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Synthesis of Copper Peroxide Nanodots for H2O2 Self-Supplying Chemodynamic Therapy

Lin, Li-Sen ; Huang, Tao ; Song, Jibin ; Ou, Xiang-Yu ; Wang, Zhangtong ; Deng, Hongzhang ; Tian, Rui ; Liu, Yijing ; Wang, Jun-Feng ; Liu, Yuan ; Yu, Guocan ; Zhou, Zijian ; Wang, Sheng ; Niu, Gang ; Yang, Huang-Hao ; Chen, Xiaoyuan

Journal of the American Chemical Society, 2019-06, Vol.141 (25), p.9937-9945 [Periódico revisado por pares]

American Chemical Society

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  • Título:
    Synthesis of Copper Peroxide Nanodots for H2O2 Self-Supplying Chemodynamic Therapy
  • Autor: Lin, Li-Sen ; Huang, Tao ; Song, Jibin ; Ou, Xiang-Yu ; Wang, Zhangtong ; Deng, Hongzhang ; Tian, Rui ; Liu, Yijing ; Wang, Jun-Feng ; Liu, Yuan ; Yu, Guocan ; Zhou, Zijian ; Wang, Sheng ; Niu, Gang ; Yang, Huang-Hao ; Chen, Xiaoyuan
  • É parte de: Journal of the American Chemical Society, 2019-06, Vol.141 (25), p.9937-9945
  • Notas: ObjectType-Article-1
    SourceType-Scholarly Journals-1
    ObjectType-Feature-2
    content type line 23
  • Descrição: Chemodynamic therapy (CDT) employs Fenton catalysts to kill cancer cells by converting intracellular H2O2 into hydroxyl radical (•OH), but endogenous H2O2 is insufficient to achieve satisfactory anticancer efficacy. Despite tremendous efforts, engineering CDT agents with specific and efficient H2O2 self-supplying ability remains a great challenge. Here, we report the fabrication of copper peroxide (CP) nanodot, which is the first example of a Fenton-type metal peroxide nanomaterial, and its use as an activatable agent for enhanced CDT by self-supplying H2O2. The CP nanodots were prepared through coordination of H2O2 to Cu2+ with the aid of hydroxide ion, which could be reversed by acid treatment. After endocytosis into tumor cells, acidic environment of endo/lysosomes accelerated the dissociation of CP nanodots, allowing simultaneous release of Fenton catalytic Cu2+ and H2O2 accompanied by a Fenton-type reaction between them. The resulting •OH induced lysosomal membrane permeabilization through lipid peroxidation and thus caused cell death via a lysosome-associated pathway. In addition to pH-dependent •OH generation property, CP nanodots with small particle size showed high tumor accumulation after intravenous administration, which enabled effective tumor growth inhibition with minimal side effects in vivo. Our work not only provides the first paradigm for fabricating Fenton-type metal peroxide nanomaterials, but also presents a new strategy to improve CDT efficacy.
  • Editor: American Chemical Society
  • Idioma: Inglês
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