Tumor-derived extracellular vesicle drug delivery system for chemo-photothermal-immune combination cancer treatment

Tumor extracellular vesicles (EVs) demonstrate considerable promise for medication delivery and tumor targeting owing to their natural long-term blood circulation and tissue targeting capabilities. We extracted EVs from mouse breast cancer cell 4T1 using UV stimulation and differential centrifugation. To create a new nano-drug delivery system, the vesicle delivery system (EPM) loaded with melanin and paclitaxel albumin (PA), the collected EVs were repeatedly compressed on a 200 nm porous polycarbonate membrane with melanin and PA. Our findings suggest that EPM is readily absorbed by breast cancer and dendritic cells. EPM generates significant photoacoustic signals and photothermal effects when exposed to near-infrared light and can enhance the infiltration of CD8+ T cells in mouse tumor tissues. EPM is more cytotoxic than PA in in vivo and in vitro investigations. The efficacy of EPM in clinical transformation when paired with chemotherapy/photothermal/immunotherapy treatment is demonstrated in this study. [Display omitted] •It was developed a unique nano-drug delivery method for vesicle-loaded melanin and PA•EVs were co-extrusion with melanin and PA to produce EPM•EPM initiates a combination of chemo-photothermal-immune therapy for breast cancer Drug delivery system; Pharmacology; Natural sciences; Biological sciences; Biochemistry; Cell biology