Quantcast

Construction of PEG-based amphiphilic brush polymers bearing hydrophobic poly(lactic acid) side chains via successive RAFT polymerization and ROP

Research paper by Wenhao Qian, Xuemei Song, Chun Feng, Peicheng Xu, Xue Jiang, Yongjun Li, Xiaoyu Huang

Indexed on: 26 Apr '16Published on: 18 Apr '16Published in: Polymer Chemistry



Abstract

A series of well-defined amphiphilic brush polymers containing hydrophilic poly(ethylene glycol) (PEG) and hydrophobic poly(lactic acid) segments was synthesized by the combination of reversible addition–fragmentation chain transfer (RAFT) polymerization, ring opening polymerization (ROP), and the grafting-from strategy. tert-Butyl 2-((4-hydroxybutanoyloxy)methyl)acrylate (tBHBMA) monomer containing a ROP initiation group (–OH) was first RAFT block copolymerized using a PEG-based chain transfer agent to form two well-defined PEG-b-PtBHBMA diblock copolymers (Mw/Mn ≤ 1.10) bearing pendant hydroxyls in every repeated unit of PtBHBMA segment. Both diblock copolymers directly initiated ROP of lactide by the pendant hydroxyls to provide well-defined poly(ethylene glycol)-b-(poly(tert-butyl acrylate)-g-poly(lactic acid)) (PEG-b-(PtBA-g-PLA)) brush polymers (Mw/Mn ≤ 1.16) without post-polymerization functionality transformation. The target well-defined poly(ethylene glycol)-b-(polyacrylic acid)-g-poly(lactic acid) (PEG-b-(PAA-g-PLA)) amphiphilic brush polymers were achieved by the selective acidolysis of hydrophobic PtBA backbone (tert-butyoxycarbonyls) into hydrophilic PAA backbone (carboxyls) using trifluoroacetic acid. PEG-b-(PAA-g-PLA) brush polymers could self-assemble into spheres with a size of ca. 70–110 nm in aqueous media as evidenced by DLS and TEM. The drug (doxorubicin) loading ability of PEG-b-(PAA-g-PLA) brush polymers was investigated preliminarily by measuring the in vitro cell (SMMC-7721 and SH-SY5Y) viabilities, which showed higher cytotoxicity compared to free DOX.

Graphical abstract 10.1039/C6PY00189K.gif