Zhijia Sheng scite author profile

Selenocysteine (Sec), a vital member of reactive selenium species, is closely implicated in diverse pathophysiological states, including cancer, cardiovascular diseases, diabetes, neurodegenerative diseases, and male infertility. Monitoring Sec in vivo is of significant interest for understanding the physiological roles of Sec and the mechanisms of human diseases associated with abnormal levels of Sec. However, no bioluminescence probe for real-time monitoring of Sec in vivo has been reported. Herein, we present a novel bioluminescent probe BF-1 as an effective tool for the determination of Sec in living cells and in vivo for the first time. BF-1 has advantages of high sensitivity (a detection limit of 8 nM), remarkable bioluminescence enhancement (580fold), reasonable selectivity, low cytotoxicity, and high signal-to-noise ratio imaging feasibility of Sec in living cells and mice. More importantly, BF-1 affords high sensitivity for monitoring Sec stimulated by Na 2 SeO 3 in tumor-bearing mice. These results demonstrate that our new probe could serve as a powerful tool to selectively monitor Sec in vivo, thus providing a valuable approach for exploring the physiological and pathological functions and anticancer mechanisms of selenium.

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Near-Infrared Fluorescence Probes for Monitoring and Diagnosing Nephron-Urological Diseases

Wang

Sheng

Guo

et al. 2023

Coordination Chemistry Reviews

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Bioluminescence imaging of fibroblast activation protein-alpha in vivo and human plasma with highly sensitive probe

Zhang

Ying²,

Sheng³

et al. 2022

Analytical Biochemistry

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Activatable self-assembled organic nanotheranostics: Aspartyl aminopeptidase triggered NIR fluorescence imaging-guided photothermal/photodynamic synergistic therapy

Zhao

Liu

Sun

et al. 2022

Analytica Chimica Acta

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Zhijia Sheng

Bioluminescence Imaging of Selenocysteine in Vivo with a Highly Sensitive Probe

Near-Infrared Fluorescence Probes for Monitoring and Diagnosing Nephron-Urological Diseases

Bioluminescence imaging of fibroblast activation protein-alpha in vivo and human plasma with highly sensitive probe

Activatable self-assembled organic nanotheranostics: Aspartyl aminopeptidase triggered NIR fluorescence imaging-guided photothermal/photodynamic synergistic therapy

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