ABSTRACT
Cancer chemotherapy and the patient's life will be more convenient if oral administration of anti-cancer drugs can be achieved. The feasibility of folate-targeted Pluronic F127/polylactic acid (FA-F127-PLA) polymersomes as the oral delivery carriers of paclitaxel (PTX) has been explored in this study. PTX loaded in FA-F127-PLA and PLA-F127-PLA polymersomes showed biphasic release behaviors in simulated gastric and intestinal fluids. PTX loaded in FA-F127-PLA polymersomes exhibited higher cytotoxicity and cellular uptake than PTX loaded in PLA-F127-PLA polymersomes. In vivo pharmacokinetic studies in rats showed that oral PTX loaded in FA-F127-PLA polymersomes had a higher bioavailability than oral PTX loaded in PLA-F127-PLA polymersomes. D-α-tocopheryl poly(ethylene glycol) 1000 succinate (TPGS or Vitamin E TPGS) was also added to the FA-F127-PLA polymersomes as an optimization agent. Compared with PTX-loaded FA-F127-PLA polymersome, PTX-loaded FA-F127-PLA/TPGS mixed polymersomes showed even better cytotoxic ability, more cellular uptake and higher bioavailability. The above results indicate that FA-F127-PLA and FA-F127-PLA/TPGS mixed polymersomes could be good candidates for the oral delivery carrier of anti-cancer drugs.
