“智能”药物载体：聚乙二醇化TATp修饰的pH敏感脂质体

"Smart" drug carriers: PEGylated TATp-modified pH-sensitive 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 Liposome Res. 2007;17(3-4):197-203. doi: 10.1080/08982100701525035.

DOI:10.1080/08982100701525035

PMID:18027240

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3432921/

Abstract

To engineer drug carriers capable of spontaneous accumulation in tumors and ischemic areas via the enhanced permeability and retention (EPR) effect and further penetration and drug delivery inside tumor or ischemic cells via the action of the cell-penetrating peptide (CPP), we have prepared liposomes simultaneously bearing on their surface CPP (TAT peptide, TATp) moieties and protective PEG chains. PEG chains were incorporated into the liposome membrane via the PEG-attached phosphatidylethanolamine (PE) residue with PEG and PE being conjugated with the lowered pH-degradable hydrazone bond (PEG-HZ-PE). Under normal conditions, liposome-grafted PEG "shielded" liposome-attached TATp moieties since the PEG spacer for TATp attachment (PEG(1000)) was shorter than protective PEG(2000). PEGylated liposomes are expected to accumulate in targets via the EPR effect, but inside the "acidified" tumor or ischemic tissues lose their PEG coating due to the lowered pH-induced hydrolysis of HZ and penetrate inside cells via the now-exposed TATp moieties. This concept is shown here to work in cell cultures in vitro as well as in ischemic cardiac tissues in the Langendorff perfused rat heart model and in tumors in experimental mice in vivo.

摘要

为了构建能够通过增强渗透滞留（EPR）效应在肿瘤和缺血区域自发积聚，并通过细胞穿透肽（CPP）的作用进一步渗透到肿瘤或缺血细胞内部并进行药物递送的药物载体，我们制备了表面同时带有CPP（TAT肽，TATp）部分和保护性PEG链的脂质体。PEG链通过与PEG连接的磷脂酰乙醇胺（PE）残基掺入脂质体膜中，PEG和PE通过降低pH值可降解的腙键（PEG-HZ-PE）共轭。在正常条件下，脂质体接枝的PEG“屏蔽”了脂质体附着的TATp部分，因为用于TATp附着的PEG间隔基（PEG(1000)）比保护性PEG(2000)短。聚乙二醇化脂质体有望通过EPR效应在靶标中积聚，但在“酸化”的肿瘤或缺血组织内部，由于HZ的pH值降低诱导水解，它们会失去PEG涂层，并通过现在暴露的TATp部分渗透到细胞内部。这一概念在体外细胞培养、Langendorff灌注大鼠心脏模型中的缺血心脏组织以及体内实验小鼠的肿瘤中均得到了验证。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9201/3432921/cc93c70eab53/nihms-401638-f0002.jpg

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