医学
转录组
气道
表型
治疗方法
生物信息学
病理
药品
呼吸道
免疫学
阶段(地层学)
呼吸上皮
癌症研究
呼吸系统
气道阻塞
细胞
囊性纤维化
肺
呼吸粘膜
药物反应
呼吸道疾病
作者
Robert Lorenz Chua,Carmen Veith,Marc A. Schneider,Katharina Jechow,Gelsomina Kaufhold,Said Alkildani,Michelle Wild,Alexander Sudy,Elizabeth C. Xu,Michael Kreuter,Agnes W. Boots,Roland Eils,Nicolas Kahn,Christian Conrad
出处
期刊:Thorax
[BMJ]
日期:2026-02-18
卷期号:: thorax-2025
被引量:1
标识
DOI:10.1136/thorax-2025-223325
摘要
Introduction Idiopathic pulmonary fibrosis (IPF) is a progressive interstitial lung disease with limited treatment options. Most single-cell studies rely on end-stage explant lungs, leaving early disease mechanisms poorly understood. Profiling earlier stages may reveal distinct cellular phenotypes that could be pharmacologically targeted. Recent evidence also implicates airway epithelial cells in IPF disease development and progression. Methods To investigate early-stage IPF mechanisms, we profiled the airway mucosa of newly diagnosed, treatment-naïve patients using single-cell RNA-sequencing of air–liquid interface cultures. We further assessed the transcriptional and functional responses of these cells to antifibrotic drugs (nintedanib and pirfenidone) and a Src kinase inhibitor (saracatinib). Results Profiling of 129 986 transcriptomes identified primed fibroblasts ( PDGFRA + , SPP1 + ), dysregulated basal cells ( TP63 + , KRT5 + , FN1 + ), and proinflammatory airway epithelial cells (SAA, CXCL, CCL). Integrative analyses with explant-derived IPF atlases revealed different basal and fibroblast phenotypes spanning tissue regions and disease stages. In vitro, bronchial epithelial cells stimulated fibroblast proliferation and activation, and fibroblasts remained sensitive to TGF-β. While all three drugs attenuated many IPF signatures, saracatinib most effectively suppressed fibroblast activation and epithelial proliferation. Conclusions This study defines epithelial-mesenchymal programmes of the airway mucosa at an early, diagnostic stage of IPF and demonstrates distinct drug responses at single-cell resolution. By linking airway-derived phenotypes to antifibrotic efficacy, our findings highlight the therapeutic potential of saracatinib and may inform future treatment strategies.
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