Abstract
The blood-brain barrier (BBB) presents a major challenge for the effective delivery of therapeutic agents to the brain tumor cells from the peripheral blood circulation, making the treatment of central nervous system (CNS)-related cancers more difficult and resistant to both standard treatments and emerging therapies. Exosomes, which serve as messengers for intercellular communication throughout the body, can naturally or be modified to penetrate the BBB. Recently, exosomes have been increasingly explored as an invasive or non-invasive approach for delivering therapeutic agents to the CNS. With their low immunogenicity, ease of modification, excellent cargo protection, and inherent ability to cross the BBB, exosomes hold great promise for revolutionizing targeted therapy for CNS-related diseases, including brain cancer. In this review, we highlight recent discoveries and insights into the mechanisms exosomes use to penetrate the BBB, the methods they employ to payload diverse therapeutics, and their roles in transporting therapeutic compounds for brain cancer and other neurological disorders.