Vascular endothelial cell-specific microRNA-15a inhibits angiogenesis in hindlimb ischemia.

The effects and potential mechanisms of the vascular endothelial cell (EC)-enriched microRNA-15a (miR-15a) on angiogenesis remain unclear. Here, we show a novel finding that EC-selective miR-15a transgenic overexpression leads to reduced blood vessel formation and local blood flow perfusion in mouse hindlimbs at 1-3 weeks after hindlimb ischemia. Mechanistically, gain- or loss-of-miR-15a function by lentiviral infection in ECs significantly reduces or increases tube formation, cell migration, and cell differentiation, respectively. By FGF2 and VEGF 3'-UTR luciferase reporter assays, Real-time PCR, and immunoassays, we further identified that the miR-15a directly targets FGF2 and VEGF to facilitate its anti-angiogenic effects. Our data suggest that the miR-15a in ECs can significantly suppress cell-autonomous angiogenesis through direct inhibition of endogenous endothelial FGF2 and VEGF activities. Pharmacological modulation of miR-15a function may provide a new therapeutic strategy to intervene against angiogenesis in a variety of pathological conditions.