壳聚糖通过非共价键连接增强阳离子脂质体的基因传递。

Chitosan enhanced gene delivery of cationic liposome via non-covalent conjugation.

机构信息

College of Environmental and Biological Science, Dalian University of Technology, Dalian, 116024, Liaoning, People's Republic of China.

出版信息

Biotechnol Lett. 2012 Jan;34(1):19-28. doi: 10.1007/s10529-011-0748-8. Epub 2011 Oct 19.

DOI:10.1007/s10529-011-0748-8

PMID:22009568

Abstract

Two new types of stable ternary complexes were formed by mixing chitosan with DOTAP/pDNA lipoplex and DOTAP with chitosan/pDNA polyplex via non-covalent conjugation for the efficient delivery of plasmid DNA. They were characterized by atomic force microscopy, gel retarding, and dynamic light scattering. The DOTAP/CTS/pDNA complexes were in compacted spheroids and irregular lump of larger aggregates in structure, while the short rod- and toroid-like and donut shapes were found in CTS/DOTAP/pDNA complexes. The transfection efficiency of the lipopolyplexes showed higher GFP gene expression than DOTAP/pDNA and CTS/pDNA controls in Hep-2 and Hela cells, and luciferase gene expression 2-3-fold than DOTAP/pDNA control and 70-120-fold than CTS/pDNA control in Hep-2 cells. The intracellular trafficking was examined by confocal laser scanning microscopy. Rapid pDNA delivery to the nucleus enchanced by chitosan was achieved after 4 h transfection.

摘要

两种新型稳定的三元复合物通过混合壳聚糖与 DOTAP/ pDNA 脂质体以及 DOTAP 与壳聚糖/ pDNA 聚电解质复合物，通过非共价键连接形成，可高效递送质粒 DNA。复合物通过原子力显微镜、凝胶阻滞和动态光散射进行表征。DOTAP/ CTS/ pDNA 复合物结构呈紧密的球体和不规则的大块状较大聚集体，而 CTS/ DOTAP/ pDNA 复合物中则发现了短棒状和环形以及甜甜圈形状。在 Hep-2 和 Hela 细胞中，脂质体/聚电解质复合物的转染效率显示出比 DOTAP/ pDNA 和 CTS/ pDNA 对照组更高的 GFP 基因表达，在 Hep-2 细胞中比 DOTAP/ pDNA 对照组高 2-3 倍，比 CTS/ pDNA 对照组高 70-120 倍。通过共聚焦激光扫描显微镜检查细胞内转导。壳聚糖能促进 pDNA 快速向核内传递，在转染 4 小时后即可实现。

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壳聚糖通过非共价键连接增强阳离子脂质体的基因传递。

Chitosan enhanced gene delivery of cationic liposome via non-covalent conjugation.

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