Engineering the surface properties of synthetic gene delivery vectors.

Gary Lee, David Schaffer
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引用次数: 3

Abstract

Synthetic gene delivery vehicles are a highly promising approach to gene delivery; however, several problems must still be overcome before they can begin to enjoy dinical success. A number of these problems can be addressed by engineering and optimizing the properties of the vector surface, the component of the particle that interacts and "communicates" with tissues and cells during the delivery process. Surfaces must be engineered to satisfy two ostensibly conflicting constraints: the ability to interact specifically with a target cell while avoiding nonspecific protein interactions, particularly with components of the immune system. We summarize progress that has been made in both these areas and discuss several approaches where the intersection of biological and chemical solutions promises to significantly advance the engineering of synthetic vehicles.

工程合成基因传递载体的表面特性。
合成基因传递载体是一种很有前途的基因传递途径;然而,在它们开始享受临床成功之前,还必须克服几个问题。这些问题可以通过设计和优化矢量表面的特性来解决,矢量表面是粒子在输送过程中与组织和细胞相互作用和“通信”的组成部分。表面设计必须满足两个表面上相互冲突的限制:与靶细胞特异性相互作用的能力,同时避免非特异性蛋白质相互作用,特别是与免疫系统的成分。我们总结了在这两个领域取得的进展,并讨论了几种方法,其中生物和化学解决方案的交叉有望显著推进合成车辆的工程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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