由阳离子固体脂质纳米粒、鱼精蛋白和 DNA 组成的三元纳米粒用于基因递送。

Ternary nanoparticles composed of cationic solid lipid nanoparticles, protamine, and DNA for gene delivery.

机构信息

Women's Hospital, Zhejiang University, Hangzhou, People's Republic of China.

出版信息

Int J Nanomedicine. 2013;8:2859-69. doi: 10.2147/IJN.S47967. Epub 2013 Aug 7.

DOI:10.2147/IJN.S47967

PMID:23990715

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3753151/

Abstract

BACKGROUND

The objective of this research was to design an effective gene delivery system composed of cationic solid lipid nanoparticles (SLNs), protamine, and Deoxyribonucleic acid DNA.

METHODS

Cationic SLNs were prepared using an aqueous solvent diffusion method with octadecylamine as the cationic lipid material. First, protamine was combined with DNA to form binary protamine/DNA nanoparticles, and the ternary nanoparticle gene delivery system was then obtained by combining binary protamine/DNA nanoparticles with cationic SLNs. The size, zeta potential, and ability of the binary and ternary nanoparticles to compact and protect DNA were characterized. The effect of octadecylamine content in SLNs and the SLNS/DNA ratios on transfection efficiency, cellular uptake and cytotoxicity of the ternary nanoparticles were also assessed using HEK293 cells.

RESULTS

When the weight ratio of protamine to DNA reached 1.5:1, the plasmid DNA could be effectively compacted and protected. The average hydrodynamic diameter of the ternary nanoparticles when combined with protamine increased from 188.50 ± 0.26 nm to 259.33 ± 3.44 nm, and the zeta potential increased from 25.50 ± 3.30 mV to 33.40 ± 2.80 mV when the weight ratio of SLNs to DNA increased from 16/3 to 80/3. The ternary nanoparticles showed high gene transfection efficiency compared with Lipofectamine™ 2000/DNA nanoparticles. Several factors that might affect gene transfection efficiency, such as content and composition of SLNs, post-transfection time, and serum were examined. The ternary nanoparticles composed of SLNs with 15 wt% octadecylamine (50/3 weight ratio of SLNs to DNA) showed the best transfection efficiency (26.13% ± 5.22%) in the presence of serum. It was also found that cellular uptake of the ternary nanoparticles was better than that of the SLN/DNA and binary protamine/DNA nanoparticle systems, and DNA could be transported to the nucleus.

CONCLUSION

SLNs enhanced entry of binary protamine/DNA nanoparticles into the cell, and protamine protected DNA from enzyme degradation and transported DNA into the nucleus. Compared with Lipofectamine 2000/DNA nanoparticles, these cationic ternary nanoparticles showed relatively durable and stable gene transfection in the presence of serum.

摘要

背景

本研究旨在设计一种由阳离子固体脂质纳米粒（SLN）、鱼精蛋白和脱氧核糖核酸（DNA）组成的有效基因传递系统。

方法

采用十六烷基胺作为阳离子脂质材料的水溶剂扩散法制备阳离子 SLN。首先，鱼精蛋白与 DNA 结合形成二元鱼精蛋白/DNA 纳米粒，然后将二元鱼精蛋白/DNA 纳米粒与阳离子 SLN 结合得到三元纳米粒基因传递系统。对二元和三元纳米粒的粒径、Zeta 电位以及压缩和保护 DNA 的能力进行了表征。还使用 HEK293 细胞评估了 SLN 中十八胺含量和 SLN/DNA 比值对三元纳米粒转染效率、细胞摄取和细胞毒性的影响。

结果

当鱼精蛋白与 DNA 的重量比达到 1.5:1 时，质粒 DNA 可有效压缩和保护。与鱼精蛋白结合后，三元纳米粒的平均水动力直径从 188.50 ± 0.26nm 增加到 259.33 ± 3.44nm，当 SLN 与 DNA 的重量比从 16/3 增加到 80/3 时，Zeta 电位从 25.50 ± 3.30mV 增加到 33.40 ± 2.80mV。与 Lipofectamine™2000/DNA 纳米粒相比，三元纳米粒显示出较高的基因转染效率。考察了可能影响基因转染效率的几个因素，如 SLN 的含量和组成、转染后时间和血清。在存在血清的情况下，由 15wt%十八胺（SLN 与 DNA 的重量比为 50/3）组成的三元纳米粒显示出最佳的转染效率（26.13%±5.22%）。还发现，三元纳米粒的细胞摄取优于 SLN/DNA 和二元鱼精蛋白/DNA 纳米粒系统，并且 DNA 可以被转运到细胞核。

结论

SLN 增强了二元鱼精蛋白/DNA 纳米粒进入细胞的能力，鱼精蛋白保护 DNA 免受酶降解，并将 DNA 转运到细胞核。与 Lipofectamine 2000/DNA 纳米粒相比，这些阳离子三元纳米粒在存在血清的情况下具有相对持久和稳定的基因转染。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2f8b/3753151/3f956204d591/ijn-8-2859Fig1.jpg

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由阳离子固体脂质纳米粒、鱼精蛋白和 DNA 组成的三元纳米粒用于基因递送。

Ternary nanoparticles composed of cationic solid lipid nanoparticles, protamine, and DNA for gene delivery.

机构信息

出版信息

BACKGROUND

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CONCLUSION

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