Tumor-derived exosomes reversing TMZ resistance by synergistic drug delivery for glioma-targeting treatment

Temozolomide (TMZ), as the first-line chemotherapeutic agent, relies on inducing DNA methylation of O6-guanine for treating glioma. However, the survival time of patients are hardly exceeded 14.5 months, attributing to inevitable drug resistance and systematic toxicity after long-term administration. Herein, reassembly-exosomes (R-EXO) deriving from homologous glioma cells is proposed to carry TMZ and Dihydrotanshinone (DHT) for reversing drug resistance and enhancing lesions-targeted drug delivery, defined as R-EXO-TMZ/DHT (R-EXO-T/D). It is found that R-EXO-T/D share various advantages, including preferable blood-brain barrier (BBB)-penetrating ability with nanomemter size, tumor-homing accumulation with homologous effects, as well as potentiated antitumor activity with overcoming TMZ resistance and triggering immune response. This work develops a new strategy for site-specific drug delivery, showing a promising application of drug compatibility in glioma treatment.