A micelle-based stage-by-stage impelled system for efficient doxorubicin delivery.

ABSTRACT

Chemotherapy remains the mainstay of cancer treatment, benefiting millions of patients each year, but the side effects of chemotherapy drugs severely limit their clinical use. Doxorubicin (DOX) can cause various side effects such as heart damage and treatment-related tumors. The effective use of active and passive targeting will improve the clinical application of DOX. Here, TPGS3350 and bioactive peptides were utilized to construct a micelle-based stage-by-stage impelled efficient system (missiles) for DOX delivery (DOX missiles). By taking advantage of the EPR effect, DOX missiles are efficiently enriched at the tumor site. After being cleaved by matrix metalloproteinase2 (MMP2), the peptide (VRGD) targets tumor cells to facilitate uptake of the missiles by the tumor cells via receptor-mediated endocytosis. The intracellular activated caspase-3-catalyzed explosion of DOX missiles further enables efficient tumor killing. This study provides an efficient approach for DOX delivery and toxicity reduction.