VEGF/Src signaling mediated pleural barrier damage and increased permeability contributes to sub-pleural pulmonary fibrosis.

2021
The distribution of fibrosis in idiopathic pulmonary fibrosis (IPF) is sub-pleural with basal predominance. Alveolar epithelial cell was considered as the key cell in the initial phase of IPF. However, the idea of activation and damage of alveolar epithelial cells is very difficult to explain why fibrosis distributes in the sub-pleural area. In this study, human pleural mesothelial cell (PMC) line and primary rat PMC was used as in vitro model. Intra-peritoneal injection of bleomycin was used for making a pulmonary fibrosis model. The integrity of cultured monolayer PMCs was determined by transepithelial electric resistance (TEER). Pleural permeability was estimated by measuring paracellular transport of fluorescein isothiocyanate (FITC)-conjugated dextran. Changes in lung tissue of IPF patients were analyzed by Masson's and immunofluorescence staining. We found bleomycin induced PMCs damage and increased PMCs permeability, increased PMCs permeability aggravated bleomycin-induced sub-pleural inflammation and pulmonary fibrosis. Moreover, bleomycin was found to activate VEGF/Src signaling which increased PMCs permeability. In vivo, inhibition of VEGF/Src signaling prevented bleomycin-induced sub-pleural pulmonary fibrosis. At last, activation of VEGF/Src signaling was confirmed in sub-pleural area in IPF patients. Taken together, our findings indicate that VEGF/Src signaling mediated pleural barrier damage and increased permeability which contributes to sub-pleural pulmonary fibrosis.
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