内体逃逸肽对聚乙二醇基载体体外基因递送的影响。

The effect of endosomal escape peptides on in vitro gene delivery of polyethylene glycol-based vehicles.

作者信息

Moore Nicole M, Sheppard Clayton L, Barbour Tiffany R, Sakiyama-Elbert Shelly E

机构信息

Department of Energy, Environmental, and Chemical Engineering, Washington University, St Louis, MO 63130-4899, USA.

出版信息

J Gene Med. 2008 Oct;10(10):1134-49. doi: 10.1002/jgm.1234.

DOI:10.1002/jgm.1234

PMID:18642401

Abstract

BACKGROUND

With recent progress in gene therapy clinical trials, there is an even greater demand to advance the development of nonviral gene delivery vehicles. We have previously developed poly(ethylene glycol) (PEG)-based vehicles with transfection efficiency similar to polyethyleneimine and low cytotoxicity. It was hypothesized that conjugating endosomal escape peptides (EEPs) to PEG-based vehicles would further increase their transfection efficiency. The present study aimed to determine how two different EEPs, INF7 and H5WYG, which destabilize the endosomal membrane at different pHs, affect the efficiency of PEG-based vehicles.

METHODS

INF7 and H5WYG were conjugated to PEG-tetraacrylate (PEG-TA) via a Michael-type addition at the desired molar ratios. The pH-dependent membrane lytic activity, transfection efficiency, particle size, zeta potential, and endosomal escape kinetic rate constants were determined.

RESULTS

Fusogenic peptides, INF7 and H5WYG, showed pH-dependent membrane lytic activity when conjugated to PEG-TA. The highest membrane lytic activity of PEG-INF7 and PEG-H5WYG conjugates occurred at pH 5 and 5.5, respectively. Coupling one INF7 peptide to PEG-DNA binding peptide (DBP) vehicles increased the transfection efficiency ten-fold and showed greater transfection efficiency than PEG-DBP vehicles coupled with H5WYG peptide. Fitting a first-order kinetic model to the average intracellular pH of the vehicle/DNA particles over time determined that coupling EEPs to PEG-DBP vehicles increased the endosomal escape rate constant by two orders of magnitude.

CONCLUSIONS

Endosomal escape is a key step in nonviral cellular trafficking and thus the transfection efficiency of nonviral vehicles can be increased by targeting release of DNA from the endosome with EEPs.

摘要

背景

随着基因治疗临床试验的最新进展，对推进非病毒基因递送载体的开发有了更大的需求。我们之前开发了基于聚乙二醇（PEG）的载体，其转染效率与聚乙烯亚胺相似且细胞毒性低。据推测，将内体逃逸肽（EEP）与基于PEG的载体偶联会进一步提高其转染效率。本研究旨在确定两种不同的EEP，即INF7和H5WYG，它们在不同pH值下使内体膜不稳定，如何影响基于PEG的载体的效率。

方法

通过迈克尔型加成反应，以所需的摩尔比将INF7和H5WYG与聚乙二醇四丙烯酸酯（PEG-TA）偶联。测定了pH依赖性膜裂解活性、转染效率、粒径、zeta电位和内体逃逸动力学速率常数。

结果

融合肽INF7和H5WYG与PEG-TA偶联时表现出pH依赖性膜裂解活性。PEG-INF7和PEG-H5WYG偶联物的最高膜裂解活性分别出现在pH 5和5.5时。将一个INF7肽与PEG-DNA结合肽（DBP）载体偶联可使转染效率提高10倍，且比与H5WYG肽偶联的PEG-DBP载体表现出更高的转染效率。将一阶动力学模型拟合到载体/DNA颗粒随时间的平均细胞内pH值，确定将EEP与PEG-DBP载体偶联可使内体逃逸速率常数提高两个数量级。

结论

内体逃逸是非病毒细胞转运的关键步骤，因此通过用EEP靶向从内体释放DNA可以提高非病毒载体的转染效率。

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内体逃逸肽对聚乙二醇基载体体外基因递送的影响。

The effect of endosomal escape peptides on in vitro gene delivery of polyethylene glycol-based vehicles.

作者信息

Moore Nicole M, Sheppard Clayton L, Barbour Tiffany R, Sakiyama-Elbert Shelly E

机构信息

Department of Energy, Environmental, and Chemical Engineering, Washington University, St Louis, MO 63130-4899, USA.

出版信息

J Gene Med. 2008 Oct;10(10):1134-49. doi: 10.1002/jgm.1234.

DOI:10.1002/jgm.1234

PMID:18642401

Abstract

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

Endosomal escape is a key step in nonviral cellular trafficking and thus the transfection efficiency of nonviral vehicles can be increased by targeting release of DNA from the endosome with EEPs.

摘要

背景

方法

结果

结论

内体逃逸是非病毒细胞转运的关键步骤，因此通过用EEP靶向从内体释放DNA可以提高非病毒载体的转染效率。

内体逃逸肽对聚乙二醇基载体体外基因递送的影响。

The effect of endosomal escape peptides on in vitro gene delivery of polyethylene glycol-based vehicles.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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内体逃逸肽对聚乙二醇基载体体外基因递送的影响。

The effect of endosomal escape peptides on in vitro gene delivery of polyethylene glycol-based vehicles.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

相似文献

引用本文的文献