Tumor cell invasiveness correlates with changes in integrin expression and localization

Abstract

In nontumorigenic mammary epithelial cells (EpH4), transforming growth factor-beta (TGFbeta1) causes cell cycle arrest/apoptosis, but induces epitheliomesenchymal transition (EMT) in Ha-Ras-transformed EpH4 cells (EpRas). EMT is closely correlated with late-stage tumor progression and results in fibroblastic, migratory cells displaying a mesenchymal gene expression program (FibRas). EpRas and FibRas cells showed strongly increased cell substrate adhesion to fibronectin, collagens I/IV and laminin 1. Furthermore, Ras transformation caused enhanced or de-novo expression of the integrin subunits beta1, alpha2 and alpha3, or alpha5 and alpha6, respectively, the latter subunits being even more strongly expressed in FibRas cells. Importantly, polarized EpRas cells expressed integrin subunits beta1 and alpha6 at distinct (apical and lateral) membrane domains, while FibRas cells coexpressed these integrins and alpha5 at the entire plasma membrane. During EMT, EpRas cells formed an alpha5beta1 complex and deposited its ligand fibronectin into the extracellular matrix. Function-blocking alpha5 antibodies attenuated migration, and caused massive apoptosis in EpRas cells undergoing TGFbeta1-induced EMT in collagen gels, but failed to affect EpRas- or FibRas-derived structures. We conclude that functional alpha5beta1 integrin is centrally implicated in EMT induction. Importantly, FibRas cells also failed to deposit the alpha6beta4 ligand laminin 5, suggesting that alpha6beta4 is no longer functional after EMT and replaced by mesenchymal integrins such as alpha5beta1.