N-phenylquinazolin-4-amine-based EGFR TKIs suppress pulmonary fibrosis by modulating the EGFR/ERBB3 axis in epithelial-macrophage interaction

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Authors: Kim, Ji-Hee ; Choi, Seo-Hyun ; Nam, Jae-Kyung ; Park, Min-sik ; Seo, Haeng Ran ; Choi, Inhee ; Lee, Hae-June ; Cho, Jaeho ; Lee, Jeeyong ; Lee, Yoon-Jin

MeSH: Animals ; Bleomycin ; Disease Models, Animal ; Epithelial Cells / drug effects ; Epithelial Cells / metabolism ; ErbB Receptors* / antagonists & inhibitors ; ErbB Receptors* / genetics ; ErbB Receptors* / metabolism ; Humans ; Macrophages, Alveolar* / drug effects ; Macrophages, Alveolar* / metabolism ; Male ; Mice ; Mice, Inbred C57BL ; Protein Kinase Inhibitors* / pharmacology ; Pulmonary Fibrosis* / drug therapy ; Pulmonary Fibrosis* / metabolism ; Quinazolines* / pharmacology ; Quinazolinones / pharmacology ; Receptor, ErbB-3* / genetics ; Receptor, ErbB-3* / metabolism ; Signal Transduction / drug effects

Abstract: Although EGFR signaling plays a key role in pulmonary fibrosis (PF), its therapeutic targeting remains limited. This study evaluates N-phenylquinazolin-4-amine-based EGFR tyrosine kinase inhibitors (TKIs) in murine models of bleomycin- and radiation-induced PF. These TKIs attenuated fibrosis by modulating the alveolar epithelial EGFR/ERBB3 axis. EGFR ligands (EGF, EREG, NRG1) were upregulated in pro-inflammatory monocyte-derived alveolar macrophages during early inflammation, with sustained EGFR/ERBB3 phosphorylation in epithelial cells. EGFR/ERBB3 knockdown in human alveolar epithelial cells reduced inflammatory cytokines. Dacomitinib more effectively suppressed TNF-alpha, IFN-gamma, and IL-6 than nintedanib, suggesting a feedback loop driving fibrosis. Elevated phosphorylated EGFR/ERBB3 in RIPF and IPF tissues, and EGFR-related gene expression in epithelial cells from IPF single-cell RNA-seq data, further support clinical relevance. These findings highlight the importance of targeting immune-epithelial EGFR/ERBB3 signaling and support EGFR TKIs as a promising antifibrotic strategy.