Improved Anti-tumor Efficiency against Prostate Cancer by Docetaxel-loaded PEG-PCL Micelles

This study primarily focused on the systematic assessment of both in vitro and in vivo anti-tumor effects of docetaxel-loaded polyethylene glycol（PEG）2000-polycaprolactone（PCL）2600 micelles on hormone-refractory prostate cancer（HRPC）. By using solvent evaporation method, PEG-PCL was chosen to prepare doxetaxel（DTX）-loaded mPEG-PCL micelles（DTX-PMs）, with the purpose of eliminating side effects of the commercial formulation（Tween 80） and prolonging the blood circulation time. The prepared DTX-PMs had an average particle size of 25.19±2.36 nm, a zeta potential of 0.64±0.15 mV, a polydispersity index of 0.56±0.03, a drug loading of（8.72±1.05）%, and an encapsulation efficiency of（98.1±8.4）%. In vitro cytotoxicity studies indicated that DTX-PMs could effectively kill LNCap-C4-2B cells and show a dose- and time-dependent efficacy. The hemolysis test showed that DTX-PMs had less hemocytolysis than the commercial product of Duopafei. A sustained in vitro release behavior and prolonged circulation time in blood vessels were observed in the DTX-PMs. Furthermore, when compared with Duopafei, the DTX-PMs dramatically reduced the prostate specific antigen（PSA） level and tumor growth of prostate tumor-bearing nude mice in vivo. In conclusion, the DTX-PMs can lower systemic side effects, improve anti-tumor activity with prolonged blood circulation time, and will bring an alternative to patients with HRPC.