Nanoparticles Surmounting Blood-Brain Tumor Barrier Through Both Transcellular and Paracellular Pathways to Target Brain Metastases

Brain metastases are one of the most difficult malignancies to treat owing to their location and mostly multifocal and infiltrative growth. Chemotherapy, which is often effective against tumors outside the brain, offers some hope for brain metastases. However, the efficacy of systemic drug delivery to brain metastases is extremely limited due largely to the blood-brain tumor barrier (BTB). Herein, it is reported that minoxidil-loaded hyaluronic acid-tethered nanoparticles (M@H-NPs) can efficiently and specially surmount the BTB through both transcellular and paracellular pathways and target brain metastases through coordination of hyaluronic acid with CD44 target. The transcellular endocytosis, paracellular claudin-5 expression, and BTB crossing are evaluated to confirm that the developed M@H-NPs can be endued with minoxidil's ability to boost transcytosis and downregulate tight junction protein in BTB endothelial cells at brain metastases for promoted BTB penetration. M@H-NPs selectively deliver doxorubicin (DOX) to brain metastatic lesions, while sparing normal brain cells from harm. Treatment with M@H-NPs/DOX significantly prolongs median survival of mice bearing brain metastases. Due to the fruitful BTB penetration and brain metastasis homing, and improved therapeutic outcome, the minoxidil-based systemic drug delivery strategy may serve as a potential approach for clinical management of brain metastases.