Carbohydrate-based Biomedical Copolymers for Targeted Delivery of Anticancer Drugs

A variety of strategies and carrier molecules have been used to direct therapeutic agents to tumor sites. The incorporation of a specific targeting moiety to drug carrier may result in active drug uptake by malignant cells. Carbohydrates are important mediators of cell–cell recognition events and have been implicated in related processes such as cell signaling regulation, cellular differentiation, and immune response. The biocompatibility of carbohydrates and their ability to be specifically recognized by cell-surface receptors indicate their potential utility as ligands in targeted drug delivery for therapeutic applications. Yet, carbohydrates are not ideal targeting ligands because they are difficult to synthesize, bind weakly to carbohydrate receptors, and are prone to suffer from enzyme degradation due to labile glycosidic linkages. This review describes the design and development of HPMA-based biomedical copolymers to facilitate the selective delivery of drugs to tumor tissues via carbohydrate–endogenous lectin interactions. Various carbohydrate-decorated HPMA copolymer–drug conjugates are presented and the application of the copolymers for drug delivery is discussed. Current efforts to increase the affinity of carbohydrate ligands for their target receptors through multivalent display are also discussed. These novel HPMA copolymer carbohydrate conjugates hold promise as clinically relevant drug delivery systems for cancer therapy.