathogenic effector cells, thus exacerbating airway disease. However, failure of tolerance mechanisms is driven by Th2 inflammatory signals. Therefore, the in vivo role of canonical IL-4 receptor α (IL-4Rα) signaling, an essential driver of Th2-type airway responses to allergens, on the regulatory function of FoxP3+ Tregs in allergic asthma was explored. Here, we used transgenic Foxp3cre IL-4Rα–/lox and littermate control mice to investigate the role of IL-4 and IL-13 signaling via Tregs in house dust mite–induced (HDM-induced) allergic airway disease. We sensitized mice intratracheally on day 0, challenged them on days 6–10, and analyzed airway hyperresponsiveness (AHR), airway inflammation, mucus production, and cellular profile on day 14. In the absence of IL-4Rα responsiveness on FoxP3+ Tregs, exacerbated AHR and airway inflammation were shown in HDM-sensitized mice. Interestingly, reduced induction of FoxP3+ Tregs accompanied increased IL-33 alarmin production and type 2 innate lymphoid cell activation in the lung, exacerbating airway hyperreactivity and lung eosinophilia. Taken together, our findings indicate that IL-4Rα–unresponsive FoxP3+ Tregs result in exaggerated innate Th2-type, IL-33–dependent airway inflammation and a break in tolerance during allergic asthma.

Authors

Jermaine Khumalo, Frank Kirstein, Sabelo Hadebe, Frank Brombacher

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Figure 5

Exacerbated innate type 2 cytokine production in lung of Foxp3cre IL-4Rα−/lox mice upon acute HDM challenge.

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Exacerbated innate type 2 cytokine production in lung of Foxp3cre IL-4Rα...
(A) BAL cytokines (IL-4, IL-5, IL-13, and IL-33) were measured by ELISA and corrected to the protein concentration. Scatter plot represents mean ± SEM of 2 pooled experiments (IL-4Rα−/lox n = 10, Foxp3cre IL-4Rα−/lox n = 12). (B) Flow cytometry plots of ILC2s, live+ singlets, and lymphocyte lineage SCA+CD127+T1/ST2+ and quantification in frequency of ST2+CD127+. Scatter plot represents mean ± SD of 1 representative experiment from 2 independent experiments (IL-4Rα−/lox n = 6, Foxp3cre IL-4Rα−/lox n = 6). (C) Flow cytometry plots and quantification of ILC2s producing intracellular IL-5 and IL-13 after 5 hours’ stimulation with PMA/ionomycin and monensin. Scatter plot data represent mean ± SD of 1 representative experiment from 2 independent experiments (IL-4Rα−/lox n = 6, Foxp3cre IL-4Rα−/lox n = 6). (D) Flow cytometry plots and quantification of epithelial cells (live, CD45EpCam+MHCII). Scatter plot data represent mean ± SD of 1 representative experiment from 3 independent experiments (IL-4Rα−/lox n = 6, Foxp3cre IL-4Rα−/lox n = 6). (E) Representative histogram plot and quantification of IL-33 MFI from epithelial cells measured by flow cytometry. Scatter plot data represent mean ± SD of 1 representative experiment from 2 independent experiments (IL-4Rα−/lox n = 6, Foxp3cre IL-4Rα−/lox n = 6). (F) Flow cytometry histogram of Ki67 proliferative marker expression of epithelial cells as gated in D and MFI. Scatter plot data represent mean ± SD of 1 representative experiment from 2 independent experiments (IL-4Rα−/lox n = 6, Foxp3cre IL-4Rα−/lox n = 6). *P < 0.05, **P < 0.01. Mann-Whitney U test was performed.