STING activation in alveolar macrophages and group 2 innate lymphoid cells suppresses IL-33–driven type 2 immunopathology
Li She, Gema D. Barrera, Liping Yan, Hamad H. Alanazi, Edward G. Brooks, Peter H. Dube, Yilun Sun, Hong Zan, Daniel P. Chupp, Nu Zhang, Xin Zhang, Yong Liu, Xiao-Dong Li
Li She, Gema D. Barrera, Liping Yan, Hamad H. Alanazi, Edward G. Brooks, Peter H. Dube, Yilun Sun, Hong Zan, Daniel P. Chupp, Nu Zhang, Xin Zhang, Yong Liu, Xiao-Dong Li
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Research Article Immunology Inflammation

STING activation in alveolar macrophages and group 2 innate lymphoid cells suppresses IL-33–driven type 2 immunopathology

Abstract

2′3′-cGAMP is known as a nonclassical second messenger and small immune modulator that possesses potent antitumor and antiviral activities via inducing the stimulator of IFN genes–mediated (STING-mediated) signaling pathway. However, its function in regulating type 2 immune responses remains unknown. Therefore, we sought to determine a role of STING activation by 2′3′-cGAMP in type 2 inflammatory reactions in multiple mouse models of eosinophilic asthma. We discovered that 2′3′-cGAMP administration strongly attenuated type 2 lung immunopathology and airway hyperreactivity induced by IL-33 and a fungal allergen, Aspergillus flavus. Mechanistically, upon the respiratory delivery, 2′3′-cGAMP was mainly internalized by alveolar macrophages, in which it activated the STING/IFN regulatory factor 3/type I IFN signaling axis to induce the production of inhibitory factors containing IFN-α, which blocked the IL-33–mediated activation of group 2 innate lymphoid (ILC2) cells in vivo. We further demonstrated that 2′3′-cGAMP directly suppressed the proliferation and function of both human and mouse ILC2 cells in vitro. Taken together, our findings suggest that STING activation by 2′3′-cGAMP in alveolar macrophages and ILC2 cells can negatively regulate type 2 immune responses, implying that the respiratory delivery of 2′3′-cGAMP might be further developed as an alternative strategy for treating type 2 immunopathologic diseases such as eosinophilic asthma.

Authors

Li She, Gema D. Barrera, Liping Yan, Hamad H. Alanazi, Edward G. Brooks, Peter H. Dube, Yilun Sun, Hong Zan, Daniel P. Chupp, Nu Zhang, Xin Zhang, Yong Liu, Xiao-Dong Li

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Figure 2

2′3′-cGAMP inhibits A. flavus-induced type 2 lung inflammation.

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2′3′-cGAMP inhibits A. flavus-induced type 2 lung inflammation. (A) Grou...
(A) Groups of mice as indicated were treated with PBS, 2′3′-cGAMP, A. flavus, or A. flavus + 2′3′-cGAMP. BALF was collected and analyzed for differential immune cell types. The result was a pool of 2 independent experiments. Open circles, n = 3–7 per group. A P value of less than 0.05 was considered significant using unpaired Student’s t test. *P < 0.05, **P < 0.01, ***P < 0.001. (B) Administration of 2′3′-cGAMP decreased the percentage and number of lung eosinophils after exposure to A. flavus. Open circles, n = 3–8 per group. A P value of less than 0.05 was considered significant using unpaired Student’s t test. ****P < 0.0001. (C) Lung pathologies were assessed with H&E and PAS staining. Representative images (scale bars: 100 μm) and the percentage of PAS+ cells are shown here. Original magnification ×200 was used for counting the percentage of mucus-producing bronchial epithelial cells (-) (PAS+). ****P < 0.0001. (D) Airway hyperreactivity (AHR) was examined by Flexivent (Scireq). Airway resistance (R) was measured after exposure to increasing doses (6.25–50 mg/mL) of aerosolized methacholine. Open circles, n = 3–5 per group. A P value of less than 0.05 was considered significant. Statistics performed by 2-way ANOVA followed by Tukey’s multiple comparisons test. **P < 0.01, ***P < 0.001, ****P < 0.0001.