Carbon‐Encapsulated Magnetite Nanodoughnut as a NIR‐II Responsive Nanozyme for Synergistic Chemodynamic–Photothermal Therapy-Reference-Cited by-同舟云学术

Carbon‐Encapsulated Magnetite Nanodoughnut as a NIR‐II Responsive Nanozyme for Synergistic Chemodynamic–Photothermal Therapy

Published:2023-08-13 Issue:29 Volume:12 Page:
ISSN:2192-2640
Container-title:Advanced Healthcare Materials
language:en
Short-container-title:Adv Healthcare Materials

Author:

Meng Xiangfu¹²,Zhang Zonghui¹³⁴,Qian Yong¹²,Wang Xingyu¹²,Lin Yefeng¹²,Shi Xinyi¹²,Lin Wenchu¹²³⁴,Zhang Miqin⁵,Wang Hui¹²³^ORCID

Affiliation:

1. High Magnetic Field Laboratory Hefei Institutes of Physical Science Chinese Academy of Science Hefei Anhui 230031 P. R. China

2. Hefei National Laboratory for Physical Sciences at the Microscale University of Science and Technology of China Hefei Anhui 230026 P. R. China

3. Key Laboratory of High Magnetic Field and Ion Beam Physical Biology Hefei Institutes of Physical Science Chinese Academy of Sciences Hefei Anhui 230031 P. R. China

4. School of Basic Medicine Anhui Medical University Hefei Anhui 230032 P. R. China

5. Department of Materials Science and Engineering University of Washington Seattle WA 98195 USA

Abstract

AbstractMagnetite‐based nanozymes have attracted great interest for catalytic cancer therapy enabled by catalyzing hydrogen peroxide (H2O2) to produce highly toxic hydroxyl radicals (•OH) to kill tumor cells. However, their therapeutic efficacies remain low due to insufficient •OH. Here, a light‐responsive carbon‐encapsulated magnetite nanodoughnuts (CEMNDs) with dual‐catalytic activities for photothermal‐enhanced chemodynamic therapy (CDT) is reported. The CEMNDs can accumulate in tumor and get into tumor cells and effectively act as peroxidase to convert H2O2 to •OH that causes tumor cell death. The CEMNDs also possess intrinsic glutathione oxidase‐like activity that which catalyzes the oxidation of reduced glutathione and produce lipid peroxidase for enhanced catalytic therapy. Furthermore, the CEMNDs can absorb 1064 nm light to elevate local temperature and increase release of Fe ions for photothermal therapy and enhanced CDT respectively. The in vivo experiments in an aggressive and drug‐resistant metastatic mouse model of triple negative breast cancer model demonstrate excellent synergistic anti‐tumor function and no measurable systemic toxicity of CEMNDs.

Publisher

Wiley

Subject

Pharmaceutical Science,Biomedical Engineering,Biomaterials

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/adhm.202301926

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