Ets1 suppresses atopic dermatitis by suppressing pathogenic T cell responses
Choong-Gu Lee, Ho-Keun Kwon, Hyeji Kang, Young Kim, Jong Hee Nam, Young Ho Won, Sunhee Park, Taemook Kim, Keunsoo Kang, Dipayan Rudra, Chang-Duk Jun, Zee Yong Park, Sin-Hyeog Im
Choong-Gu Lee, Ho-Keun Kwon, Hyeji Kang, Young Kim, Jong Hee Nam, Young Ho Won, Sunhee Park, Taemook Kim, Keunsoo Kang, Dipayan Rudra, Chang-Duk Jun, Zee Yong Park, Sin-Hyeog Im
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Research Article Immunology

Ets1 suppresses atopic dermatitis by suppressing pathogenic T cell responses

Abstract

Atopic dermatitis (AD) is a complex inflammatory skin disease mediated by immune cells of both adaptive and innate types. Among them, CD4+ Th cells are one of major players of AD pathogenesis. Although the pathogenic role of Th2 cells has been well characterized, Th17/Th22 cells are also implicated in the pathogenesis of AD. However, the molecular mechanisms underlying pathogenic immune responses in AD remain unclear. We sought to investigate how the defect in the AD susceptibility gene, Ets1, is involved in AD pathogenesis in human and mice and its clinical relevance in disease severity by identifying Ets1 target genes and binding partners. Consistent with the decrease in ETS1 levels in severe AD patients and the experimental AD-like skin inflammation model, T cell–specific Ets1-deficient mice (Ets1ΔdLck) developed severe AD-like symptoms with increased pathogenic Th cell responses. A T cell–intrinsic increase of gp130 expression upon Ets1 deficiency promotes the gp130-mediated IL-6 signaling pathway, thereby leading to the development of severe AD-like symptoms. Functional blocking of gp130 by selective inhibitor SC144 ameliorated the disease pathogenesis by reducing pathogenic Th cell responses. Our results reveal a protective role of Ets1 in restricting pathogenic Th cell responses and suggest a potential therapeutic target for AD treatment.

Authors

Choong-Gu Lee, Ho-Keun Kwon, Hyeji Kang, Young Kim, Jong Hee Nam, Young Ho Won, Sunhee Park, Taemook Kim, Keunsoo Kang, Dipayan Rudra, Chang-Duk Jun, Zee Yong Park, Sin-Hyeog Im

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Figure 3

Specific deletion of Ets1 in mature T cells (Ets1ΔdLck) promotes AD pathogenesis by enhancing Th17 and Th2 responses.

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Specific deletion of Ets1 in mature T cells (Ets1ΔdLck) promotes AD path...
(A) Representative photographs of mouse ears from each group (upper) and H&E staining of the ear biopsies (lower) confirmed the clinical symptoms of AD. (B) Ear thickness during the course of AD was measured. The data are expressed as mean ± SD. ****P ≤ 0.0001 (from day 17–31); 2-way ANOVA. (C–E) Total IgE (C), HDM allergen-specific IgE (D), and total IgG levels (E) in serum from the mouse groups were measured by ELISA. (F) Ex vivo isolated total lymphocytes from skin-draining LNs under AD were given PMA and ionomycin stimulation with GolgiStop or GolgiPlug for 4 hours. Intracellular staining of IL-17, IL-22, and IFN-γ by CD4-gated T cells were analyzed. (G) Naive CD4+ T cells were isolated from LMC and Ets1ΔdLck mice by means of fluorescence-activated cell sorting and transferred i.v. into Rag1−/− mice (5 × 105/mouse) with WT CD45.1+CD19+ B cells (2 × 106/mouse). AD was induced the day after cell transfer. H&E staining of the ear biopsies confirmed clinical symptoms of AD. (H) Ear thickness during the course of AD was measured. The data are expressed as mean ± SD. **P ≤ 0.005; ***P ≤ 0.0005; ****P ≤ 0.0001 (from day 17–24); 2-way ANOVA. (I and J) The total IgE (J) and HDM allergen-specific IgE levels (J) in serum from the mouse groups were measured by ELISA. (K) Intracellular staining of IL-17 and IL-22 by CD4-gated T cells were analyzed. Data represent results from 3–4 independent experiments. Error bars represent the mean ± SEM. *P ≤ 0.05; ****P ≤ 0.0001; Student’s t test.