MiR‐182 and miR‐203 induce mesenchymal to epithelial transition and self‐sufficiency of growth signals via repressing SNAI2 in prostate cells

MicroRNAs play critical roles in tumorigenesis and metastasis. Here, we report the dual functions of miR‐182 and miR‐203 in our previously described prostate cell model. MiR‐182 and miR‐203 were completely repressed during epithelial to mesenchymal transition (EMT) from prostate epithelial EP156T cells to the progeny mesenchymal nontransformed EPT1 cells. Re‐expression of miR‐182 or miR‐203 in EPT1 cells and prostate cancer PC3 cells induced mesenchymal to epithelial transition (MET) features. Simultaneously, miR‐182 and miR‐203 provided EPT1 cells with the ability to self‐sufficiency of growth signals, a well‐recognized oncogenic feature. Gene expression profiling showed high overlap of the genes affected by miR‐182 and miR‐203. SNAI2 was identified as a common target of miR‐182 and miR‐203. Knock‐down of SNAI2 in EPT1 cells phenocopied re‐expression of either miR‐182 or miR‐203 regarding both MET and self‐sufficiency of growth signals. Strikingly, considerable overlaps of changed genes were found between the re‐expression of miR‐182/203 and knock‐down of SNAI2. Finally, P‐cadherin was identified as a direct target of SNAI2. We conclude that miR‐182 and miR‐203 induce MET features and growth factor independent growth via repressing SNAI2 in prostate cells. Our findings shed new light on the roles of miR‐182/203 in cancer related processes.