The metastatic potential of osteosarcoma cells is inversely correlated to cell surface Fas expression. Downregulation of Fas allows osteosarcoma cells to escape Fas ligand-mediated apoptosis when they enter a Fas ligand-positive microenvironment such as the lung. We have previously demonstrated that miR-20a, encoded by the miR-17-92 cluster, downregulates Fas expression in osteosarcoma. We further demonstrated an inverse correlation between Fas expression and miR-20a expression. However, the mechanism of Fas regulation by miR-20a was still unclear. The purpose of the current study was to evaluate the mechanism of Fas regulation by miR-20a in vitro and test the effect of targeting miR-20a in vivo. We investigated whether miR-20a's downregulation of Fas was mediated by binding to the 3' untranslated region (3'-UTR) of Fas mRNA with the consequent induction of mRNA degradation or translational suppression. We identified and mutated two miR-20a binding sites on the Fas mRNA 3'-UTR. Using luciferase reporter assays, we demonstrated that miR-20a did not bind to either the wild-type or mutated Fas 3'-UTR. By contrast, overexpression of miR-20a resulted in downregulation of Fas promoter activity. Similarly, the inhibition of miR-20a increased Fas promoter activity. The critical region identified on the Fas promoter was between -240 bp and 150 bp. Delivery of anti-miR-20a in vivo using nanoparticles in mice with established osteosarcoma lung metastases resulted in upregulation of Fas and tumor growth inhibition. Taken together, our data suggest that miR-20a regulates Fas expression through the modulation of the Fas promoter and that targeting miR-20a using anti-miR-20a has therapeutic potential.
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