聚离子复合物的稳定性和基因沉默效率与 siRNA 接枝聚合物传递系统。

Polyion complex stability and gene silencing efficiency with a siRNA-grafted polymer delivery system.

机构信息

Department of Materials Engineering, Graduate School of Engineering, The University of Tokyo, Tokyo, Japan.

出版信息

Biomaterials. 2010 Nov;31(31):8097-105. doi: 10.1016/j.biomaterials.2010.07.015. Epub 2010 Aug 7.

DOI:10.1016/j.biomaterials.2010.07.015

PMID:20692701

Abstract

An siRNA-grafted polymer through disulfide linkage was prepared to improve the physicochemical properties and transfection efficacies of the polyion complexes (PICs) as a nanocarrier of siRNA. The siRNA-grafted polymer formed stable PICs due to its larger numbers and higher density of anionic charges compared with monomeric siRNA, leading to effective internalization by cultured cells. Following the endosomal escape of the PIC, the disulfide linkage of the siRNA-grafted polymer allowed efficient siRNA release from the PIC under intracellular reductive conditions. Consequently, the PIC from the siRNA-grafted polymer showed a potent gene silencing effect without cytotoxicity or immunogenicity, demonstrating a promising feature of the siRNA-grafted polymer to construct the PIC-based nanocarrier for in vivo siRNA delivery.

摘要

通过二硫键接枝的聚合物用于提高聚离子复合物（PICs）作为 siRNA 纳米载体的物理化学性质和转染效率。与单体 siRNA 相比，siRNA 接枝聚合物具有更多数量和更高密度的阴离子电荷，形成稳定的 PICs，从而有效地被培养细胞内化。在 PIC 内体逃逸后，siRNA 接枝聚合物中的二硫键允许 siRNA 在细胞内还原条件下从 PIC 中有效释放。因此，siRNA 接枝聚合物的 PIC 表现出强大的基因沉默效果，同时没有细胞毒性或免疫原性，这表明 siRNA 接枝聚合物具有构建用于体内 siRNA 递送的基于 PIC 的纳米载体的有前途的特性。

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聚离子复合物的稳定性和基因沉默效率与 siRNA 接枝聚合物传递系统。

Polyion complex stability and gene silencing efficiency with a siRNA-grafted polymer delivery system.

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