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Single-atom nanozymes catalytically surpassing naturally occurring enzymes as sustained stitching for brain trauma

Author

Listed:
  • Shaofang Zhang

    (Tianjin University)

  • Yonghui Li

    (Tianjin University)

  • Si Sun

    (Tianjin University)

  • Ling Liu

    (Tianjin University)

  • Xiaoyu Mu

    (Tianjin University)

  • Shuhu Liu

    (Institute of High Energy Physics (IHEP), Chinese Academy of Sciences (CAS))

  • Menglu Jiao

    (Tianjin University)

  • Xinzhu Chen

    (Tianjin University)

  • Ke Chen

    (Tianjin University)

  • Huizhen Ma

    (Tianjin University)

  • Tuo Li

    (Tianjin Medical University General Hospital)

  • Xiaoyu Liu

    (Tianjin University)

  • Hao Wang

    (Tianjin University)

  • Jianning Zhang

    (Tianjin Medical University General Hospital)

  • Jiang Yang

    (Sun Yat-sen University Cancer Center)

  • Xiao-Dong Zhang

    (Tianjin University
    Tianjin University)

Abstract

Regenerable nanozymes with high catalytic stability and sustainability are promising substitutes for naturally-occurring enzymes but are limited by insufficient and non-selective catalytic activities. Herein, we developed single-atom nanozymes of RhN4, VN4, and Fe-Cu-N6 with catalytic activities surpassing natural enzymes. Notably, Rh/VN4 preferably forms an Rh/V-O-N4 active center to decrease reaction energy barriers and mediates a “two-sided oxygen-linked” reaction path, showing 4 and 5-fold higher affinities in peroxidase-like activity than the FeN4 and natural horseradish peroxidase. Furthermore, RhN4 presents a 20-fold improved affinity in the catalase-like activity compared to the natural catalase; Fe-Cu-N6 displays selectivity towards the superoxide dismutase-like activity; VN4 favors a 7-fold higher glutathione peroxidase-like activity than the natural glutathione peroxidase. Bioactive sutures with Rh/VN4 show recyclable catalytic features without apparent decay in 1 month and accelerate the scalp healing from brain trauma by promoting the vascular endothelial growth factor, regulating the immune cells like macrophages, and diminishing inflammation.

Suggested Citation

  • Shaofang Zhang & Yonghui Li & Si Sun & Ling Liu & Xiaoyu Mu & Shuhu Liu & Menglu Jiao & Xinzhu Chen & Ke Chen & Huizhen Ma & Tuo Li & Xiaoyu Liu & Hao Wang & Jianning Zhang & Jiang Yang & Xiao-Dong Zh, 2022. "Single-atom nanozymes catalytically surpassing naturally occurring enzymes as sustained stitching for brain trauma," Nature Communications, Nature, vol. 13(1), pages 1-16, December.
  • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-32411-z
    DOI: 10.1038/s41467-022-32411-z
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    3. Songjing Zhong & Zeyu Zhang & Qinyu Zhao & Zhaoyang Yue & Cheng Xiong & Genglin Chen & Jie Wang & Linlin Li, 2024. "Lattice expansion in ruthenium nanozymes improves catalytic activity and electro-responsiveness for boosting cancer therapy," Nature Communications, Nature, vol. 15(1), pages 1-13, December.
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