Abstract: The present application discloses roles for miR-93 in treating hypoxia and ischemia. Endothelial cells (HUVEC) and myocytes (C2C12) expressed miR-93 and up-regulated miR-93 in response to hypoxia and serum starvation. Over-expression of miR-93 in HUVECs promoted cell proliferation, prevented hypoxia-induced apoptosis, and enhanced endothelial cell tube formation. miR-93 knockdown in HUVECs resulted in increased hypoxia-induced apoptosis and decreased tube formation. Over-expression or knockdown of miR-93 in myocytes resulted in reduced or increased hypoxia-induced apoptosis, respectively. Down-regulation of miR-93 in C57BL/6 mice with antagomiR resulted in attenuated perfusion recovery (% non-ischemic leg at day-21: Scramble 85.22.9 vs. AntagomiR-93 67.96). Over-expression of miR-93 in BALB/C mice improved perfusion recovery (% non-ischemic leg at day 21: PremiR-93 757.5 vs. Scramble 59.62.5).

Abstract: The present application discloses roles for miR-93 in treating hypoxia and ischemia. Endothelial cells (HUVEC) and myocytes (C2C12) expressed miR-93 and up-regulated miR-93 in response to hypoxia and serum starvation. Over-expression of miR-93 in HUVECs promoted cell proliferation, prevented hypoxia-induced apoptosis, and enhanced endothelial cell tube formation. miR-93 knockdown in HUVECs resulted in increased hypoxia-induced apoptosis and decreased tube formation. Over-expression or knockdown of miR-93 in myocytes resulted in reduced or increased hypoxia-induced apoptosis, respectively. Down-regulation of miR-93 in C57BL/6 mice with antagomiR resulted in attenuated perfusion recovery (% non-ischemic leg at day-21: Scramble 85.22.9 vs. AntagomiR-93 67.96). Over-expression of miR-93 in BALB/C mice improved perfusion recovery (% non-ischemic leg at day 21: PremiR-93 757.5 vs. Scramble 59.62.5).