使用聚乙烯亚胺载体进行非病毒基因递送的细胞内动力学

Intracellular kinetics of non-viral gene delivery using polyethylenimine carriers.

作者信息

Zhou Jiaye, Yockman James W, Kim Sung Wan, Kern Steven E

机构信息

Department of Bioengineering, University of Utah, Salt Lake City, Utah 84112, USA.

出版信息

Pharm Res. 2007 Jun;24(6):1079-87. doi: 10.1007/s11095-006-9229-5. Epub 2007 Mar 27.

DOI:10.1007/s11095-006-9229-5

PMID:17387605

Abstract

PURPOSE

Polymeric nucleic acid carriers are designed to overcome one or more barriers to delivery. High molecular weight polyethylenimine (PEI) shows high transfection efficiency but exhibits high cytotoxicity (Fischer et al. Biomaterials, 24:1121-1131 (2003); Peterson et al. Bioconjug. Chem., 13:845-854 (2002)). Nontoxic water-soluble lipopolymer (WSLP) was previously developed using branched poly(ethylenimine) (PEI, mw 1,800) and cholesteryl chloroformate (Han, Mahato, and Kim. Bioconjug. Chem., 12:337-345 (2001)) and is an effective non-viral gene carrier with transfection levels equal or above high molecular weight PEI with a lower cytotoxicity profile. To understand how differences in these polymeric carriers influence transfection, we studied the pharmacokinetics of polymer gene carriers at the cellular level.

MATERIALS AND METHODS

Cells were exposed in vitro to different polymeric carriers and the transport of the carriers into different cellular compartments was determined using cellular fractionation and real-time quantitative PCR. A multi-compartment mathematical model was applied to time series measurements of the trafficking of plasmids across each cellular barrier.

RESULTS

Our result indicates that the chemical modification of WSLP increased the rate parameter for endosomal escape significantly compared to conventional PEI carriers thereby increasing the overall transfection efficiency.

CONCLUSIONS

These results are consistent with the goal of endosomal destabilization of the carrier design. This method provides a quantitative means for assessing different polymer construct designs for gene delivery.

摘要

目的

设计聚合核酸载体以克服一种或多种递送障碍。高分子量聚乙烯亚胺（PEI）显示出高转染效率，但具有高细胞毒性（Fischer等人，《生物材料》，24:1121 - 1131(2003)；Peterson等人，《生物共轭化学》，13:845 - 854(2002)）。无毒水溶性脂聚合物（WSLP）先前是使用支链聚（乙烯亚胺）（PEI，分子量1800）和胆固醇氯甲酸酯开发的（Han、Mahato和Kim，《生物共轭化学》，12:337 - 345(2001)），是一种有效的非病毒基因载体，其转染水平与高分子量PEI相当或更高，且细胞毒性较低。为了解这些聚合载体的差异如何影响转染，我们在细胞水平研究了聚合物基因载体的药代动力学。

材料与方法

将细胞在体外暴露于不同的聚合载体，并使用细胞分级分离和实时定量PCR测定载体向不同细胞区室的转运。将多室数学模型应用于质粒跨每个细胞屏障转运的时间序列测量。

结果

我们的结果表明，与传统的PEI载体相比，WSLP的化学修饰显著增加了内体逃逸的速率参数，从而提高了总体转染效率。

结论

这些结果与载体设计中内体不稳定的目标一致。该方法为评估用于基因递送的不同聚合物构建体设计提供了一种定量手段。

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使用聚乙烯亚胺载体进行非病毒基因递送的细胞内动力学

Intracellular kinetics of non-viral gene delivery using polyethylenimine carriers.

作者信息

机构信息

出版信息

PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

目的

材料与方法

结果

结论

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