AND-Gate Logic Förster Resonance Energy Transfer/Magnetic Resonance Tuning Nanoprobe for Programmable Antitumor Immunity Imaging

Xianbin Ma; Mingchuan Mao; Zhenya Liu; Chao Liang; Jiaqi He; Yun Qu; Luzheng Xu; Ran Cheng; Wanru Zhuang; Yao Lei; Weidong Nie; Lan Yuan; Dai Wen Pang; Hai Yan Xie

doi:10.1021/jacs.4c11072

AND-Gate Logic Förster Resonance Energy Transfer/Magnetic Resonance Tuning Nanoprobe for Programmable Antitumor Immunity Imaging

Xianbin Ma, Mingchuan Mao, Zhenya Liu, Chao Liang, Jiaqi He, Yun Qu, Luzheng Xu, Ran Cheng, Wanru Zhuang, Yao Lei, Weidong Nie, Lan Yuan, Dai Wen Pang^*, Hai Yan Xie^*

^*Corresponding author for this work

School of Life Science

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

1 Citation (Scopus)

Abstract

Simultaneous detection of different biomarkers related to the spatiotemporally dynamic immune events is of particular importance for the accurate evaluation of antitumor immune effects. Here, we have developed an AND-gate logic dual resonance energy transfer nanoprobe (named DRET) for dynamic monitoring of programmed CD8⁺ T cell activation and tumor cell apoptosis. Immunotherapy-induced granzyme B secretion from CD8⁺ T cells and the subsequent caspase-3 release from apoptotic tumor cells individually activate one of the tiers of the “AND-gate” logic DRET. The resulting fluorescence recovery and magnetic resonance T1 enhancement can be used for precise immunomodulatory drug screening, early efficacy prediction, and immune stratification. Particularly, not only “Responders” can be distinguished from “Non-responders”, but also “Acquired resistance” can be identified from “Maintain responders”, providing a novel approach to put forward the accurate evaluation of antitumor immunity.

Original language	English
Pages (from-to)	31873-31884
Number of pages	12
Journal	Journal of the American Chemical Society
Volume	146
Issue number	46
DOIs	https://doi.org/10.1021/jacs.4c11072
Publication status	Published - 20 Nov 2024

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Ma, X., Mao, M., Liu, Z., Liang, C., He, J., Qu, Y., Xu, L., Cheng, R., Zhuang, W., Lei, Y., Nie, W., Yuan, L., Pang, D. W., & Xie, H. Y. (2024). AND-Gate Logic Förster Resonance Energy Transfer/Magnetic Resonance Tuning Nanoprobe for Programmable Antitumor Immunity Imaging. Journal of the American Chemical Society, 146(46), 31873-31884. https://doi.org/10.1021/jacs.4c11072

@article{e2184d5ad575425eb7cce8b411577c87,

title = "AND-Gate Logic F{\"o}rster Resonance Energy Transfer/Magnetic Resonance Tuning Nanoprobe for Programmable Antitumor Immunity Imaging",

abstract = "Simultaneous detection of different biomarkers related to the spatiotemporally dynamic immune events is of particular importance for the accurate evaluation of antitumor immune effects. Here, we have developed an AND-gate logic dual resonance energy transfer nanoprobe (named DRET) for dynamic monitoring of programmed CD8+ T cell activation and tumor cell apoptosis. Immunotherapy-induced granzyme B secretion from CD8+ T cells and the subsequent caspase-3 release from apoptotic tumor cells individually activate one of the tiers of the “AND-gate” logic DRET. The resulting fluorescence recovery and magnetic resonance T1 enhancement can be used for precise immunomodulatory drug screening, early efficacy prediction, and immune stratification. Particularly, not only “Responders” can be distinguished from “Non-responders”, but also “Acquired resistance” can be identified from “Maintain responders”, providing a novel approach to put forward the accurate evaluation of antitumor immunity.",

author = "Xianbin Ma and Mingchuan Mao and Zhenya Liu and Chao Liang and Jiaqi He and Yun Qu and Luzheng Xu and Ran Cheng and Wanru Zhuang and Yao Lei and Weidong Nie and Lan Yuan and Pang, {Dai Wen} and Xie, {Hai Yan}",

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year = "2024",

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doi = "10.1021/jacs.4c11072",

language = "English",

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Ma, X, Mao, M, Liu, Z, Liang, C, He, J, Qu, Y, Xu, L, Cheng, R, Zhuang, W, Lei, Y, Nie, W, Yuan, L, Pang, DW & Xie, HY 2024, 'AND-Gate Logic Förster Resonance Energy Transfer/Magnetic Resonance Tuning Nanoprobe for Programmable Antitumor Immunity Imaging', Journal of the American Chemical Society, vol. 146, no. 46, pp. 31873-31884. https://doi.org/10.1021/jacs.4c11072

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T1 - AND-Gate Logic Förster Resonance Energy Transfer/Magnetic Resonance Tuning Nanoprobe for Programmable Antitumor Immunity Imaging

AU - Ma, Xianbin

AU - Mao, Mingchuan

AU - Liu, Zhenya

AU - Liang, Chao

AU - He, Jiaqi

AU - Qu, Yun

AU - Xu, Luzheng

AU - Cheng, Ran

AU - Zhuang, Wanru

AU - Lei, Yao

AU - Nie, Weidong

AU - Yuan, Lan

AU - Pang, Dai Wen

AU - Xie, Hai Yan

PY - 2024/11/20

Y1 - 2024/11/20

N2 - Simultaneous detection of different biomarkers related to the spatiotemporally dynamic immune events is of particular importance for the accurate evaluation of antitumor immune effects. Here, we have developed an AND-gate logic dual resonance energy transfer nanoprobe (named DRET) for dynamic monitoring of programmed CD8+ T cell activation and tumor cell apoptosis. Immunotherapy-induced granzyme B secretion from CD8+ T cells and the subsequent caspase-3 release from apoptotic tumor cells individually activate one of the tiers of the “AND-gate” logic DRET. The resulting fluorescence recovery and magnetic resonance T1 enhancement can be used for precise immunomodulatory drug screening, early efficacy prediction, and immune stratification. Particularly, not only “Responders” can be distinguished from “Non-responders”, but also “Acquired resistance” can be identified from “Maintain responders”, providing a novel approach to put forward the accurate evaluation of antitumor immunity.

AB - Simultaneous detection of different biomarkers related to the spatiotemporally dynamic immune events is of particular importance for the accurate evaluation of antitumor immune effects. Here, we have developed an AND-gate logic dual resonance energy transfer nanoprobe (named DRET) for dynamic monitoring of programmed CD8+ T cell activation and tumor cell apoptosis. Immunotherapy-induced granzyme B secretion from CD8+ T cells and the subsequent caspase-3 release from apoptotic tumor cells individually activate one of the tiers of the “AND-gate” logic DRET. The resulting fluorescence recovery and magnetic resonance T1 enhancement can be used for precise immunomodulatory drug screening, early efficacy prediction, and immune stratification. Particularly, not only “Responders” can be distinguished from “Non-responders”, but also “Acquired resistance” can be identified from “Maintain responders”, providing a novel approach to put forward the accurate evaluation of antitumor immunity.

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SN - 0002-7863

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JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 46

ER -

AND-Gate Logic Förster Resonance Energy Transfer/Magnetic Resonance Tuning Nanoprobe for Programmable Antitumor Immunity Imaging

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