Probing the Intracellular Dynamics of Nitric Oxide and Hydrogen Sulfide Using an Activatable NIR II Fluorescence Reporter

Understanding the complex interplay among gasotransmitters is of great significance but remains technically challenging. In this study, we present the design and synthesis of a dually responsive BOD‐NH‐SC reporter for probing the dynamic and alternating existence of NO and H2S in living cells. This...

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Veröffentlicht in:	Angewandte Chemie 2021-04, Vol.133 (15), p.8531-8535
Hauptverfasser:	Zhu, Tianli, Ren, Ning, Liu, Xia, Dong, Yan, Wang, Rongchen, Gao, Jinzhu, Sun, Jie, Zhu, Ying, Wang, Lihua, Fan, Chunhai, Tian, He, Li, Jiang, Zhao, Chunchang
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Schlagworte:	activatable probe Chemistry Fluorescence H2S Hydrogen sulfide Intracellular molecular probe NIR II Fluorescence Nitric oxide Nitrosation Signal transduction
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container_title	Angewandte Chemie
container_volume	133
creator	Zhu, Tianli Ren, Ning Liu, Xia Dong, Yan Wang, Rongchen Gao, Jinzhu Sun, Jie Zhu, Ying Wang, Lihua Fan, Chunhai Tian, He Li, Jiang Zhao, Chunchang
description	Understanding the complex interplay among gasotransmitters is of great significance but remains technically challenging. In this study, we present the design and synthesis of a dually responsive BOD‐NH‐SC reporter for probing the dynamic and alternating existence of NO and H2S in living cells. This designed reporter can repeatedly cycle S‐nitrosation and transnitrosation reactions when successively treated with NO and H2S, thus affording the interchange of NIR fluorescence at 645 nm (NO) and NIR II fluorescence at 936 nm (H2S). In light of this unique fluorescence alternation between two colors, we synthesized water‐soluble BOD‐NH‐SC dots to visualize the intracellular dynamics of NO and H2S. These molecular probes thus provide a toolbox to elucidate the interplaying roles of NO and H2S in the complex interaction networks of various signal transduction pathways. Activatable NIR II probe: A dual‐stimuli responsive probe was developed. This probe endowed the capability of reversibly switching the fluorescence from NIR II at 936 nm to NIR at 645 nm when successively treated with NO and H2S, enabling visualization of the dynamic and alternating existence of NO and H2S.
doi_str_mv	10.1002/ange.202015650
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In this study, we present the design and synthesis of a dually responsive BOD‐NH‐SC reporter for probing the dynamic and alternating existence of NO and H2S in living cells. This designed reporter can repeatedly cycle S‐nitrosation and transnitrosation reactions when successively treated with NO and H2S, thus affording the interchange of NIR fluorescence at 645 nm (NO) and NIR II fluorescence at 936 nm (H2S). In light of this unique fluorescence alternation between two colors, we synthesized water‐soluble BOD‐NH‐SC dots to visualize the intracellular dynamics of NO and H2S. These molecular probes thus provide a toolbox to elucidate the interplaying roles of NO and H2S in the complex interaction networks of various signal transduction pathways. Activatable NIR II probe: A dual‐stimuli responsive probe was developed. 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subjects	activatable probe Chemistry Fluorescence H2S Hydrogen sulfide Intracellular molecular probe NIR II Fluorescence Nitric oxide Nitrosation Signal transduction
title	Probing the Intracellular Dynamics of Nitric Oxide and Hydrogen Sulfide Using an Activatable NIR II Fluorescence Reporter
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