活性氧
氧化应激
化学
谷胱甘肽
癌细胞
抗氧化剂
癌症研究
生物物理学
癌症
生物化学
生物
医学
内科学
酶
作者
Qunying Jiang,Lei Fan,Junlin Sun,Jialing Hu,Man He,Bin Hu,Fuan Wang,Xiaoqing Liu
出处
期刊:ACS materials letters
[American Chemical Society]
日期:2021-11-15
卷期号:3 (12): 1778-1785
被引量:4
标识
DOI:10.1021/acsmaterialslett.1c00470
摘要
Oxidative stress modulation is effective to kill cancer. While considerable effort has focused on the promotion of reactive oxygen species (ROS) levels, an additional crucial aspect of ROS regulating systems is the cancer-cell-specific ROS production. Here, we describe a biomineralized nanoparticle that sequentially generates and converts multiple oxygen metabolites into the hydroxyl radical (·OH) in situ in the tumor microenvironment. The biomineralized nanoparticles are MnO2 mineralized bionanoparticles consisting of epigallocatechin gallate (EGCG) and bovine serum albumin (BSA). Overexpressed glutathione in cancer cells dissolves the MnO2 outer layer and induces EGCG autoxidation to elevate O2–· and H2O2 levels. Meanwhile, the generated Mn2+ catalyzes the conversion of H2O2 into ·OH. In addition, the biomineralized nanoparticles modulate the antioxidant system to circumvent tumor resistance to oxidative stress. Using a xenograft mouse model, the biomineralized converter in situ activates cancer-cell-specific ROS burst and inhibits tumor growth with good biosafety, suggesting great potential for precision cancer therapy.
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