Fe₃O₄/Ag/Bi₂ MoO₆ photoactivatable nanozyme for self-replenishing and sustainable cascaded nanocatalytic cancer therapy
Catalytic cancer therapy based on nanozymes has recently attracted much interest. However, the types of the current nanozymes are limited and their efficiency is usually compromised and not sustainable in the tumor microenvironment (TME). Therefore, combination therapy involving additional therapeut...
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sg-ntu-dr.10356-1555472022-03-03T00:53:27Z Fe₃O₄/Ag/Bi₂ MoO₆ photoactivatable nanozyme for self-replenishing and sustainable cascaded nanocatalytic cancer therapy Cao, Changyu Zou, Hai Yang, Nan Li, Hui Cai, Yu Song, Xuejiao Shao, Jinjun Chen, Peng Mou, Xiaozhou Wang, Wenjun Dong, Xiaochen School of Chemical and Biomedical Engineering Lee Kong Chian School of Medicine (LKCMedicine) Engineering::Chemical engineering Hemodynamic Therapy Nanocatalytic Therapy Catalytic cancer therapy based on nanozymes has recently attracted much interest. However, the types of the current nanozymes are limited and their efficiency is usually compromised and not sustainable in the tumor microenvironment (TME). Therefore, combination therapy involving additional therapeutics is often necessary and the resulting complication may jeopardize the practical feasibility. Herein, an unprecedented "all-in-one" Fe3 O4 /Ag/Bi2 MoO6 nanoparticle (FAB NP) is rationally devised to achieve synergistic chemodynamic, photodynamic, photothermal therapy with guidance by magnetic resonance, photoacoustic, and photothermal imaging. Based on its manifold nanozyme activities (mimicking peroxidase, catalase, superoxide dismutase, glutathione oxidase) and photodynamic property, cascaded nanocatalytic reactions are enabled and sustained in TME for outstanding therapeutic outcomes. The working mechanisms underlying the intraparticulate interactions, sustainability, and self-replenishment arising from the coupling between the nanocatalytic reactions and nanozyme activities are carefully revealed, providing new insights into the design of novel nanozymes for nanocatalytic therapy with high efficiency, good specificity, and low side effects. Ministry of Education (MOE) The work was supported by NNSF of China (Nos. 62120106002, 61935004, and 51803091), Jiangsu Province Policy Guidance Plan (No. BZ2019014), Natural Science Foundation of Shandong Province (No. ZR2020KB018), “Taishan scholars” construction special fund of Shandong Province, and AcRF Tier-2 Grant (No. MOE2019-T2-2-004) from Ministry of Education of Singapore. 2022-03-03T00:53:26Z 2022-03-03T00:53:26Z 2021 Journal Article Cao, C., Zou, H., Yang, N., Li, H., Cai, Y., Song, X., Shao, J., Chen, P., Mou, X., Wang, W. & Dong, X. (2021). Fe₃O₄/Ag/Bi₂ MoO₆ photoactivatable nanozyme for self-replenishing and sustainable cascaded nanocatalytic cancer therapy. Advanced Materials, 33(52), 2106996-. https://dx.doi.org/10.1002/adma.202106996 0935-9648 https://hdl.handle.net/10356/155547 10.1002/adma.202106996 34626026 2-s2.0-85117229772 52 33 2106996 en MOE2019-T2-2-004 Advanced Materials © 2021 Wiley-VCH GmbH. All rights reserved. |
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Engineering::Chemical engineering Hemodynamic Therapy Nanocatalytic Therapy Cao, Changyu Zou, Hai Yang, Nan Li, Hui Cai, Yu Song, Xuejiao Shao, Jinjun Chen, Peng Mou, Xiaozhou Wang, Wenjun Dong, Xiaochen Fe₃O₄/Ag/Bi₂ MoO₆ photoactivatable nanozyme for self-replenishing and sustainable cascaded nanocatalytic cancer therapy |
| description |
Catalytic cancer therapy based on nanozymes has recently attracted much interest. However, the types of the current nanozymes are limited and their efficiency is usually compromised and not sustainable in the tumor microenvironment (TME). Therefore, combination therapy involving additional therapeutics is often necessary and the resulting complication may jeopardize the practical feasibility. Herein, an unprecedented "all-in-one" Fe3 O4 /Ag/Bi2 MoO6 nanoparticle (FAB NP) is rationally devised to achieve synergistic chemodynamic, photodynamic, photothermal therapy with guidance by magnetic resonance, photoacoustic, and photothermal imaging. Based on its manifold nanozyme activities (mimicking peroxidase, catalase, superoxide dismutase, glutathione oxidase) and photodynamic property, cascaded nanocatalytic reactions are enabled and sustained in TME for outstanding therapeutic outcomes. The working mechanisms underlying the intraparticulate interactions, sustainability, and self-replenishment arising from the coupling between the nanocatalytic reactions and nanozyme activities are carefully revealed, providing new insights into the design of novel nanozymes for nanocatalytic therapy with high efficiency, good specificity, and low side effects. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Cao, Changyu Zou, Hai Yang, Nan Li, Hui Cai, Yu Song, Xuejiao Shao, Jinjun Chen, Peng Mou, Xiaozhou Wang, Wenjun Dong, Xiaochen |
| format |
Article |
| author |
Cao, Changyu Zou, Hai Yang, Nan Li, Hui Cai, Yu Song, Xuejiao Shao, Jinjun Chen, Peng Mou, Xiaozhou Wang, Wenjun Dong, Xiaochen |
| author_sort |
Cao, Changyu |
| title |
Fe₃O₄/Ag/Bi₂ MoO₆ photoactivatable nanozyme for self-replenishing and sustainable cascaded nanocatalytic cancer therapy |
| title_short |
Fe₃O₄/Ag/Bi₂ MoO₆ photoactivatable nanozyme for self-replenishing and sustainable cascaded nanocatalytic cancer therapy |
| title_full |
Fe₃O₄/Ag/Bi₂ MoO₆ photoactivatable nanozyme for self-replenishing and sustainable cascaded nanocatalytic cancer therapy |
| title_fullStr |
Fe₃O₄/Ag/Bi₂ MoO₆ photoactivatable nanozyme for self-replenishing and sustainable cascaded nanocatalytic cancer therapy |
| title_full_unstemmed |
Fe₃O₄/Ag/Bi₂ MoO₆ photoactivatable nanozyme for self-replenishing and sustainable cascaded nanocatalytic cancer therapy |
| title_sort |
fe₃o₄/ag/bi₂ moo₆ photoactivatable nanozyme for self-replenishing and sustainable cascaded nanocatalytic cancer therapy |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/155547 |
| _version_ |
1726885523464650752 |