Engineering magnetosomes for ferroptosis/immunomodulation synergism in cancer
As traditional anticancer treatments fail to significantly improve the prognoses, exploration of therapeutic modalities is urgently needed. Herein, a biomimetic magnetosome is constructed to favor the ferroptosis/immunomodulation synergism in cancer. This magnetosome is composed of an Fe3O4 magnetic...
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sg-ntu-dr.10356-1469862021-03-16T07:25:43Z Engineering magnetosomes for ferroptosis/immunomodulation synergism in cancer Zhang, Fan Li, Feng Lu, Gui-Hong Nie, Weidong Zhang, Lijun Lv, Yanlin Bao, Weier Gao, Xiaoyong Wei, Wei Pu, Kanyi Xie, Hai-Yan School of Chemical and Biomedical Engineering Engineering::Chemical engineering Biomimetic Magnetosomes PD-1 Antibody As traditional anticancer treatments fail to significantly improve the prognoses, exploration of therapeutic modalities is urgently needed. Herein, a biomimetic magnetosome is constructed to favor the ferroptosis/immunomodulation synergism in cancer. This magnetosome is composed of an Fe3O4 magnetic nanocluster (NC) as the core and pre-engineered leukocyte membranes as the cloak, wherein TGF-β inhibitor (Ti) can be loaded inside the membrane and PD-1 antibody (Pa) can be anchored on the membrane surface. After intravenous injection, the membrane camouflage results in long circulation, and the NC core with magnetization and superparamagnetism enables magnetic targeting with magnetic resonance imaging (MRI) guidance. Once inside the tumor, Pa and Ti cooperate to create an immunogenic microenvironment, which increases the amount of H2O2 in polarized M1 macrophages and thus promotes the Fenton reaction with Fe ions released from NCs. The generated hydroxyl radicals (•OH) subsequently induce lethal ferroptosis to tumor cells, and the exposed tumor antigen, in turn, improves the microenvironment immunogenicity. The synergism of immunomodulation and ferroptosis in such a cyclical manner therefore leads to potent therapeutic effects with few abnormalities, which supports the engineered magnetosomes as a promising combination modality for anticancer therapy. This work was supported by the National Natural Science Foundation of China (Nos. 81571813, 21874011, and 21622608) and National Key R&D Program of China (2017YFA0207900). 2021-03-16T07:25:43Z 2021-03-16T07:25:43Z 2019 Journal Article Zhang, F., Li, F., Lu, G., Nie, W., Zhang, L., Lv, Y., Bao, W., Gao, X., Wei, W., Pu, K. & Xie, H. (2019). Engineering magnetosomes for ferroptosis/immunomodulation synergism in cancer. ACS Nano, 13(5), 5662-5673. https://dx.doi.org/10.1021/acsnano.9b00892 1936-0851 0000-0002-6244-3187 0000-0002-8064-6009 0000-0002-6330-7929 https://hdl.handle.net/10356/146986 10.1021/acsnano.9b00892 31046234 2-s2.0-85065796466 5 13 5662 5673 en ACS Nano © 2019 American Chemical Society. All rights reserved. |
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Engineering::Chemical engineering Biomimetic Magnetosomes PD-1 Antibody Zhang, Fan Li, Feng Lu, Gui-Hong Nie, Weidong Zhang, Lijun Lv, Yanlin Bao, Weier Gao, Xiaoyong Wei, Wei Pu, Kanyi Xie, Hai-Yan Engineering magnetosomes for ferroptosis/immunomodulation synergism in cancer |
| description |
As traditional anticancer treatments fail to significantly improve the prognoses, exploration of therapeutic modalities is urgently needed. Herein, a biomimetic magnetosome is constructed to favor the ferroptosis/immunomodulation synergism in cancer. This magnetosome is composed of an Fe3O4 magnetic nanocluster (NC) as the core and pre-engineered leukocyte membranes as the cloak, wherein TGF-β inhibitor (Ti) can be loaded inside the membrane and PD-1 antibody (Pa) can be anchored on the membrane surface. After intravenous injection, the membrane camouflage results in long circulation, and the NC core with magnetization and superparamagnetism enables magnetic targeting with magnetic resonance imaging (MRI) guidance. Once inside the tumor, Pa and Ti cooperate to create an immunogenic microenvironment, which increases the amount of H2O2 in polarized M1 macrophages and thus promotes the Fenton reaction with Fe ions released from NCs. The generated hydroxyl radicals (•OH) subsequently induce lethal ferroptosis to tumor cells, and the exposed tumor antigen, in turn, improves the microenvironment immunogenicity. The synergism of immunomodulation and ferroptosis in such a cyclical manner therefore leads to potent therapeutic effects with few abnormalities, which supports the engineered magnetosomes as a promising combination modality for anticancer therapy. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Zhang, Fan Li, Feng Lu, Gui-Hong Nie, Weidong Zhang, Lijun Lv, Yanlin Bao, Weier Gao, Xiaoyong Wei, Wei Pu, Kanyi Xie, Hai-Yan |
| format |
Article |
| author |
Zhang, Fan Li, Feng Lu, Gui-Hong Nie, Weidong Zhang, Lijun Lv, Yanlin Bao, Weier Gao, Xiaoyong Wei, Wei Pu, Kanyi Xie, Hai-Yan |
| author_sort |
Zhang, Fan |
| title |
Engineering magnetosomes for ferroptosis/immunomodulation synergism in cancer |
| title_short |
Engineering magnetosomes for ferroptosis/immunomodulation synergism in cancer |
| title_full |
Engineering magnetosomes for ferroptosis/immunomodulation synergism in cancer |
| title_fullStr |
Engineering magnetosomes for ferroptosis/immunomodulation synergism in cancer |
| title_full_unstemmed |
Engineering magnetosomes for ferroptosis/immunomodulation synergism in cancer |
| title_sort |
engineering magnetosomes for ferroptosis/immunomodulation synergism in cancer |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/146986 |
| _version_ |
1695636082599657472 |