Interaction between membranous EBP50 and myosin 9 as a favorable prognostic factor in ovarian clear cell carcinoma

Abstract

Ezrin‐radixin‐moesin‐binding phosphoprotein 50 (EBP50) is a scaffold protein that is required for epithelial polarity. Knockout (KO) of membranous EBP50 (Me‐EBP50) in ovarian clear cell carcinoma (OCCC) cells induced an epithelial–mesenchymal transition (EMT)‐like phenotype, along with decreased proliferation, accelerated migration capability, and induction of cancer stem cell (CSC)‐like properties. Shotgun proteomics analysis of proteins that co‐immunoprecipitated with EBP50 revealed that Me‐EBP50 strongly interacts with myosin 9 (MYH9). Specific inhibition of MYH9 with blebbistatin phenocopied Me‐EBP50 KO, and blebbistatin treatment potentiated the effects of Me‐EBP50 KO. In OCCC cells from clinical samples, Me‐EBP50 and MYH9 were co‐localized at the apical plasma membrane. Patients with a combination of Me‐EBP50‐high and MYH9‐high scores had the best prognosis for overall and progression‐free survival. Our data suggest that Me‐EBP50 has tumor‐suppressive effects through the establishment and maintenance of epithelial polarization. By contrast, loss of Me‐EBP50 expression induces EMT‐like phenotypes, probably due to MYH9 dysfunction; this results in increased cell mobility and enhanced CSC‐like properties, which in turn promote OCCC progression.