Effective anticancer drug delivery to the tumor site without rapid body clearance is a prerequisite for successful chemotherapy. 1,2-distearoyl-sn-glycero-3-phospho-ethanolamine-N-(methoxy[polyethyleneglycol]-2000) (DSPE-PEG2000) has been widely used in the preparation of stealth liposomes. Although PEG chains can efficiently preserve liposomes from rapid clearance by the reticuloendothelial system (RES), its application has been hindered by poor cellular uptake and unsatisfactory therapeutic effect.To address the dilemma, we presented a facile approach to fabricate novel stealth nanoparticles generated by poly(ethylene glycol)-block-poly(ε-caprolactone) (PEG-b-PCL), soybean phosphatidylcholine (SPC), and cholesterol, namely LPPs (L represented lipid and PP represented PEG-b-PCL), for the delivery of anticancer drug paclitaxel (PTX). LPPs were prepared using the thin film hydration method. Two PEG-b-PCL polymers with different molecular weights (MW; PEG2000-b-PCL2000, MW: 4,000 Da and PEG5000-b-PCL5000, MW: 10,000 Da) were used to fabricate stealth nanoparticles. Conventional PEGylated liposome (LDP2000, L represented lipid and DP2000 represented DSPE-PEG2000) composed of SPC, cholesterol, and DSPE-PEG2000 was used as the control. The physical properties, cellular uptake, endocytosis pathway, cytotoxicity, pharmacokinetics, tumor accumulation, and anticancer efficacy of free PTX, PTX-loaded LPPs, and LDP2000 were systemically investigated after injection into 4T1 breast tumor-bearing mice.LPPs were vesicles around 100 nm in size with negative zeta potential. With enhanced stability, LPPs achieved sustainable release of cancer therapeutics. The cellular uptake level was closely related to the PEG chain length of PEG-b-PCL; a shorter PEG chain resulted in higher cellular uptake. Moreover, the cellular internalization of LPP2000 modified by PEG2000-b-PCL2000 on 4T1 cells was 2.1-fold higher than LDP2000 due to the improved stability of LPP2000. The cytotoxicity of PTX-loaded LPP2000 was also higher than that of LDP2000 and LPP5000 as observed using a WST-8 assay, while blank LPPs showed negligible toxicity. Consistent with the results of the in vitro study, in vivo experiments showed that LPPs allowed significantly improved bioavailability and prolonged T1/2β as compared to free PTX injection. More importantly, LPPs mainly accumulated at the tumor site, probably due to the enhanced permeation and retention effect (EPR effect). As a nanomedicine, LPP2000 (tumor inhibition rate of 75.1

作者：Xiaodan, He；Li, Li；Hong, Su；Dinglun, Zhou；Hongmei, Song；Ling, Wang；Xuehua, Jiang

来源：International journal of nanomedicine 2015 年 10卷