两性离子到阳离子电荷转换聚前药纳米医学用于增强药物递送。

Zwitterionic-to-cationic charge conversion polyprodrug nanomedicine for enhanced drug delivery.

机构信息

School of Life Sciences, Tianjin University and Tianjin Engineering Center of Micro-Nano Biomaterials and Detection-Treatment Technology, Tianjin 300072, China.

Laboratory of Molecular Imaging and Nanomedicine, National Institute of Biomedical Imaging and Bioengineering, National Institutes of Health, Bethesda, Maryland 20892, United States.

出版信息

Theranostics. 2020 May 17;10(15):6629-6637. doi: 10.7150/thno.47849. eCollection 2020.

DOI:10.7150/thno.47849

PMID:32550894

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7295052/

Abstract

Zwitterionic surface modification is a promising strategy for nanomedicines to achieve prolonged circulation time and thus effective tumor accumulation. However, zwitterion modified nanoparticles suffer from reduced cellular internalization efficiency. A polyprodrug-based nanomedicine with zwitterionic-to-cationic charge conversion ability (denoted as ZTC-NMs) was developed for enhanced chemotherapeutic drug delivery. The polyprodrug consists of pH-responsive poly(carboxybetaine)-like zwitterionic segment and glutathione-responsive camptothecin prodrug segment. The ZTC-NMs combine the advantages of zwitterionic surface and polyprodrug. Compared with conventional zwitterionic surface, the ZTC-NMs can respond to tumor microenvironment and realize ZTC surface charge conversion, thus improve cellular internalization efficiency of the nanomedicines. This ZTC method offers a strategy to promote the drug delivery efficiency and therapeutic efficacy, which is promising for the development of cancer nanomedicines.

摘要

两性离子表面修饰是纳米医学实现延长循环时间从而有效聚集于肿瘤的一种有前途的策略。然而，两性离子修饰的纳米颗粒的细胞内化效率降低。本研究设计了一种具有两性离子到阳离子电荷转换能力的基于前药的纳米医学（表示为 ZTC-NMs），用于增强化疗药物的递送。该前药由 pH 响应的聚（羧基甜菜碱）样两性离子段和谷胱甘肽响应的喜树碱前药段组成。ZTC-NMs 结合了两性离子表面和前药的优点。与传统的两性离子表面相比，ZTC-NMs 可以响应肿瘤微环境并实现 ZTC 表面电荷转换，从而提高纳米药物的细胞内化效率。这种 ZTC 方法提供了一种提高药物递送效率和治疗效果的策略，有望用于开发癌症纳米医学。

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两性离子到阳离子电荷转换聚前药纳米医学用于增强药物递送。

Zwitterionic-to-cationic charge conversion polyprodrug nanomedicine for enhanced drug delivery.

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