Conclusions
These data support the notion that PAR(1) activation on lung epithelial cells may represent an important mechanism leading to increased local CCL2 release in pulmonary fibrosis. Targeting PAR(1) on the pulmonary epithelium may offer a unique opportunity for therapeutic intervention in pulmonary fibrosis and other inflammatory and fibroproliferative conditions associated with excessive local generation of thrombin and CCL2 release.
Methods
Using immunohistochemistry and dual immunofluorescence, we examined PAR(1) and CCL2 expression in the bleomycin model and human IPF lung. PAR(1) and CCL2 gene expression was also assessed in laser-captured alveolar septae from patients with IPF. The ability of PAR(1) to induce CCL2 production by lung epithelial cells was also examined in vitro. Measurements and main
Results
We report for the first time that PAR(1) and CCL2 are coexpressed and co-up-regulated on the activated epithelium in fibrotic areas in IPF. Similar observations were found in bleomycin-induced lung injury. Furthermore, we show that thrombin is a potent inducer of CCL2 gene expression and protein release by cultured lung epithelial cells via a PAR(1)-dependent mechanism. Conclusions: These data support the notion that PAR(1) activation on lung epithelial cells may represent an important mechanism leading to increased local CCL2 release in pulmonary fibrosis. Targeting PAR(1) on the pulmonary epithelium may offer a unique opportunity for therapeutic intervention in pulmonary fibrosis and other inflammatory and fibroproliferative conditions associated with excessive local generation of thrombin and CCL2 release.