含组氨酸的多肽和多肽作为核酸载体。

Patrick Midoux, Eric LeCam, Dominique Coulaud, Etienne Delain, Chantal Pichon
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引用次数: 42

摘要

在哺乳动物细胞中的核酸转移是急剧改善的装置,增加其在胞吞作用时在细胞质中的传递。在本章中,我们描述了一种富含组氨酸的肽(H5WYG)、组氨酸化寡聚赖氨酸(HoK)和组氨酸化聚赖氨酸(HpK)对质粒DNA (pDNA)和寡核苷酸(ODN)转移的影响,这种影响是基于多l -组氨酸在一定pH剂量下对内体的膜不稳定能力而设计的。我们报道H5WYG在pH 6.4时可以渗透细胞膜,有利于乳糖化聚赖氨酸/pDNA复合物介导的转染,并且通过降低细胞外介质的pH,允许细胞质和细胞核装载ODN。我们发现HoK与ODN和HpK形成35 nm的小阳离子球形颗粒,与pDNA形成100 nm的棒状或环形阳离子颗粒。聚乙二醇化在生理盐浓度下稳定这些颗粒。我们还发现(i) HoK/ODN复合物使反义ODN的生物活性增加了20倍以上,从而抑制瞬时基因和组成基因的表达;(ii) HpK/pDNA复合物的转染效率比聚赖氨酸/pDNA复合物高3-4.5个数量级。我们还提供证据表明,这些多组氨酸化分子的作用是由内体中的咪唑质子化介导的。总的来说,我们的数据表明,多组氨酸化分子构成了有效的核酸细胞质递送的有趣装置,组氨酸化的聚赖氨酸和pDNA之间的离子复合物对于开发非病毒基因递送系统具有吸引力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Histidine containing peptides and polypeptides as nucleic acid vectors.

Nucleic acid transfer in mammalian cels is drastically improved with devices which increase their delivery in the cytosol upon endocytosis. In this chapter, we describe the effect on plasmid DNA (pDNA) and oligonucleotide (ODN) transfer, of an histidine-rich peptide (H5WYG), histidylated oligolysine (HoK), and histidylated polylysine (HpK) designed on the basis of the membrane destabilization capacity of poly-L-histidine at a pH dose to that of the endosomes. We report that H5WYG, which permeabilizes the cell membrane at pH 6.4, favors the transfection mediated by lactosylated polylysine/pDNA complexes and, by lowering the pH of extracellular medium, allows the loading of the cytosol and the cell nucleus with ODN. We show that HoK forms small cationic spherical particles of 35 nm with ODN and HpK rod or toroid cationic particles of 100 nm with pDNA. PEGylation stabilizes these particles at physiological salt concentration. We also show that (i) HoK/ODN complexes yield a more than 20-fold increase of the biological activity of antisense ODN towards the inhibition of transient as well as constitutive gene expression and (ii) HpK/pDNA complexes yield a transfection efficiency of 3-4.5 order of magnitude higher than do polylysine/pDNA complexes. We also provide evidence that the effect of these polyhistidylated molecules is mediated by imidazole protonation in endosomes. Overall our data show that polyhistidylated molecules constitute interesting devices for an efficient cytosolic delivery of nucleic acids, and that ionic complexes between histidylated polylysine and a pDNA are attractive for developing a nonviral gene delivery system.

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