IL-33–dependent induction of allergic lung inflammation by FcγRIII signaling
Melissa Y. Tjota, … , Paul J. Bryce, Anne I. Sperling
Melissa Y. Tjota, … , Paul J. Bryce, Anne I. Sperling
Published April 15, 2013
Citation Information: J Clin Invest. 2013;123(5):2287-2297. https://doi.org/10.1172/JCI63802.
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IL-33–dependent induction of allergic lung inflammation by FcγRIII signaling

Abstract

Atopic asthma is a chronic inflammatory disease of the lungs generally marked by excessive Th2 inflammation. The role of allergen-specific IgG in asthma is still controversial; however, a receptor of IgG–immune complexes (IgG-ICs), FcγRIII, has been shown to promote Th2 responses through an unknown mechanism. Herein, we demonstrate that allergen-specific IgG-ICs, formed upon reexposure to allergen, promoted Th2 responses in two different models of IC-mediated inflammation that were independent of a preformed T cell memory response. Development of Th2-type airway inflammation was shown to be both FcγRIII and TLR4 dependent, and T cells were necessary and sufficient for this process to occur, even in the absence of type 2 innate lymphoid cells. We sought to identify downstream targets of FcγRIII signaling that could contribute to this process and demonstrated that bone marrow–derived DCs, alveolar macrophages, and respiratory DCs significantly upregulated IL-33 when activated through FcγRIII and TLR4. Importantly, IC-induced Th2 inflammation was dependent on the ST2/IL-33 pathway. Our results suggest that allergen-specific IgG can enhance secondary responses by ligating FcγRIII on antigen-presenting cells to augment development of Th2-mediated responses in the lungs via an IL-33–dependent mechanism.

Authors

Melissa Y. Tjota, Jesse W. Williams, Tiffany Lu, Bryan S. Clay, Tiara Byrd, Cara L. Hrusch, Donna C. Decker, Claudia Alves de Araujo, Paul J. Bryce, Anne I. Sperling

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Figure 4

IC-mediated Th2 inflammation is ST2 dependent.

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IC-mediated Th2 inflammation is ST2 dependent. (A) WT (C57BL/6 or St2+/+...
(A) WT (C57BL/6 or St2+/+ mice) or St2–/– mice were treated as outlined in Figure 1B. Airway inflammation was assessed by determining the number of eosinophils and CD4+ T cells in the BAL and (B) by H&E-stained sections of lung tissue from treated WT and St2–/– mice. Scale bars: 100 μm. (C) Perivascular and peribronchial inflammation were scored as described in Methods. (D) Lung cells from α-OVA–treated WT and St2–/– mice were restimulated in vitro with 2C11, and the amount of cytokines in culture supernatants was determined by Multiplex bead array. The data are combined from 2 independent experiments, with a total of at least 6 mice analyzed per group. Symbols represent individual mice, horizontal bars indicate the mean, and error bars indicate SEM (*P < 0.05; **P < 0.01; ***P < 0.001).