Multifunctional and thermoresponsive unimolecular micelles for tumor-targeted delivery and site-specifically release of anticancer drugs

Considering the fact that tumors have a lower pH value and a higher temperature than a normal tissue, a new type of thermoresponsive and biodegradable micelles, based on the H40-poly(epsilon-caprolactone)-b-poly(N-isopropylacrylamide-co-acrylamide)-fluorescein methyl ester/b'-methoxy poly(ethylene glycol)/poly(ethylene glycol)-folate (i.e., H40-PCL-b-P(NIPAAm-co-AAm)-FL/b'-MPEG/PEG-FA (HPPNAP-FA)) with imaging and targeting moieties on the periphery were developed for the tumor-targeted delivery and temperature-induced site-specifically release of hydrophobic anticancer drugs. The amphiphilic HPPNAP-FA copolymer was able to self-assemble into unimolecular micelles in aqueous solution with an average diameter of 65 nm. The lower critical solution temperature (LCST) of micelles was around 39.5 degrees C. The anticancer drug, paclitaxel (PTX), was encapsulated into the multifunctional micelles. In vitro release studies demonstrated that the drug-loaded delivery system is relatively stable at physiologic conditions but susceptible to mild acidic environments and temperatures above LCST which would trigger the release of encapsulated drugs. Both flow cytometry and fluorescent microscopy showed that the cellular uptake of the PTX-loaded HPPNAP-FA micelles is higher than that of the FTX-loaded HPPNAP because of the folate receptor mediated endocytosis. The efficacy of this thermoresponsive drug delivery system was also evaluated at temperatures above the LCST (40 degrees C); the results demonstrated that the cellular uptake and the cytotoxicity of PTX-loaded micelles increase prominently. These results indicate that these multifunctional and thermoresponsive unimolecular micelles are promising biomaterials to improve the delivery efficiency and cancer specificity of hydrophobic chemotherapeutic drugs. (C) 2012 Elsevier Ltd. All rights reserved.