Conclusions
The present results reveal that ADSC-derived exosomes are an effective delivery vehicle for small molecule drugs in vivo, and exosome-delivered miR-138-5p is a promising therapeutic agent for BC treatment.
Methods
ADSCs stably expressing miR-138-5p were established using Lentivirus infection, and ADSC-derived miR-138-5p exosomes (Exo-miR-138-5p) were isolated from the cell culture medium. The effect of Exo-miR-138-5p on BC cell migration, invasion, and proliferation was evaluated in vitro using wound healing, transwell invasion, and proliferation assays. The in vivo effect of Exo-miR-138-5p was investigated using a subcutaneous xenograft mouse model.
Results
Exo-miR-138-5p prevented the migration, invasion, and proliferation of BC cells in vitro. Moreover, ADSC-derived exosomes could penetrate tumor tissues and successfully deliver miR-138-5p to suppress the growth of xenograft tumors in vivo. Conclusions: The present results reveal that ADSC-derived exosomes are an effective delivery vehicle for small molecule drugs in vivo, and exosome-delivered miR-138-5p is a promising therapeutic agent for BC treatment.