Current pathophysiological findings indicate that damage to the alveolar epithelium plays a decisive role in the development of idiopathic pulmonary fibrosis (IPF). The available pharmacological interventions (i.e., oral pirfenidone and nintedanib) only slow down progression of the disease, but do not offer a cure. In order to develop new drug candidates, the pathophysiology of IPF needs to be better understood on a molecular level. It has previously been reported that a loss of caveolin-1 (Cav-1) contributes to profibrotic processes by causing reduced alveolar barrier function and fibrosis-like alterations of the lung-parenchyma. Conversely, overexpression of caveolin-1 appears to counteract the development of fibrosis by inhibiting the inflammasome NLRP3 and the associated expression of interleukin-1β. In this study, the interaction between Fyn-kinase and caveolin-1 in the alveolar epithelium of various bleomycin (BLM)/TGF-β damage models using precision-cut lung slices (PCLS), wildtype (WT) and caveolin-1 knockout (KO) mice as well as the human NCI-H441 cell line, were investigated. In WT mouse lung tissues, strong signals for Fyn-kinase were detected in alveolar epithelial type I cells, whereas in caveolin-1 KO animals, expression shifted to alveolar epithelial type II cells. Caveolin-1 and Fyn-kinase were found to be co-localized in isolated lipid rafts of NCI-H441 cell membrane fractions. These findings were corroborated by co-immunoprecipitation studies in which a co-localization of Cav-1 and Fyn-kinase was detected in the cell membrane of the alveolar epithelium. After TGF-β and BLM-induced damage to the alveolar epithelium both in PCLS and cell culture experiments, a decrease in caveolin-1 and Fyn-kinase was found. Furthermore, TEER (transepithelial electrical resistance) measurements indicated that TGF-β and BLM have a damaging effect on cell-cell contacts and thus impair the barrier function in NCI-H441 cell monolayers. This effect was attenuated after co-incubation with the Fyn-kinase inhibitor, PP-2. Our data suggest an involvement of Fyn-kinase and caveolin-1 in TGF-β/bleomycin-induced impairment of alveolar barrier function and thus a possible role in the early stages of pulmonary fibrosis. Fyn-kinase and/or its complex with caveolin-1 might, therefore, be novel therapeutic targets in IPF.
Keywords: Alveolar epithelial barrier function; Bleomycin-induced lung injury; Caveolin-1; Cellular junctions; Fyn-kinase; TGF-β-induced lung injury.
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