Bronchioalveolar morphogenesis of human bronchial epithelial cells depending upon hepatocyte growth factor.

Lung alveolar regeneration occurs in adult human lungs as a result of proliferation, differentiation and alveolar morphogenesis of stem cells. It is increasingly being believed that bronchial epithelial cells (BECs) have a potential as stem cells, because they are potent to differentiate into multiple central and peripheral lung cell types in three-dimensional (3D) cultures, and they develop multiple foci with well-differentiated histogenesis after transformed into neoplastic cells. In this study, we investigated morphogenic abilities of HBE135 human BECs immortalized by E6/E7 oncogene in 3D cultures. When HBE135 cells were cultured alone or co-cultured with endothelial cells, the cells formed spherical colonies without branching. However, in co-culture with lung fibroblast MRC-9 cells, HBE135 cells formed colonies with bronchioalveolar-like complex branching, suggesting that MRC-9-derived soluble factor(s) are responsible for the branching formation. MRC-9 cells, not endothelial cells, were found to highly express hepatocyte growth factor (HGF), a soluble molecule involved in liver and kidney regeneration. An anti-HGF neutralizing antibody severely suppressed the complex branching formation, but addition of HGF could not sufficiently compensate the morphogenic effects of MRC-9 cells, suggesting that MCR-9-derived HGF was necessary but insufficient for the bronchioalveolar structure formation. Immunohistochemistry revealed that Met, a cognate receptor for HGF, was highly expressed and phosphorylated in neoplastic BECs from lung adenocarcinomas with well-differentiated, not poorly differentiated, histogenesis. These results are consistent with the notion that BECs have an aspect of stem cells. This aspect appears to become manifest through HGF-Met signalling pathway activation.