The epigenetic factor KDM2B regulates cell adhesion, small rho GTPases, actin cytoskeleton and migration in prostate cancer cells.

The histone demethylase KDM2B is an epigenetic factor with oncogenic properties that is regulated by the basic fibroblasts growth factor (FGF-2). It has recently been shown that KDM2B co-operates with Polycomb Group proteins to promote cell migration and angiogenesis in tumors. In the present study we addressed the role of KDM2B in regulating actin cytoskeleton signaling, cell-cell adhesion and migration of prostate tumor cells. We report here that KDM2B is functionally expressed in DU-145 prostate cancer cells, activated by FGF-2 and regulates EZH2. KDM2B knockdown induced potent up-regulation of gene transcription and protein expression of the epithelial markers E-cadherin and ZO-1, while KDM2B overexpression down-regulated the levels of both markers, suggesting control of cell adhesion by KDM2B. RhoA and RhoB protein expression and activity were diminished upon KDM2B-knockdown and upregulated in KDM2B-overexpressing cell clones. In accordance, actin reorganization with formation of stress fibers became evident in KDM2B-overexpressing cells and abolished in the presence of the Rho inhibitor C3 transferase. DU-145 cell migration was significantly enhanced in KDM2B overexpressing cells and abolished in C3-pretreated cells. Conversely, the retardation of cell migration observed in KDM2B knockdown cells was enhanced in C3-pretreated cells. These results establish a clear functional link between the epigenetic factor KDM2B and the regulation of cell adhesion and Rho-GTPases signaling that controls actin reorganization and cell migration.