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
View: Text | PDF
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

×

Figure 7

Beryllium-experienced Tregs suppress in vitro proliferation of anti-CD3 activated CD4+ T cells in a contact-dependent fashion.

Options: View larger image (or click on image) Download as PowerPoint
Beryllium-experienced Tregs suppress in vitro proliferation of anti-CD3 ...
(A and B) Representative histograms and cumulative frequency data show proliferation of CFSE-labeled naive CD4+ T cells (TC) stimulated with anti-CD3 (2 μg/mL) and cultured in vitro in a 1:1 ratio with lung-resident (Lg-resident) effector (CD44+CD25) or regulatory (CD25+FoxP3+) CD4+ T cells obtained at day 21 from BeO-sensitized/boosted HLA-DP2 Tg mice. Peripheral T effectors (CD44+CD25) and Tregs (CD25+FoxP3+) sorted from the spleen (Sp) of naive mice were used as control cells. (C and D) Transwell assay was performed using CFSE-labeled T cells added to the bottom of 96-well transwell plates coated with anti-CD3 mAb (2 μg/mL). CD25+FoxP3+ Tregs and CD44+CD25 cells sorted from the lungs of BeO-exposed HLA-DP2 Tg mice and peripheral T effectors (CD44+CD25) and Tregs (CD25+FoxP3+) sorted from naive HLA-DP2 Tg mouse spleen were added at the top of the transwell. Representative histograms (C) and cumulative frequency data (D) shows T cell proliferation (loss of CFSE) at day 5. Data (mean ± SEM) are representative of 3 individual experiments. Significance was determined by 1-way ANOVA. *P < 0.05, **P < 0.01, ****P < 0.0001.