Notch1 Induces Defective Epithelial Surfactant Processing and Pulmonary Fibrosis

特发性肺纤维化 片状颗粒 肺纤维化 纤维化 医学 Notch信号通路 病理 细胞生物学 贾纳斯激酶 癌症研究 信号转导 生物 内科学
作者
Roxana Wasnick,Martina Korfei,Katarzyna Piskulak,Ingrid Henneke,Jochen Wilhelm,Poornima Mahavadi,Ruth C. Dartsch,Daniel von der Beck,Miriam Koch,Irina Shalashova,Astrid Weiß,Oleksiy Klymenko,Ingolf Askevold,Ludger Fink,Heiko Witt,Holger Hackstein,Elie El Agha,Saverio Bellusci,Walter Klepetko,Mélanie Königshoff,Oliver Eickelberg,Ralph T. Schermuly,Thomas Braun,Werner Seeger,Clemens Ruppert,Andreas Güenther
出处
期刊:American Journal of Respiratory and Critical Care Medicine [American Thoracic Society]
卷期号:207 (3): 283-299 被引量:22
标识
DOI:10.1164/rccm.202105-1284oc
摘要

Rationale: Although type II alveolar epithelial cells (AEC2s) are chronically injured in idiopathic pulmonary fibrosis (IPF), they contribute to epithelial regeneration in IPF. Objectives: We hypothesized that Notch signaling may contribute to AEC2 proliferation, dedifferentiation characterized by loss of surfactant processing machinery, and lung fibrosis in IPF. Methods: We applied microarray analysis, kinome profiling, flow cytometry, immunofluorescence analysis, western blotting, quantitative PCR, and proliferation and surface activity analysis to study epithelial differentiation, proliferation, and matrix deposition in vitro (AEC2 lines, primary murine/human AEC2s), ex vivo (human IPF-derived precision-cut lung slices), and in vivo (bleomycin and pepstatin application, Notch1 [Notch receptor 1] intracellular domain overexpression). Measurements and Main Results: We document here extensive SP-B and -C (surfactant protein-B and -C) processing defects in IPF AEC2s, due to loss of Napsin A, resulting in increased intra-alveolar surface tension and alveolar collapse and induction of endoplasmic reticulum stress in AEC2s. In vivo pharmacological inhibition of Napsin A results in the development of AEC2 injury and overt lung fibrosis. We also demonstrate that Notch1 signaling is already activated early in IPF and determines AEC2 fate by inhibiting differentiation (reduced lamellar body compartment, reduced capacity to process hydrophobic SP) and by causing increased epithelial proliferation and development of lung fibrosis, putatively via altered JAK (Janus kinase)/Stat (signal transducer and activator of transcription) signaling in AEC2s. Conversely, inhibition of Notch signaling in IPF-derived precision-cut lung slices improved the surfactant processing capacity of AEC2s and reversed fibrosis. Conclusions: Notch1 is a central regulator of AEC2 fate in IPF. It induces alveolar epithelial proliferation and loss of Napsin A and of surfactant proprotein processing, and it contributes to fibroproliferation.
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