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叶酸和转铁蛋白 (TAT) 肽共修饰的脂质体在体外和体内均表现出依赖受体的高效细胞内药物转运。

Folate and TAT peptide co-modified liposomes exhibit receptor-dependent highly efficient intracellular transport of payload in vitro and in vivo.

作者信息

Zhu Yaqin, Cheng Liang, Cheng Lifang, Huang Fazhen, Hu Qing, Li Ling, Tian Chenmin, Wei Lin, Chen Dawei

机构信息

Department of Pharmaceutics, College of Pharmaceutical Sciences, Soochow University, 199 Ren'ai Road, Suzhou, 215123, China.

出版信息

Pharm Res. 2014 Dec;31(12):3289-303. doi: 10.1007/s11095-014-1418-z. Epub 2014 May 24.

DOI:10.1007/s11095-014-1418-z
PMID:24858397
Abstract

PURPOSE

Using different chain lengths of PEG as linkers to develop a novel folate (FA) and TAT peptide co-modified doxorubicin (DOX)-loaded liposome (FA/TAT-LP-DOX) and evaluate its potential for tumor targeted intracellular drug delivery.

METHODS

FA/TAT-LP-DOX was prepared by pH gradient method and post-insertion method and the optimal ligand density was screened by MTT assay. In vitro evaluation was systematically performed through cytotoxicity assay, cellular uptake studies, subcellular localization and cellular uptake mechanism in folate receptor (FR) over-expressing KB tumor cells. In vivo tumor targeted delivery of FA/TAT-LP-DOX was also studied by in vivo fluorescence imaging in a murine KB xenograft model.

RESULTS

The particle size and zeta potential determination indicated that FA and TAT were successfully inserted into the liposome and cationic TAT peptide was completely shielded. With the optimal ligand density (5% of FA and 2.5% TAT), the FA/TAT-LP-DOX exhibited improved cytotoxity and cellular uptake efficiency compared with its single-ligand counterparts (FA-LP-DOX and PEG/TAT-LP-DOX). Competitive inhibition and uptake mechanism experiments revealed that FA and TAT peptide played a synergistic effect in facilitating intracellular transport of the liposome, and association between FA and FA receptors activated this transport process. In vivo imaging further demonstrated the superiority of FA/TAT-LP in tumor targeting and accumulation.

CONCLUSIONS

Folate and TAT peptide co-modified liposome using different chain lengths of PEG as linkers may provide a useful strategy for specific and efficient intracellular drug delivery.

摘要

目的

使用不同链长的聚乙二醇(PEG)作为连接体,开发一种新型的叶酸(FA)和TAT肽共修饰的载阿霉素(DOX)脂质体(FA/TAT-LP-DOX),并评估其肿瘤靶向细胞内药物递送的潜力。

方法

采用pH梯度法和后插入法制备FA/TAT-LP-DOX,并通过MTT法筛选最佳配体密度。通过细胞毒性试验、细胞摄取研究、亚细胞定位以及在叶酸受体(FR)过表达的KB肿瘤细胞中的细胞摄取机制,系统地进行体外评估。还通过小鼠KB异种移植模型中的体内荧光成像研究了FA/TAT-LP-DOX的体内肿瘤靶向递送。

结果

粒径和zeta电位测定表明,FA和TAT成功插入脂质体,阳离子TAT肽被完全屏蔽。在最佳配体密度(5%的FA和2.5%的TAT)下,与单配体对应物(FA-LP-DOX和PEG/TAT-LP-DOX)相比,FA/TAT-LP-DOX表现出更高的细胞毒性和细胞摄取效率。竞争性抑制和摄取机制实验表明,FA和TAT肽在促进脂质体的细胞内转运中发挥协同作用,并且FA与FA受体之间的结合激活了这一转运过程。体内成像进一步证明了FA/TAT-LP在肿瘤靶向和积累方面的优势。

结论

使用不同链长的PEG作为连接体的叶酸和TAT肽共修饰脂质体可能为特异性和高效的细胞内药物递送提供一种有用的策略。

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