聚合物囊泡在递送中的新兴应用:从分子动力学到肿瘤缩小
Emerging Applications of Polymersomes in Delivery: from Molecular Dynamics to Shrinkage of Tumors.
作者信息
Discher Dennis E, Ortiz Vanessa, Srinivas Goundla, Klein Michael L, Kim Younghoon, Christian David, Cai Shenshen, Photos Peter, Ahmed Fariyal
机构信息
NanoBio Polymers Lab, University of Pennsylvania, Philadelphia, Pennsylvania 19104.
Center for Molecular Modeling-Dept. of Chemistry, University of Pennsylvania, Philadelphia, Pennsylvania 19104.
出版信息
Prog Polym Sci. 2007 Aug 1;32(8-9):838-857. doi: 10.1016/j.progpolymsci.2007.05.011.
Abstract
Polymersomes are self-assembled shells of amphiphilic block copolymers that are currently being developed by many groups for fundamental insights into the nature of self-assembled states as well as for a variety of potential applications. While recent reviews have highlighted distinctive properties - particularly stability - that are strongly influenced by both copolymer type and polymer molecular weight, here we first review some of the more recent developments in computational molecular dynamics (MD) schemes that lend insight into assembly. We then review polymersome loading, in vivo stealthiness, degradation-based disassembly for controlled release, and even tumor-shrinkage in vivo. Comparisons of polymersomes with viral capsids are shown to encompass and inspire many aspects of current designs.
摘要
聚合物囊泡是两亲性嵌段共聚物自组装形成的壳层,目前许多研究团队都在对其进行开发,以深入了解自组装状态的本质,并探索各种潜在应用。虽然近期的综述强调了聚合物囊泡的独特性质——尤其是稳定性——这受到共聚物类型和聚合物分子量的强烈影响,但在此我们首先回顾一些计算分子动力学(MD)方法的最新进展,这些进展有助于深入了解聚合物囊泡的组装过程。然后,我们将回顾聚合物囊泡的负载、体内隐身性、基于降解的可控释放解离,甚至体内肿瘤缩小。将聚合物囊泡与病毒衣壳进行比较,结果表明这涵盖并启发了当前设计的许多方面。
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