Potent prophylactic cancer vaccines harnessing surface antigens shared by tumour cells and induced pluripotent stem cells

Nan Li; Hao Qin; Fei Zhu; Hao Ding; Yang Chen; Yixuan Lin; Ronghui Deng; Tianyu Ma; Yuanyuan Lv; Changhao Xiong; Rong Li; Yaohua Wei; Jian Shi; Hanqing Chen; Yuliang Zhao; Guangbiao Zhou; Hua Guo; Mengyao Lv; Yongfang Lin; Bing Han; Guangjun Nie; Ruifang Zhao

doi:10.1038/s41551-024-01309-0

Potent prophylactic cancer vaccines harnessing surface antigens shared by tumour cells and induced pluripotent stem cells

Nan Li, Hao Qin, Fei Zhu, Hao Ding, Yang Chen, Yixuan Lin, Ronghui Deng, Tianyu Ma, Yuanyuan Lv, Changhao Xiong, Rong Li, Yaohua Wei, Jian Shi, Hanqing Chen, Yuliang Zhao, Guangbiao Zhou, Hua Guo, Mengyao Lv, Yongfang Lin, Bing Han^*Guangjun Nie^*, Ruifang Zhao^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

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Abstract

The development of prophylactic cancer vaccines typically involves the selection of combinations of tumour-associated antigens, tumour-specific antigens and neoantigens. Here we show that membranes from induced pluripotent stem cells can serve as a tumour-antigen pool, and that a nanoparticle vaccine consisting of self-assembled commercial adjuvants wrapped by such membranes robustly stimulated innate immunity, evaded antigen-specific tolerance and activated B-cell and T-cell responses, which were mediated by epitopes from the abundant number of antigens shared between the membranes of tumour cells and pluripotent stem cells. In mice, the vaccine elicited systemic antitumour memory T-cell and B-cell responses as well as tumour-specific immune responses after a tumour challenge, and inhibited the progression of melanoma, colon cancer, breast cancer and post-operative lung metastases. Harnessing antigens shared by pluripotent stem cell membranes and tumour membranes may facilitate the development of universal cancer vaccines.

Original language	English
Article number	e146956
Journal	Nature Biomedical Engineering
DOIs	https://doi.org/10.1038/s41551-024-01309-0
Publication status	Published - 2024
Externally published	Yes

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Li, N., Qin, H., Zhu, F., Ding, H., Chen, Y., Lin, Y., Deng, R., Ma, T., Lv, Y., Xiong, C., Li, R., Wei, Y., Shi, J., Chen, H., Zhao, Y., Zhou, G., Guo, H., Lv, M., Lin, Y., ... Zhao, R. (2024). Potent prophylactic cancer vaccines harnessing surface antigens shared by tumour cells and induced pluripotent stem cells. Nature Biomedical Engineering, Article e146956. https://doi.org/10.1038/s41551-024-01309-0

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title = "Potent prophylactic cancer vaccines harnessing surface antigens shared by tumour cells and induced pluripotent stem cells",

abstract = "The development of prophylactic cancer vaccines typically involves the selection of combinations of tumour-associated antigens, tumour-specific antigens and neoantigens. Here we show that membranes from induced pluripotent stem cells can serve as a tumour-antigen pool, and that a nanoparticle vaccine consisting of self-assembled commercial adjuvants wrapped by such membranes robustly stimulated innate immunity, evaded antigen-specific tolerance and activated B-cell and T-cell responses, which were mediated by epitopes from the abundant number of antigens shared between the membranes of tumour cells and pluripotent stem cells. In mice, the vaccine elicited systemic antitumour memory T-cell and B-cell responses as well as tumour-specific immune responses after a tumour challenge, and inhibited the progression of melanoma, colon cancer, breast cancer and post-operative lung metastases. Harnessing antigens shared by pluripotent stem cell membranes and tumour membranes may facilitate the development of universal cancer vaccines.",

author = "Nan Li and Hao Qin and Fei Zhu and Hao Ding and Yang Chen and Yixuan Lin and Ronghui Deng and Tianyu Ma and Yuanyuan Lv and Changhao Xiong and Rong Li and Yaohua Wei and Jian Shi and Hanqing Chen and Yuliang Zhao and Guangbiao Zhou and Hua Guo and Mengyao Lv and Yongfang Lin and Bing Han and Guangjun Nie and Ruifang Zhao",

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doi = "10.1038/s41551-024-01309-0",

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Li, N, Qin, H, Zhu, F, Ding, H, Chen, Y, Lin, Y, Deng, R, Ma, T, Lv, Y, Xiong, C, Li, R, Wei, Y, Shi, J, Chen, H, Zhao, Y, Zhou, G, Guo, H, Lv, M, Lin, Y, Han, B, Nie, G & Zhao, R 2024, 'Potent prophylactic cancer vaccines harnessing surface antigens shared by tumour cells and induced pluripotent stem cells', Nature Biomedical Engineering. https://doi.org/10.1038/s41551-024-01309-0

TY - JOUR

T1 - Potent prophylactic cancer vaccines harnessing surface antigens shared by tumour cells and induced pluripotent stem cells

AU - Li, Nan

AU - Qin, Hao

AU - Zhu, Fei

AU - Ding, Hao

AU - Chen, Yang

AU - Lin, Yixuan

AU - Deng, Ronghui

AU - Ma, Tianyu

AU - Lv, Yuanyuan

AU - Xiong, Changhao

AU - Li, Rong

AU - Wei, Yaohua

AU - Shi, Jian

AU - Chen, Hanqing

AU - Zhao, Yuliang

AU - Zhou, Guangbiao

AU - Guo, Hua

AU - Lv, Mengyao

AU - Lin, Yongfang

AU - Han, Bing

AU - Nie, Guangjun

AU - Zhao, Ruifang

PY - 2024

Y1 - 2024

N2 - The development of prophylactic cancer vaccines typically involves the selection of combinations of tumour-associated antigens, tumour-specific antigens and neoantigens. Here we show that membranes from induced pluripotent stem cells can serve as a tumour-antigen pool, and that a nanoparticle vaccine consisting of self-assembled commercial adjuvants wrapped by such membranes robustly stimulated innate immunity, evaded antigen-specific tolerance and activated B-cell and T-cell responses, which were mediated by epitopes from the abundant number of antigens shared between the membranes of tumour cells and pluripotent stem cells. In mice, the vaccine elicited systemic antitumour memory T-cell and B-cell responses as well as tumour-specific immune responses after a tumour challenge, and inhibited the progression of melanoma, colon cancer, breast cancer and post-operative lung metastases. Harnessing antigens shared by pluripotent stem cell membranes and tumour membranes may facilitate the development of universal cancer vaccines.

AB - The development of prophylactic cancer vaccines typically involves the selection of combinations of tumour-associated antigens, tumour-specific antigens and neoantigens. Here we show that membranes from induced pluripotent stem cells can serve as a tumour-antigen pool, and that a nanoparticle vaccine consisting of self-assembled commercial adjuvants wrapped by such membranes robustly stimulated innate immunity, evaded antigen-specific tolerance and activated B-cell and T-cell responses, which were mediated by epitopes from the abundant number of antigens shared between the membranes of tumour cells and pluripotent stem cells. In mice, the vaccine elicited systemic antitumour memory T-cell and B-cell responses as well as tumour-specific immune responses after a tumour challenge, and inhibited the progression of melanoma, colon cancer, breast cancer and post-operative lung metastases. Harnessing antigens shared by pluripotent stem cell membranes and tumour membranes may facilitate the development of universal cancer vaccines.

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DO - 10.1038/s41551-024-01309-0

M3 - Article

AN - SCOPUS:85213554311

SN - 2157-846X

JO - Nature Biomedical Engineering

JF - Nature Biomedical Engineering

M1 - e146956

ER -

Potent prophylactic cancer vaccines harnessing surface antigens shared by tumour cells and induced pluripotent stem cells

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