Prussian blue analog with separated active sites to catalyze water driven enhanced catalytic treatments

Liu Chun Wang, Pei Yu Chiou, Ya Ping Hsu, Chin Lai Lee, Chih Hsuan Hung, Yi Hsuan Wu, Wen Jyun Wang, Gia Ling Hsieh, Ying Chi Chen, Li Chan Chang, Wen Pin Su, Divinah Manoharan, Min Chiao Liao, Suresh Thangudu, Wei Peng Li*, Chia Hao Su*, Hong Kang Tian*, Chen Sheng Yeh*

*Corresponding author for this work

Research output: Contribution to journalJournal Article peer-review

10 Scopus citations

Abstract

Chemodynamic therapy (CDT) uses the Fenton or Fenton-like reaction to yield toxic ‧OH following H2O2 → ‧OH for tumoral therapy. Unfortunately, H2O2 is often taken from the limited endogenous supply of H2O2 in cancer cells. A water oxidation CoFe Prussian blue (CFPB) nanoframes is presented to provide sustained, external energy-free self-supply of ‧OH from H2O to process CDT and/or photothermal therapy (PTT). Unexpectedly, the as-prepared CFPB nanocubes with no near-infrared (NIR) absorption is transformed into CFPB nanoframes with NIR absorption due to the increased Fe3+-N ≡ C-Fe2+ composition through the proposed proton-induced metal replacement reactions. Surprisingly, both the CFPB nanocubes and nanoframes provide for the self-supply of O2, H2O2, and ‧OH from H2O, with the nanoframe outperforming in the production of ‧OH. Simulation analysis indicates separated active sites in catalyzation of water oxidation, oxygen reduction, and Fenton-like reactions from CFPB. The liposome-covered CFPB nanoframes prepared for controllable water-driven CDT for male tumoral mice treatments.

Original languageEnglish
Article number4709
Pages (from-to)4709
JournalNature Communications
Volume14
Issue number1
DOIs
StatePublished - 05 08 2023

Bibliographical note

© 2023. Springer Nature Limited.

Keywords

  • Male
  • Animals
  • Mice
  • Catalytic Domain
  • Hydrogen Peroxide
  • Catalysis
  • Water
  • Cell Line, Tumor
  • Neoplasms
  • Nanoparticles

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