Distinctive CD39+CD9+ lung interstitial macrophages suppress IL-23/Th17-mediated neutrophilic asthma by inhibiting NETosis [bulk RNA-Seq]

IL-23-Th17 signaling axis is responsible for neutrophilic inflammation in various barrier tissues. However, mechanistic links between IL-23 and Th17 activation remain unclear, despite of their critical contribution to chronic inflammatory diseases. Here, we discovered a novel signaling pathway linking IL-23 to Th17 activation in our neutrophil-dominant asthma (NDA) model. Through single-cell multi-omics analysis, we identified distinctive CD39+CD9+ interstitial macrophages (IMs) suppressed by IL-23. CD39+CD9+ IMs increased by IL-23p19 inhibitor suppressed NETosis, which inhibited Th17 activation. To inhibit NETosis, CD39+CD9+ IMs first attach to neutrophils in a CD9-dependent manner, and then remove ATP molecules near neutrophils in a CD39-dependent manner. Thus, our discovery of CD39+CD9+ IMs provides previously unrecognized signaling component linking IL-23 and NETosis for controlling Th17 activation/neutrophilic inflammation. We finally demonstrated the decreased number of CD39+CD9+ immune cells in patients with severe chronic rhinosinusitis and inflammatory bowel disease, suggesting CD39+CD9+ IMs as potential therapeutic targets for IL-23-Th17-mediated inflammatory diseases. RNA sequencing of CD39+CD9+ interstitial macrophages (IMs) and CD39-CD9- monocytes isolated from the lungs in neutrophil-dominant asthma mice under OVA+LPS/OVA+aIL-23p19 condition.