| Abstract: | We aimed to investigate the potential beneficial effect of ferulic acid (FA) on stemness of human tendon‐derived stem cells (hTSCs) in vitro and to elucidate the underlying molecular mechanism. The self‐renewal ability of hTSCs was evaluated by colony formation and cell proliferation was determined by CCK‐8 kit. Adipogenesis, osteogenesis, and chondrogenesis were determined by Oil Red O, Alizarin Red, and Alcian Blue stainings, respectively. Relative mRNA levels of PPARγ, Col2A1, Acan, Runx2, HIF1α, and EGR1 were measured with real‐time PCR. Protein levels of HIF1α and EGR1 were detected by western blot. Direct binding of HIF1α with EGR1 promoter was analyzed by ChIP assay. Hypoxia‐induced expression of EGR1 was interrogated by luciferase reporter assay. We demonstrated that FA treatment improved both self‐renewal ability and multi‐differentiation potential of hTSCs. FA induced hypoxia which in turn upregulated EGR1 expression via direct association with its hypoxia response element consensus sequence. Furthermore, we showed that both HIF1α and EGR1 were required for the enhancing effects of FA on hTSC self‐renewal and differentiation. We hereby characterize the beneficial effect of FA on the stemness of hTSCs and highlight the critical role of HIF1α‐EGR1 axis in this process. |
