Exosomal miR-331 from Chemoresistant Osteosarcoma Cells induced Chemoresistance through Autophagy

Abstract BackgroundOsteosarcoma (OS) is a highly malignant tumor. Improving chemotherapeutic resistance is very important to improve the survival rate of OS. Exosomes and microRNAs (MiRNA) play important roles in the mechanism of chemotherapeutic resistance transmission. More and more researches focus the mechanism of miRNAs carried by exosomes in the transmission of chemotherapeutic resistance of OS. This study focused on exploring the mechanism of exosomal miR-331 in the transmission of chemoresistance in OS.MethodsWe cultured OS drug-resistant cells and extracted exosomes of these cells. The secretion and uptake of exosomes in OS drug-resistant cells and OS cells (OSCs) were confirmed by fluorescence tracking assay and transwell experiments. The differential expression of microRNA-331 (miR-331) in exosomes of OS resistant and OS cells was investigated by RT-PCR. The effects of drug-resistant exosomes on proliferation and migration of OS cells were determined by MTT assay and scratches assay. MDC staining, RT-PCR, and Western blot were used to detect the role of autophagy which regulated by drug-resistant cell-derived exosom-miR-331.ResultsWe found that the expression difference of miR-331 between MG63/CDDP and MG63 was the most significant. Drug resistant OSCs secreted exosomes and were ingested by OSCs, which then promoted OSCs to acquire drug resistance. In addition, exosomes secreted by drug-resistant OSCs promote drug resistance by carrying miRNAs. Interestingly, inhibition of miRNA resulted in reduced drug resistance transmission of exosomes. Finally, we found that the exosomes secreted by drug-resistant OSCs could induce autophagy of OSCs by carrying miR-331, thus making OSCs acquire drug resistance. Inhibition of miR-331 can effectively improve drug resistance of OSCs.ConclusionsChemoresistant OSCs-derived exosomes promote the transmission of drug resistance by carrying miR-331 and inducing autophagy. Inhibition of miR-331 could effectively alleviate drug resistance of OSCs.