一种新型含二硫键介导可切割的 RGD 修饰的 PAMAM 纳米复合物，含有核定位信号 HMGB1，用于增强基因转染效率。

A novel disulfide bond-mediated cleavable RGD-modified PAMAM nanocomplex containing nuclear localization signal HMGB1 for enhancing gene transfection efficiency.

机构信息

Department of Pharmaceutics, School of Pharmacy, Shenyang Pharmaceutical University, Shenyang 110016, China,

出版信息

Int J Nanomedicine. 2018 Nov 6;13:7135-7153. doi: 10.2147/IJN.S182445. eCollection 2018.

DOI:10.2147/IJN.S182445

PMID:30464464

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6228086/

Abstract

BACKGROUND

Polyamidoamine (PAMAM) dendrimers modified by polyethylene glycol (PEG) have frequently been investigated as a delivery carrier for gene therapy. However, modification of PAMAM with PEG using covalent linkage significantly reduces the cellular uptake rate and the transfection efficiency. How to conquer these barriers becomes a burning question in gene delivery.

MATERIALS AND METHODS

The present study constructed an effective disulfide bond-mediated cleavable RGD modified gene delivery system to overcome the aforementioned limitations. The disulfide bond was introduced between PAMAM dendrimers and PEG chains to realize the cleavage of PEG from the carrier system, whereas the arginine-glycine-aspartate (RGD) peptide was expected to promote the cellular uptake rate. A high mobility group Box 1 (HMGB1) protein containing nuclear localization signal (NLS) was simultaneously introduced to further promote gene expression efficiency. A pDNA/HMGB1/PAMAM-SS-PEG-RGD (DHP) nanocomplex was prepared via electrostatic interaction and characterized.

RESULTS

The results showed that DHP generated small particles and was able to condense and protect pDNA against degradation. In addition, the RGD peptide could significantly promote the cellular uptake of a nanocomplex. Intracellular trafficking and in vitro expression study indicated that the DHP nanocomplex escaped from lysosomes and the disulfide bonds between PAMAM and PEG cleaved due to the high concentration of GSH in the cytoplasm, pDNA consequently became exclusively located in the nucleus under the guidance of HMGB1, thereby promoting the red fluorescence protein (RFP) expression. Importantly, an in vivo antitumor activity study demonstrated that the DHP nanocomplex had higher antitumor activity than any other reference preparation.

CONCLUSION

All these results confirm that DHP could be a new strategy for improving the transfection and expression efficiency in gene delivery.

摘要

背景

聚酰胺-胺（PAMAM）树枝状聚合物经聚乙二醇（PEG）修饰后，常被用作基因治疗的递送载体。然而，通过共价键将 PEG 修饰到 PAMAM 上会显著降低细胞摄取率和转染效率。如何克服这些障碍成为基因递送领域的一个热点问题。

材料与方法

本研究构建了一种有效的二硫键介导的可裂解 RGD 修饰基因递送系统，以克服上述限制。二硫键被引入 PAMAM 树枝状聚合物和 PEG 链之间，以实现载体系统中 PEG 的裂解，而精氨酸-甘氨酸-天冬氨酸（RGD）肽则有望促进细胞摄取率。同时引入含有核定位信号（NLS）的高迁移率族蛋白 B1（HMGB1）蛋白，以进一步提高基因表达效率。通过静电相互作用制备了 pDNA/HMGB1/PAMAM-SS-PEG-RGD（DHP）纳米复合物，并对其进行了表征。

结果

结果表明，DHP 生成了小颗粒，能够凝聚并保护 pDNA 免受降解。此外，RGD 肽可显著促进纳米复合物的细胞摄取。细胞内转运和体外表达研究表明，由于细胞质中 GSH 浓度较高，DHP 纳米复合物从溶酶体中逃逸，PAMAM 和 PEG 之间的二硫键被切断，pDNA 随后在 HMGB1 的引导下完全位于细胞核内，从而促进红色荧光蛋白（RFP）的表达。重要的是，体内抗肿瘤活性研究表明，DHP 纳米复合物比任何其他参考制剂具有更高的抗肿瘤活性。

结论

所有这些结果证实，DHP 可能是提高基因递送转染和表达效率的一种新策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c30d/6228086/2e9341383611/ijn-13-7135Fig1.jpg

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一种新型含二硫键介导可切割的 RGD 修饰的 PAMAM 纳米复合物，含有核定位信号 HMGB1，用于增强基因转染效率。

A novel disulfide bond-mediated cleavable RGD-modified PAMAM nanocomplex containing nuclear localization signal HMGB1 for enhancing gene transfection efficiency.

机构信息

出版信息

BACKGROUND

MATERIALS AND METHODS

RESULTS

CONCLUSION

背景

材料与方法

结果

结论

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