A cancer nanovaccine based on an FeAl-layered double hydroxide framework for reactive oxygen species-augmented metalloimmunotherapy
The complexity and heterogeneity of individual tumors have hindered the efficacy of existing therapeutic cancer vaccines, sparking intensive interest in the development of more effective in situ vaccines. Herein, we introduce a cancer nanovaccine for reactive oxygen species-augmented metalloimmunoth...
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sg-ntu-dr.10356-1779032024-06-03T01:37:38Z A cancer nanovaccine based on an FeAl-layered double hydroxide framework for reactive oxygen species-augmented metalloimmunotherapy Chang, Mengyu Wang, Man Liu, Bin Zhong, Wenbin Jana, Deblin Wang, Yifan Dong, Shiyan Antony, Abin Li, Chunxia Liu, Yuhui Zhao, Zhongqi Lin, Jun Jiang, Wen Zhao, Yanli School of Chemistry, Chemical Engineering and Biotechnology Medicine, Health and Life Sciences Augmented reactive oxygen species Cancer nanovaccine The complexity and heterogeneity of individual tumors have hindered the efficacy of existing therapeutic cancer vaccines, sparking intensive interest in the development of more effective in situ vaccines. Herein, we introduce a cancer nanovaccine for reactive oxygen species-augmented metalloimmunotherapy in which FeAl-layered double hydroxide (LDH) is used as a delivery vehicle with dihydroartemisinin (DHA) as cargo. The LDH framework is acid-labile and can be degraded in the tumor microenvironment, releasing iron ions, aluminum ions, and DHA. The iron ions contribute to aggravated intratumoral oxidative stress injury by the synergistic Fenton reaction and DHA activation, causing apoptosis, ferroptosis, and immunogenic cell death in cancer cells. The subsequently released tumor-associated antigens with the aluminum adjuvant form a cancer nanovaccine to generate robust and long-term immune responses against cancer recurrence and metastasis. Moreover, Fe ion-enabled T1-weighted magnetic resonance imaging can facilitate real-time tumor therapy monitoring. This cancer-nanovaccine-mediated metalloimmunotherapy strategy has the potential for revolutionizing the precision immunotherapy landscape. National Research Foundation (NRF) This work was supported by the National Research Foundation Singapore under Its Competitive Research Programme (Grant NRF-CRP26-2021-0002) and the National Natural Science Foundation of China (Grants 51929201 and U22A20347). 2024-06-03T01:37:38Z 2024-06-03T01:37:38Z 2024 Journal Article Chang, M., Wang, M., Liu, B., Zhong, W., Jana, D., Wang, Y., Dong, S., Antony, A., Li, C., Liu, Y., Zhao, Z., Lin, J., Jiang, W. & Zhao, Y. (2024). A cancer nanovaccine based on an FeAl-layered double hydroxide framework for reactive oxygen species-augmented metalloimmunotherapy. ACS Nano, 18(11), 8143-8156. https://dx.doi.org/10.1021/acsnano.3c11960 1936-0851 https://hdl.handle.net/10356/177903 10.1021/acsnano.3c11960 38436248 2-s2.0-85186692497 11 18 8143 8156 en NRF-CRP26-2021-0002 ACS Nano © 2024 American Chemical Society. All rights reserved. |
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Medicine, Health and Life Sciences Augmented reactive oxygen species Cancer nanovaccine |
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Medicine, Health and Life Sciences Augmented reactive oxygen species Cancer nanovaccine Chang, Mengyu Wang, Man Liu, Bin Zhong, Wenbin Jana, Deblin Wang, Yifan Dong, Shiyan Antony, Abin Li, Chunxia Liu, Yuhui Zhao, Zhongqi Lin, Jun Jiang, Wen Zhao, Yanli A cancer nanovaccine based on an FeAl-layered double hydroxide framework for reactive oxygen species-augmented metalloimmunotherapy |
| description |
The complexity and heterogeneity of individual tumors have hindered the efficacy of existing therapeutic cancer vaccines, sparking intensive interest in the development of more effective in situ vaccines. Herein, we introduce a cancer nanovaccine for reactive oxygen species-augmented metalloimmunotherapy in which FeAl-layered double hydroxide (LDH) is used as a delivery vehicle with dihydroartemisinin (DHA) as cargo. The LDH framework is acid-labile and can be degraded in the tumor microenvironment, releasing iron ions, aluminum ions, and DHA. The iron ions contribute to aggravated intratumoral oxidative stress injury by the synergistic Fenton reaction and DHA activation, causing apoptosis, ferroptosis, and immunogenic cell death in cancer cells. The subsequently released tumor-associated antigens with the aluminum adjuvant form a cancer nanovaccine to generate robust and long-term immune responses against cancer recurrence and metastasis. Moreover, Fe ion-enabled T1-weighted magnetic resonance imaging can facilitate real-time tumor therapy monitoring. This cancer-nanovaccine-mediated metalloimmunotherapy strategy has the potential for revolutionizing the precision immunotherapy landscape. |
| author2 |
School of Chemistry, Chemical Engineering and Biotechnology |
| author_facet |
School of Chemistry, Chemical Engineering and Biotechnology Chang, Mengyu Wang, Man Liu, Bin Zhong, Wenbin Jana, Deblin Wang, Yifan Dong, Shiyan Antony, Abin Li, Chunxia Liu, Yuhui Zhao, Zhongqi Lin, Jun Jiang, Wen Zhao, Yanli |
| format |
Article |
| author |
Chang, Mengyu Wang, Man Liu, Bin Zhong, Wenbin Jana, Deblin Wang, Yifan Dong, Shiyan Antony, Abin Li, Chunxia Liu, Yuhui Zhao, Zhongqi Lin, Jun Jiang, Wen Zhao, Yanli |
| author_sort |
Chang, Mengyu |
| title |
A cancer nanovaccine based on an FeAl-layered double hydroxide framework for reactive oxygen species-augmented metalloimmunotherapy |
| title_short |
A cancer nanovaccine based on an FeAl-layered double hydroxide framework for reactive oxygen species-augmented metalloimmunotherapy |
| title_full |
A cancer nanovaccine based on an FeAl-layered double hydroxide framework for reactive oxygen species-augmented metalloimmunotherapy |
| title_fullStr |
A cancer nanovaccine based on an FeAl-layered double hydroxide framework for reactive oxygen species-augmented metalloimmunotherapy |
| title_full_unstemmed |
A cancer nanovaccine based on an FeAl-layered double hydroxide framework for reactive oxygen species-augmented metalloimmunotherapy |
| title_sort |
cancer nanovaccine based on an feal-layered double hydroxide framework for reactive oxygen species-augmented metalloimmunotherapy |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/177903 |
| _version_ |
1800916450790080512 |