miR‐221‐3p targets Ang‐2 to inhibit the transformation of HCMECs to tip cells

Postembryonic angiogenesis is mainly induced by various proangiogenic factors derived from the original vascular network. Previous studies have shown that the role of Ang‐2 in angiogenesis is controversial. Tip cells play a vanguard role in angiogenesis and exhibit a transdifferentiated phenotype under the action of angiogenic factors. However, whether Ang‐2 promotes the transformation of endothelial cells to tip cells remains unknown. Our study found that miR‐221‐3p was highly expressed in HCMECs cultured for 4 h under hypoxic conditions (1% O ₂). Moreover, miR‐221‐3p overexpression inhibited HCMECs proliferation and tube formation, which may play an important role in hypoxia‐induced angiogenesis. By target gene prediction, we further demonstrated that Ang‐2 was a downstream target of miR‐221‐3p and miR‐221‐3p overexpression inhibited Ang‐2 expression in HCMECs under hypoxic conditions. Subsequently, qRT‐PCR and western blotting methods were performed to analyse the role of miR‐221‐3p and Ang‐2 on the regulation of tip cell marker genes. MiR‐221‐3p overexpression inhibited CD34, IGF1R, IGF‐2 and VEGFR2 proteins expression while Ang‐2 overexpression induced CD34, IGF1R, IGF‐2 and VEGFR2 expression in HCMECs under hypoxic conditions. In addition, we further confirmed that Ang‐2 played a dominant role in miR‐221‐3p inhibitors promoting the transformation of HCMECs to tip cells by using Ang‐2 shRNA to interfere with miR‐221‐3p inhibitor‐treated HCMECs under hypoxic conditions. Finally, we found that miR‐221‐3p expression was significantly elevated in both serum and myocardial tissue of AMI rats. Hence, our data showed that miR‐221‐3p may inhibit angiogenesis after acute myocardial infarction by targeting Ang‐2 to inhibit the transformation of HCMECs to tip cells.