Our study focused on the effects and molecular mechanisms of kaempferol, a major active component of Eucommia ulmoides Oliver (EUO), on the osteogenic differentiation of bone marrow mesenchymal stem cells (BMSCs). Target molecules for EUO, osteoarthritis, and osteogenic differentiation were identified through network pharmacology analysis. BMSCs were isolated and treated with various concentrations of kaempferol. Optimal concentration was determined through MTT assays. Osteogenic differentiation was assessed using alkaline phosphatase (ALP) and Alizarin Red S staining, while osteogenic markers (Collagen I, RUNX2, and OPN) and CAV-1 expression were analyzed using RT-qPCR and Western blot. The effects of combined treatment with kaempferol and an overexpression vector for CAV-1 (oe-CAV-1) on osteogenic differentiation were also observed. Network pharmacology analysis identified kaempferol as the primary active component influencing CAV-1 targeted in subsequent experiments. It was found that 10 µM kaempferol was optimal for treating BMSCs. Post-treatment, significant increases in ALP activity and calcium deposition were observed, along with elevated expression of osteogenic markers, and decreased CAV-1. Overexpression of CAV-1 significantly reversed the promotive effects of kaempferol on BMSC osteogenic differentiation, effectively inhibiting the process. Collectively, kaempferol promotes osteogenic differentiation in BMSCs by inhibiting CAV-1 expression.
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