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Macromolecular bioscience v.18 no.7, 2018년, pp.1800022 -   

Fabrication of Reduction‐Sensitive Amphiphilic Cyclic Brush Copolymer for Controlled Drug Release

Tu, Xiao‐Yan (State Key Laboratory of Applied Organic Chemistry, Key Laboratory of Nonferrous Metal Chemistry and Resources Utilization of Gansu Province, College of Chemistry and Chemical Engineering, Lanzhou University, Lanzhou, 730000, Gansu, China ) ; Meng, Chao (State Key Laboratory of Applied Organic Chemistry, Key Laboratory of Nonferrous Metal Chemistry and Resources Utilization of Gansu Province, College of Chemistry and Chemical Engineering, Lanzhou University, Lanzhou, 730000, Gansu, China ) ; Zhang, Xiao‐Long (State Key Laboratory of Applied Organic Chemistry, Key Laboratory of Nonferrous Metal Chemistry and Resources Utilization of Gansu Province, College of Chemistry and Chemical Engineering, Lanzhou University, Lanzhou, 730000, Gansu, China ) ; Jin, Miao‐Ge (State Key Laboratory of Applied Organic Chemistry, Key Laboratory of Nonferrous Metal Chemistry and Resources Utilization of Gansu Province, College of Chemistry and ) ; Zhang, Xian‐Shuo ; Zhao, Xue‐Zhi ; Wang, Yun‐Fei ; Ma, Li‐Wei ; Wang, Bao‐Yan ; Liu, Ming‐Zhu ; Wei, Hua ;
  • 초록  

    Abstract The cyclic brush polymers, due to the unique topological structure, have shown in the previous studies higher delivery efficacy than the bottlebrush analogues as carriers for drug and gene transfer. However, to the best of knowledge, the preparation of reduction‐sensitive cyclic brush polymers for drug delivery applications remains unexplored. For this purpose, a reduction‐sensitive amphiphilic cyclic brush copolymer, poly(2‐hydroxyethyl methacrylate‐g‐poly(ε‐caprolactone)‐disulfide link‐poly(oligoethyleneglycol methacrylate)) (P(HEMA‐ g ‐PCL‐SS‐POEGMA)) with reducible block junctions bridging the hydrophobic PCL middle layer and the hydrophilic POEGMA outer corona is designed and synthesized successfully in this study via a “grafting from” approach using sequential ring‐opening polymerization (ROP) and atom transfer free radical polymerization (ATRP) from a cyclic multimacroinitiator PHEMA. The resulting self‐assembled unimolecular core–shell–corona (CSC) micelles show sufficient salt stability and efficient destabilization in the intracellular reducing environment for a promoted drug release toward a greater therapeutic efficacy relative to the reduction‐insensitive analogues. The overall results demonstrate the reducible cyclic brush copolymers developed herein provides an elegant solution to the tradeoff between extracellular stability and intracellular high therapeutic efficacy toward efficient anticancer drug delivery.


  • 주제어

    controlled drug release .   cyclic brush copolymer .   disulfide link .   grafting from .   reduction‐sensitivity.  

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