Abstract
Chemoresistance blunts the effect of Temozolomide (TMZ) in the treatment of glioblastoma multiforme (GBM). Whether exosomal transfer of miRNAs derived from TMZ-resistant GBM cells could confer TMZ resistance remains to be determined. qPCR was used to determine miR-151a expression in two TMZ-resistant GBM cell lines. The direct targets of miR-151a were identified by microarray assays, bioinformatics and further RNA chromatin immunoprecipitation (RNA-ChIP) assay. We characterized exosomes from TMZ-resistant cell lines, serum and cerebrospinal fluid (CSF) and determined the effect of exosomes from TMZ-resistant cells on recipient GBM cells. miR-151a loss drove the acquisition of TMZ resistance. Restored miR-151a expression sensitized TMZ-resistant GBM cells via inhibiting XRCC4-mediated DNA repair. TMZ-resistant GBM cells conferred TMZ chemoresistance to recipient TMZ-sensitive cells in an exosomal miR-151a loss-dependent manner. Restoration of exosomal miR-151a from donor TMZ-resistant cells abolished the chemoresistance dissemination that was directed by donor TMZ-resistant cells. CSF-derived exosomes contained miRNA signatures reflective of the underlying chemoresistant status of GBMs in terms of miR-151a expression levels. Exosomal miR-151a is not only essentially a less-invasive ‘liquid biopsy’ that might predict chemotherapy response, but also represents a promising therapeutic target for therapy-refractory GBMs.
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