Identification of a PD-L1+Tim-1+ iNKT subset that protects against fine particulate matter–induced airway inflammation
Christina Li-Ping Thio, Alan Chuan-Ying Lai, Jo-Chiao Wang, Po-Yu Chi, Ya-Lin Chang, Yu-Tse Ting, Shih-Yu Chen, Ya-Jen Chang
Christina Li-Ping Thio, Alan Chuan-Ying Lai, Jo-Chiao Wang, Po-Yu Chi, Ya-Lin Chang, Yu-Tse Ting, Shih-Yu Chen, Ya-Jen Chang
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Research Article Immunology Inflammation

Identification of a PD-L1+Tim-1+ iNKT subset that protects against fine particulate matter–induced airway inflammation

Abstract

Although air pollutants such as fine particulate matter (PM2.5) are associated with acute and chronic lung inflammation, the etiology of PM2.5-induced airway inflammation remains poorly understood. Here we report that PM2.5 triggered airway hyperreactivity (AHR) and neutrophilic inflammation with concomitant increases in Th1 and Th17 responses and epithelial cell apoptosis. We found that γδ T cells promoted neutrophilic inflammation and AHR through IL-17A. Unexpectedly, we found that invariant natural killer T (iNKT) cells played a protective role in PM2.5-induced pulmonary inflammation. Specifically, PM2.5 activated a suppressive CD4– iNKT cell subset that coexpressed Tim-1 and programmed cell death ligand 1 (PD-L1). Activation of this suppressive subset was mediated by Tim-1 recognition of phosphatidylserine on apoptotic cells. The suppressive iNKT subset inhibited γδ T cell expansion and intrinsic IL-17A production, and the inhibitory effects of iNKT cells on the cytokine-producing capacity of γδ T cells were mediated in part by PD-1/PD-L1 signaling. Taken together, our findings underscore a pathogenic role for IL-17A–producing γδ T cells in PM2.5-elicited inflammation and identify PD-L1+Tim-1+CD4– iNKT cells as a protective subset that prevents PM2.5-induced AHR and neutrophilia by inhibiting γδ T cell function.

Authors

Christina Li-Ping Thio, Alan Chuan-Ying Lai, Jo-Chiao Wang, Po-Yu Chi, Ya-Lin Chang, Yu-Tse Ting, Shih-Yu Chen, Ya-Jen Chang

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Figure 4

iNKT cell deficiency exacerbates PM2.5-induced pulmonary inflammation and IL-17A production.

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iNKT cell deficiency exacerbates PM2.5-induced pulmonary inflammation an...
(AF) BALB/c (WT) and CD1d–/– mice received daily i.n. exposure of PM2.5 for 3 days and were sacrificed 1 day after the last exposure. (A) Lung resistance in response to increasing doses of methacholine. (B) Cellular composition in BALF. (C) Representative flow cytometry plot showing IL-17A–producing γδ T cells (CD3+TCRγδ+ cells). Blue solid line: isotype-matched control; red solid line: Ab staining. (D) Total lung γδ T cells, assessed as in C. (E) Total IL-17A–producing γδ T cells, assessed as in C. (F) IL-17A level in the BALF. (GK) WT and Jα18–/– mice received daily i.n. exposure of PM2.5 for 3 days and were sacrificed 1 day after the last exposure. (G) Cellular composition in BALF. (H) Total IL-17A+ γδ T cells, assessed as in C. (I) IL-17A level in the BALF (left) and lungs (right). (J) Il17a levels in the lungs. (K) Representative images of H&E-stained histologic sections of lung tissues and quantification of bronchial thickness. (Scale bars: 50 μm; original magnification, ×40.) Data are shown as mean ± SEM from 2 independent experiments (n = 3–7 per group). Statistical analysis was performed using 2-way ANOVA (A), 1-way ANOVA (B and GJ), or an unpaired 2-tailed t test (DF). *P < 0.05, **P < 0.01, ***P < 0.001, and ****P < 0.0001. Ctrl, control; Eos, eosinophil; Lym, lymphocyte; Mac, macrophage; Max, maximum; Neu, neutrophil; RL, lung resistance.