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PEGMA-modified bimetallic NiCo Prussian blue analogue doped with Tb(III) ions: Efficiently pH-responsive and controlled release system for anticancer drug

药物输送 适体 纳米载体 体内 阿霉素 化学 靶向给药 生物物理学 材料科学 癌症研究 纳米技术 分子生物学 医学 化疗 生物 外科 生物技术
作者
Qiaojuan Jia,Zhenzhen Li,Chuanpan Guo,Xiaoyu Huang,Mengmeng Kang,Yingpan Song,Linghao He,Nan Zhou,Minghua Wang,Zhi Hong Zhang,Guodong Fu,Miao Du
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:389: 124468-124468 被引量:72
标识
DOI:10.1016/j.cej.2020.124468
摘要

A novel drug nanocarrier system based on bimetallic NiCo Prussian blue analogue (NiCo-PBA) was constructed for targeted anticancer drug delivery and cancer therapy. Rare earth Tb3+ ion was doped in NiCo-PBA to prepare a complex with strong fluorescence performance (represented by [email protected]3+). The [email protected]3+ complex was functionalized with poly(ethyleneglycol)- dimethacrylate (PEGMA) (represented by [email protected]3+@PEGMA) by the surface initiated atom transfer radical polymerization to enhance its aqueous stability, pH-responsive capability, and good biocompatibility, thus improving the drug-loading efficiency of NiCo-PBA. An aptamer ligand (AS1411) targeting nucleolin was insensitively anchored onto the [email protected]3+@PEGMA surface for specifically recognizing breast cancer cells. Therefore, the functionalization of [email protected]3+@PEGMA with AS1411 (denoted by [email protected]3+@[email protected]) allowed the pH-responsive drug release within cancer cells and enhanced the tumor-targeted delivery of doxorubicin (DOX). Confocal fluorescence imaging revealed that the [email protected]3+@[email protected] composite was mainly located in the cytoplasm after cellular internalization, and released DOX within the cytoplasm. The in vivo antitumor study with tumor-bearing mice illustrated that [email protected]3+@[email protected]@DOX considerably accumulated in tumor tissues. The tumor growth can be effectively suppressed and exhibited enhanced an anticancer activity in vivo. The proposed [email protected]3+@[email protected] composite represents a growing potential for effective DOX delivery and targeted therapy in vitro and in vivo. The present work can extend the application of PBAs in cancer therapy and cell imaging and provides a new strategy for the construction of controlled release system of anticancer drugs.
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