Mitochondria-targeting Cu₃VS₄ nanostructure with high copper ionic mobility for photothermoelectric therapy
Thermoelectric therapy has emerged as a promising treatment strategy for oncology, but it is still limited by the low thermoelectric catalytic efficiency at human body temperature and the inevitable tumor thermotolerance. We present a photothermoelectric therapy (PTET) strategy based on triphenylpho...
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sg-ntu-dr.10356-1731132024-01-12T15:32:04Z Mitochondria-targeting Cu₃VS₄ nanostructure with high copper ionic mobility for photothermoelectric therapy Dong, Yushan Dong, Shuming Yu, Chenghao Liu, Jing Gai, Shili Xie, Ying Zhao, Zhiyu Qin, Xiran Feng, Lili Yang, Piaoping Zhao, Yanli School of Chemistry, Chemical Engineering and Biotechnology Science::Chemistry Copper Nanoparticle Thermoelectric therapy has emerged as a promising treatment strategy for oncology, but it is still limited by the low thermoelectric catalytic efficiency at human body temperature and the inevitable tumor thermotolerance. We present a photothermoelectric therapy (PTET) strategy based on triphenylphosphine-functionalized Cu3VS4 nanoparticles (CVS NPs) with high copper ionic mobility at room temperature. Under near-infrared laser irradiation, CVS NPs not only generate hyperthermia to ablate tumor cells but also catalytically yield superoxide radicals and induce endogenous NADH oxidation through the Seebeck effect. Notably, CVS NPs can accumulate inside mitochondria and deplete NADH, reducing ATP synthesis by competitively inhibiting the function of complex I, thereby down-regulating the expression of heat shock proteins to relieve tumor thermotolerance. Both in vitro and in vivo results show notable tumor suppression efficacy, indicating that the concept of integrating PTET and mitochondrial metabolism modulation is highly feasible and offers a translational promise for realizing precise and efficient cancer treatment. Published version This work was supported by the MOST Grant (2016YFA0101202), the National Natural Science Foundation of China (NSFC 51972075, 52002091, and U22A20347), and the Fundamental Research Funds for the Central Universities. 2024-01-12T06:52:45Z 2024-01-12T06:52:45Z 2023 Journal Article Dong, Y., Dong, S., Yu, C., Liu, J., Gai, S., Xie, Y., Zhao, Z., Qin, X., Feng, L., Yang, P. & Zhao, Y. (2023). Mitochondria-targeting Cu₃VS₄ nanostructure with high copper ionic mobility for photothermoelectric therapy. Science Advances, 9(44), eadi9980-. https://dx.doi.org/10.1126/sciadv.adi9980 2375-2548 https://hdl.handle.net/10356/173113 10.1126/sciadv.adi9980 37910608 44 9 eadi9980 en Science Advances © 2023 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution License 4.0 (CC BY). application/pdf |
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Science::Chemistry Copper Nanoparticle Dong, Yushan Dong, Shuming Yu, Chenghao Liu, Jing Gai, Shili Xie, Ying Zhao, Zhiyu Qin, Xiran Feng, Lili Yang, Piaoping Zhao, Yanli Mitochondria-targeting Cu₃VS₄ nanostructure with high copper ionic mobility for photothermoelectric therapy |
| description |
Thermoelectric therapy has emerged as a promising treatment strategy for oncology, but it is still limited by the low thermoelectric catalytic efficiency at human body temperature and the inevitable tumor thermotolerance. We present a photothermoelectric therapy (PTET) strategy based on triphenylphosphine-functionalized Cu3VS4 nanoparticles (CVS NPs) with high copper ionic mobility at room temperature. Under near-infrared laser irradiation, CVS NPs not only generate hyperthermia to ablate tumor cells but also catalytically yield superoxide radicals and induce endogenous NADH oxidation through the Seebeck effect. Notably, CVS NPs can accumulate inside mitochondria and deplete NADH, reducing ATP synthesis by competitively inhibiting the function of complex I, thereby down-regulating the expression of heat shock proteins to relieve tumor thermotolerance. Both in vitro and in vivo results show notable tumor suppression efficacy, indicating that the concept of integrating PTET and mitochondrial metabolism modulation is highly feasible and offers a translational promise for realizing precise and efficient cancer treatment. |
| author2 |
School of Chemistry, Chemical Engineering and Biotechnology |
| author_facet |
School of Chemistry, Chemical Engineering and Biotechnology Dong, Yushan Dong, Shuming Yu, Chenghao Liu, Jing Gai, Shili Xie, Ying Zhao, Zhiyu Qin, Xiran Feng, Lili Yang, Piaoping Zhao, Yanli |
| format |
Article |
| author |
Dong, Yushan Dong, Shuming Yu, Chenghao Liu, Jing Gai, Shili Xie, Ying Zhao, Zhiyu Qin, Xiran Feng, Lili Yang, Piaoping Zhao, Yanli |
| author_sort |
Dong, Yushan |
| title |
Mitochondria-targeting Cu₃VS₄ nanostructure with high copper ionic mobility for photothermoelectric therapy |
| title_short |
Mitochondria-targeting Cu₃VS₄ nanostructure with high copper ionic mobility for photothermoelectric therapy |
| title_full |
Mitochondria-targeting Cu₃VS₄ nanostructure with high copper ionic mobility for photothermoelectric therapy |
| title_fullStr |
Mitochondria-targeting Cu₃VS₄ nanostructure with high copper ionic mobility for photothermoelectric therapy |
| title_full_unstemmed |
Mitochondria-targeting Cu₃VS₄ nanostructure with high copper ionic mobility for photothermoelectric therapy |
| title_sort |
mitochondria-targeting cu₃vs₄ nanostructure with high copper ionic mobility for photothermoelectric therapy |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/173113 |
| _version_ |
1789483015486832640 |