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使用“智能”pH敏感型TAT修饰的聚乙二醇化脂质体增强体内肿瘤细胞的转染

Enhanced transfection of tumor cells in vivo using "Smart" pH-sensitive TAT-modified pegylated liposomes.

作者信息

Kale Amit A, Torchilin Vladimir P

机构信息

Department of Pharmaceutical Sciences and Center for Pharmaceutical Biotechnology and Nanomedicine, Northeastern University, Boston, MA 02115, USA.

出版信息

J Drug Target. 2007 Aug-Sep;15(7-8):538-45. doi: 10.1080/10611860701498203.

DOI:10.1080/10611860701498203
PMID:17671900
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3441052/
Abstract

Liposomes have been prepared loaded with DNA (plasmid encoding for the green fluorescent protein, GFP) and additionally modified with TATp and PEG, with PEG being attached to the liposome surface via both pH-sensitive hydrazone and non-pH-sensitive bonds. The pGFP-loaded liposomal preparations have been administered intratumorarly in tumor-bearing mice and the efficacy of tumor cell transfection was followed after 72 h. The administration of pGFP-TATp-liposomes with non-pH-sensitive PEG coating has resulted in only minimal transfection of tumor cells because of steric hindrances for the liposome-to-cell interaction created by the PEG coat, which shielded the surface-attached TATp. At the same time, the administration of pGFP-TATp-liposomes with the low pH-detachable PEG resulted in at least three times more efficient transfection since the removal of PEG under the action of the decreased intratumoral pH leads to the exposure of the liposome-attached TATp residues, enhanced penetration of the liposomes inside tumor cells and more effective intracellular delivery of the pGFP. This result can be considered as an important step in the development of tumor-specific stimuli-sensitive drug and gene delivery systems.

摘要

已制备负载有DNA(编码绿色荧光蛋白GFP的质粒)的脂质体,并额外用TATp和PEG进行修饰,其中PEG通过pH敏感的腙键和非pH敏感键连接到脂质体表面。将负载pGFP的脂质体制剂瘤内注射到荷瘤小鼠体内,并在72小时后跟踪肿瘤细胞转染的效果。具有非pH敏感PEG涂层的pGFP-TATp-脂质体的给药仅导致肿瘤细胞的最小转染,这是因为PEG涂层对脂质体与细胞相互作用产生空间位阻,屏蔽了表面附着的TATp。同时,具有低pH可分离PEG的pGFP-TATp-脂质体的给药导致转染效率至少提高了三倍,因为在肿瘤内pH降低的作用下PEG的去除导致脂质体附着的TATp残基暴露,增强了脂质体在肿瘤细胞内的渗透以及pGFP更有效的细胞内递送。这一结果可被视为肿瘤特异性刺激敏感药物和基因递送系统开发中的重要一步。

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