Department of Bioscience and Biotechnology, Konkuk University, Seoul, Republic of Korea
Abstract:
For efficient treatment of multidrug‐resistance (MDR) breast cancer cells, design of biocompatible mixed micelles with diverse functional moieties and superior stability is needed for targeted delivery of chemical drugs. In this study, polypropylene glycol (PPG)‐grafted hyaluronic acid (HA) copolymers (PPG‐g‐HA) are used to make mixed micelles with different amounts of pluronic L61, named PPG‐g‐HA/L61 micelles. Optimized PPG‐g‐HA/L61 micelles with 3% pluronic L61 exhibit great stability in aqueous solution, superior biocompatibility, and significantly increased uptake into MCF‐7 MDR cells via HA–CD44‐specific interactions when compared to free doxorubicin (DOX) and other types of micelles. In addition, DOX in PPG‐g‐HA/L61 micelles with 3% pluronic L61 have toxicity in MCF‐7 MDR cells but significantly lower toxicity in fibroblast L929 cells compared to free DOX. Thus, PPG‐g‐HA/L61 micelles with 3% pluronic L61 content can be a promising nanocarrier to overcome MDR and release DOX in a hyaluronidase‐sensitive manner without any toxicity to normal cells.