Protective role of tissue-resident Tregs in a murine model of beryllium-induced disease
Shaikh M. Atif, Douglas G. Mack, Allison K. Martin, Andrew P. Fontenot
Shaikh M. Atif, Douglas G. Mack, Allison K. Martin, Andrew P. Fontenot
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Research Article Pulmonology

Protective role of tissue-resident Tregs in a murine model of beryllium-induced disease

Abstract

CD4+ T cells drive the immunopathogenesis of chronic beryllium disease (CBD), and their recruitment to the lung heralds the onset of granulomatous inflammation. We have shown that CD4+ Tregs control granuloma formation in an HLA-DP2 Tg model of CBD. In these mice, beryllium oxide (BeO) exposure resulted in the accumulation of 3 distinct CD4+ T cell subsets in the lung, with the majority of tissue-resident memory cells expressing FoxP3. The amount of Be regulated the number of total and antigen-specific CD4+ T cells and Tregs in the lungs of HLA-DP2 Tg mice. Depletion of Tregs increased the number of IFN-γ–producing CD4+ T cells and enhanced lung injury, while mice treated with IL-2/αIL-2 complexes had increased Tregs and reduced inflammation and Be-responsive T cells in the lung. BeO-experienced resident Tregs suppressed anti-CD3–induced proliferation of CD4+ T cells in a contact-dependent manner. CTLA-4 and ICOS blockade, as well as the addition of LPS to BeO-exposed mice, increased the effector T cell (Teff)/Treg ratio and enhanced lung injury. Collectively, these data show that the protective role of tissue-resident Tregs is dependent on quantity of Be exposure and is overcome by blocking immune regulatory molecules or additional environmental insults.

Authors

Shaikh M. Atif, Douglas G. Mack, Allison K. Martin, Andrew P. Fontenot

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Figure 3

BeO exposure induces a dose-dependent increase in tissue-resident Tregs in the lung.

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BeO exposure induces a dose-dependent increase in tissue-resident Tregs ...
Frequency (left panel) and number (right panel) of CD4+CD25+FoxP3+ T cells in the lungs of HLA-DP2 Tg mice sensitized with 1 (1×) or 3 (3×) doses of BeO and harvested at day 12 (A) or sensitized with 1 (1×), 3 (3×), or 7 (7×, sensitization/boost) BeO exposures and examined at day 21 (B). (C) Representative dot plots show CD103 and CD69 expression on CD4+CD25+FoxP3+ Tregs derived from the spleen (top panels) and lung (bottom panels) of mice exposed to BeO on 1 (1×), 3 (3×), or 7 (7×) occasions and examined at day 21. (D and E) Number of resident effector (RE, CD103CD69+) and resident memory (RM, CD103+CD69+) T cells among tissue-resident Tregs in HLA-DP2 Tg mice exposed to 1, 3, and 7 doses of BeO. (F) Representative histograms show expression of ICOS, Nrp-1, GITR, and CTLA-4 on tissue-specific CD25+FoxP3+CD4+ Tregs in mice exposed to 1 (1×, red) or 3 (3×, green) doses of BeO and analyzed at day 12 or exposed to 1 (1×, blue), 3 (3×, purple), or 7 (7×, brown) doses of BeO and analyzed at day 21. (GI) T cell homeostatic chemokines CXCL-10 (G), CCL19 (H), and CCL21 (I) were measured in the lung tissue lysates by ELISA. Data (mean ± SEM) are representative of 3 individual experiments (2–5 mice per group). Significance was determined by 1-way ANOVA (A, B, D, and E) and Mann-Whitney U test (GI). *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.