Sirtuin 2 enhances allergic asthmatic inflammation
Yong Gyu Lee, … , John W. Christman, Megan N. Ballinger
Yong Gyu Lee, … , John W. Christman, Megan N. Ballinger
Published January 22, 2019
Citation Information: JCI Insight. 2019;4(4):e124710. https://doi.org/10.1172/jci.insight.124710.
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Research Article Immunology Pulmonology

Sirtuin 2 enhances allergic asthmatic inflammation

Abstract

Allergic eosinophilic asthma is a chronic condition causing airway remodeling resulting in lung dysfunction. We observed that expression of sirtuin 2 (Sirt2), a histone deacetylase, regulates the recruitment of eosinophils after sensitization and challenge with a triple antigen: dust mite, ragweed, and Aspergillus fumigatus (DRA). Our data demonstrate that IL-4 regulates the expression of Sirt2 isoform 3/5. Pharmacological inhibition of Sirt2 by AGK2 resulted in diminished cellular recruitment, decreased CCL17/TARC, and reduced goblet cell hyperplasia. YM1 and Fizz1 expression was reduced in AGK2-treated, IL-4–stimulated lung macrophages in vitro as well as in lung macrophages from AGK2-DRA–challenged mice. Conversely, overexpression of Sirt2 resulted in increased cellular recruitment, CCL17 production, and goblet cell hyperplasia following DRA challenge. Sirt2 isoform 3/5 was upregulated in primary human alveolar macrophages following IL-4 and AGK2 treatment, which resulted in reduced CCL17 and markers of alternative activation. These gain-of-function and loss-of-function studies indicate that Sirt2 could be developed as a treatment for eosinophilic asthma.

Authors

Yong Gyu Lee, Brenda F. Reader, Derrick Herman, Adam Streicher, Joshua A. Englert, Mathias Ziegler, Sangwoon Chung, Manjula Karpurapu, Gye Young Park, John W. Christman, Megan N. Ballinger

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Figure 2

Administration of AGK2, a selective Sirt2 inhibitor, attenuates allergic inflammation by modulating alternative activation of macrophages and CCL17 production.

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Administration of AGK2, a selective Sirt2 inhibitor, attenuates allergic...
AGK2 (10 mg/kg; i.p.) was administered 30 minutes prior to DRA challenge on days 12, 13, and 14. (A) Total lung cells were labeled with surface markers for CD45, CD3, CD11c, CD11b, Ly6G, and Siglec F, gated on CD45+ cells, and the percentage of eosinophils, alveolar macrophages, monocytes/interstitial macrophages, T cells, and neutrophils was determined. n = 5 mice/group; analyzed by 1-way ANOVA. (B) Whole lung histological sections were PAS stained. The images are representative of 5 experiments. Scale bar: 3 mm (top); 300 μm (bottom). (C). CCL17 production in BAL fluid was measured by ELISA. n = 5 mice/group; analyzed by 1-way ANOVA. (D) Alternative activation macrophage markers were assessed in whole lung tissue after DRA challenge by qPCR. n = 5 mice/group; analyzed by 1-way ANOVA. (E) Lung macrophages were isolated from WT mice and incubated with rmIL-4 (20 ng/ml) for 24 hours in the presence of AGK2, and expression of CCL17 and alternative activation markers was assessed by qPCR. n = 3 mice/group; analyzed by 1-way ANOVA. *P < 0.05, ****P < 0.001 when compared with WT control. #P < 0.05, ###P < 0.001, ####P < 0.0001 when compared within the groups.