缀合有环糊精的糖基化聚酰胺-胺树枝状聚合物作为细胞特异性非病毒载体。

Sugar-appended polyamidoamine dendrimer conjugates with cyclodextrins as cell-specific non-viral vectors.

机构信息

Graduate School of Pharmaceutical Sciences, Kumamoto University, 5-1Oe-honmachi, Chuo-ku, Kumamoto 862-0973, Japan.

出版信息

Adv Drug Deliv Rev. 2013 Aug;65(9):1204-14. doi: 10.1016/j.addr.2013.04.001. Epub 2013 Apr 17.

DOI:10.1016/j.addr.2013.04.001

Abstract

The widespread use of various cyclodextrin (CyD)-appended polymers and polyrotaxanes as gene carriers has been reported. Among the various polyamidoamine dendrimer (dendrimer) conjugates with CyDs (CDE), the dendrimer (G3) conjugate with α-CyD having an average degree of substitution (DS) of 2.4 (α-CDE (G3, DS 2)) displayed remarkable properties as DNA carriers. In an attempt to develop cell-specific gene transfer carriers, we prepared some sugar-appended α-CDEs, e.g. mannosylated, galactosylated, and lactosylated α-CDEs. In addition, PEGylated Lac-α-CDEs (G3) were prepared and evaluated as a hepatocyte-selective and serum-resistant gene transfer carrier. Moreover, PEGylated-α-CDE/CyD polypseudorotaxane systems for novel sustained DNA release system have been developed. Interestingly, glucronylglucosyl-β-cyclodextrin (GUG-β-CyD) conjugates with dendrimer (G2) (GUG-β-CDE (G2)) had superior gene transfer activity to α-CDE (G2), expecting a development of new series of sugar-appended CDEs over α-CDEs (G2). Collectively, sugar-appended α-CDEs have the potential as novel cell-specific and safe carriers for DNA.

摘要

各种环糊精（CyD）修饰的聚合物和聚轮烷已被广泛用作基因载体。在具有 CyD 的各种聚酰胺胺树枝状大分子（树枝状大分子）缀合物（CDE）中，具有平均取代度（DS）为 2.4 的α-CyD 的树枝状大分子（G3）缀合物（α-CDE（G3，DS 2））显示出作为 DNA 载体的显著特性。为了开发具有细胞特异性的基因转移载体，我们制备了一些糖修饰的α-CDE，例如甘露糖基化、半乳糖基化和乳糖基化的α-CDE。此外，还制备了聚乙二醇化 Lac-α-CDE（G3）并将其作为肝选择性和抗血清基因转移载体进行了评价。此外，还开发了用于新型持续 DNA 释放系统的聚乙二醇化-α-CDE/CyD 假轮烷系统。有趣的是，具有树枝状大分子（G2）的葡糖醛酸基葡萄糖基-β-环糊精（GUG-β-CyD）缀合物（GUG-β-CDE（G2））比α-CDE（G2）具有更高的基因转移活性，有望开发出一系列新型糖修饰的 CDE 超过α-CDE（G2）。总的来说，糖修饰的α-CDE 具有作为新型细胞特异性和安全的 DNA 载体的潜力。

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缀合有环糊精的糖基化聚酰胺-胺树枝状聚合物作为细胞特异性非病毒载体。

Sugar-appended polyamidoamine dendrimer conjugates with cyclodextrins as cell-specific non-viral vectors.

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