Hollow Cu2Se Nanozymes for Tumor Photothermal-Catalytic Therapy

Tumor microenvironment (TME)-mediated cancer therapy, such as chemodynamic therapy (CDT) based on Fenton reaction, has attracted extensive attention in recent years. However, efficient Fenton reactions usually require stringent reaction conditions (low pH value and sufficient H2O2). Therefore, there...

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Bibliographic Details
Published in:Chemistry of materials 2019-08, Vol.31 (16), p.6174-6186
Main Authors: Wang, Xianwen, Zhong, Xiaoyan, Lei, Huali, Geng, Yuehao, Zhao, Qi, Gong, Fei, Yang, Zhijuan, Dong, Ziliang, Liu, Zhuang, Cheng, Liang
Format: Article
Language:English
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Summary:Tumor microenvironment (TME)-mediated cancer therapy, such as chemodynamic therapy (CDT) based on Fenton reaction, has attracted extensive attention in recent years. However, efficient Fenton reactions usually require stringent reaction conditions (low pH value and sufficient H2O2). Therefore, there is an urgent need to improve the efficiency of Fenton reaction within the tumor for enhanced CDT in cancer treatment. Herein, Cu2Se hollow nanocubes (HNCs) are successfully prepared via an anion exchange method using Cu2O nanocubes (NCs) as the template. This method is also successfully used to synthesize Cu2S or CuSSe HNCs with the similar structure. By tuning the reaction time in the process of transforming Cu2O NCs into Cu2Se HNCs, Cu2Se HNCs with optimized performances in high NIR II photothermal conversion efficiency (50.89%) and good Fenton-like properties are obtained. After surface coating, PEGylated Cu2Se HNCs show good water dispersibility and biocompatibility. Importantly, in vitro and in vivo experiments demonstrate the significant synergistic effect of combining photothermal therapy (PTT) and CDT based on PEG-Cu2Se HNCs, achieving greatly enhanced efficacy than that obtained by PTT or CDT alone. Moreover, such PEG-Cu2Se HNCs appear to be rather safe for treated animals without noticeable long-term toxicity.
ISSN:0897-4756
1520-5002
DOI:10.1021/acs.chemmater.9b01958