Quantitative real-time imaging of glutathione

Xiqian Jiang(Baylor College of Medicine), Jianwei Chen(Baylor College of Medicine), Aleksandar Bajić(Baylor College of Medicine), Chengwei Zhang(Baylor College of Medicine), Xianzhou Song(Baylor College of Medicine), Shaina L. Carroll(Baylor College of Medicine), Zhao‐Lin Cai(Baylor College of Medicine), Meiling Tang(Baylor College of Medicine), Mingshan Xue(Baylor College of Medicine), Ninghui Cheng(Baylor College of Medicine), Christian P. Schaaf(Baylor College of Medicine), Feng Li(Baylor College of Medicine), Kevin R. MacKenzie(Baylor College of Medicine), Allan Chris M. Ferreon(Baylor College of Medicine), Fan Xia(Baylor College of Medicine), Meng C. Wang(Baylor College of Medicine), Mirjana Maletić‐Savatić(Baylor College of Medicine), Jin Wang(Baylor College of Medicine)
Nature Communications
July 13, 2017
10.1038/ncomms16087
Cited by 270Open Access
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Abstract

Glutathione plays many important roles in biological processes; however, the dynamic changes of glutathione concentrations in living cells remain largely unknown. Here, we report a reversible reaction-based fluorescent probe-designated as RealThiol (RT)-that can quantitatively monitor the real-time glutathione dynamics in living cells. Using RT, we observe enhanced antioxidant capability of activated neurons and dynamic glutathione changes during ferroptosis. RT is thus a versatile tool that can be used for both confocal microscopy and flow cytometry based high-throughput quantification of glutathione levels in single cells. We envision that this new glutathione probe will enable opportunities to study glutathione dynamics and transportation and expand our understanding of the physiological and pathological roles of glutathione in living cells.

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