Pulmonary fibroblast-derived stem cell factor promotes neutrophilic asthma by augmenting IL-17A production from ILC3s
Jheng-Syuan Shao, Alan Chuan-Ying Lai, Wei-Chang Huang, Ko-Chien Wu, Po-Yu Chi, Yao-Ming Chang, Ya-Jen Chang
Jheng-Syuan Shao, Alan Chuan-Ying Lai, Wei-Chang Huang, Ko-Chien Wu, Po-Yu Chi, Yao-Ming Chang, Ya-Jen Chang
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Research Article Immunology Inflammation

Pulmonary fibroblast-derived stem cell factor promotes neutrophilic asthma by augmenting IL-17A production from ILC3s

Abstract

Group 3 innate lymphoid cells (ILC3s) have emerged as an important player in the pathogenesis of neutrophilic asthma. However, the regulatory mechanism supporting ILC3 responses in the lung remains largely unclear. Here, we demonstrated that stem cell factor (SCF) expression is significantly increased and positively correlated with IL-17A and MPO expression in asthmatic patients. Notably, we identified ILC3 as a major IL-17A–producing responder to SCF in the lung. In mice, SCF synergized with IL-1β/IL-23 to enhance pulmonary ILC3 activation and neutrophilic inflammation. Mechanistically, SCF promoted ILC3 proliferation and cytokine production. Transcriptomic analysis revealed that SCF treatment upregulated the genes related to proliferation and Th17 differentiation, associated with increased AKT and STAT3 signaling. In contrast, deficiency of SCF receptor c-Kit reduced ILC3 proliferation and IL-17A production, resulting in the amelioration of airway hyperreactivity (AHR) and neutrophilic inflammation in mouse neutrophilic asthma model. Furthermore, genetic deletion of SCF in fibroblasts revealed fibroblasts as the primary source of SCF for ILC3 activation in the lung. Moreover, administration of imatinib, a c-Kit inhibitor, alleviated LPS, air pollution or ovalbumin/LPS-induced AHR and neutrophilic inflammation. Our findings elucidated a positive modulatory role of SCF/c-Kit signaling in ILC3 responses during neutrophilic inflammation, offering a potential therapeutic target for neutrophilic asthma.

Authors

Jheng-Syuan Shao, Alan Chuan-Ying Lai, Wei-Chang Huang, Ko-Chien Wu, Po-Yu Chi, Yao-Ming Chang, Ya-Jen Chang

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Figure 3

c-Kit deficiency in ILC3s ameliorates IL-1β/IL-23-induced neutrophilic inflammation, AHR, and ILC3 responses.

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c-Kit deficiency in ILC3s ameliorates IL-1β/IL-23-induced neutrophilic i...
(AH) C57BL/6 (WT) and c-Kit deficient (KitW-sh) mice intranasally (i.n.) received IL-1β and IL-23 for 3 days (Days 0–2) and were sacrificed on day 6 for analysis. (A) Lung resistance in response to increasing doses of methacholine. (B) Numbers of neutrophils (NEU) in BALF. (C) IL-17A protein levels in BALF and mRNA levels in lung lysates. (D) Muc5ac mRNA levels in lung lysates. (E) Flow cytometric analysis of ILC3s (F) Numbers of lung ILC3s (CD45+Thy1.2+Lin-ROR-γt+) and IL-17A+ ILC3s (CD45+Thy1.2+Lin-ROR-γt+IL-17A+). (G) Representative histograms of ROR-γt expression (H) MFI of ROR-γt in lung ILC3s. n = 4–7 per group. (IK) C57BL/6 (WT) and c-Kit deficient (KitW-sh) mice i.n. received IL-1β and IL-23 for 3 days (Days 0–2), BrdU for another 3 days (Days 3–5) and were sacrificed on day 6 for following analysis. (I) Experimental scheme. (J) Flow cytometry analysis of BrdU in ILC3s (CD45+Thy1.2+Lin-ROR-γt+). (K) Percentage of BrdU+ cells in ILC3s. n = 6–9 per group. (LQ) Il17acre/+ and Il17acre/+Kitfl/fl i.n. received IL-1β and IL-23 for 3 days (Days 0–2) and were sacrificed on day 6 for following analysis. (L) Numbers of NEU in BALF. (M) Muc5ac mRNA levels in lung lysates. (N) IL-17A protein levels in BALF. (O) Flow cytometric analysis of ILC3s (P) Numbers of lung ILC3s and IL-17A+ ILC3s. (Q) MFI of ROR-γt in lung ILC3s. n = 4–6 per group. Data are mean ± SEM and are representative of at least 2 independent experiments. Significance was determined by 2-way ANOVA (A), 1-way ANOVA (BD, F, H, and K), and 2-tailed unpaired Student’s t test (LN and PQ); *P <.05; **P <.01; ***P <.001.