Quantitative Real-Time Imaging of Glutathione with Subcellular Resolution

Xiqian Jiang; Chengwei Zhang; Jianwei Chen; Sungwoo Choi; Ying Zhou; Mingkun Zhao; Xianzhou Song; Xi Chen; Mirjana Maletić-Savatić; Timothy Palzkill; David Moore; Meng C. Wang; Jin Wang

doi:10.1089/ars.2018.7605

Quantitative Real-Time Imaging of Glutathione with Subcellular Resolution

Xiqian Jiang, Chengwei Zhang, Jianwei Chen, Sungwoo Choi, Ying Zhou, Mingkun Zhao, Xianzhou Song, Xi Chen, Mirjana Maletić-Savatić, Timothy Palzkill, David Moore, Meng C. Wang, Jin Wang

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

19 Scopus citations

Abstract

Aims: Quantitative imaging of glutathione (GSH) with high spatial and temporal resolution is essential for studying the roles of GSH in redox biology. To study the long-standing question of compartmentalization of GSH, especially its distribution between the nucleus and cytosol, an organelle-targeted quantitative probe is needed. Results: We developed a reversible reaction-based ratiometric fluorescent probe-HaloRT-that can quantitatively measure GSH dynamics with subcellular resolution in real time. Using HaloRT, we quantitatively measured the GSH concentrations in the nucleus and cytosol of HeLa cells and primary hepatocytes under different treatment conditions and found no appreciable concentration gradients between these two organelles. Innovation and Conclusion: We developed the first reversible ratiometric GSH probe that can be universally targeted to any organelle of interest. Taking advantage of this new tool, we provided definitive evidence showing that GSH concentrations are not significantly different between the nucleus and cytosol, challenging the view of nuclear compartmentalization of GSH.

Original language	English (US)
Pages (from-to)	1900-1910
Number of pages	11
Journal	Antioxidants and Redox Signaling
Volume	30
Issue number	16
DOIs	https://doi.org/10.1089/ars.2018.7605
State	Published - Jun 1 2019
Externally published	Yes

Keywords

Glutathione
HaloTag
compartmentalization of glutathione
live-cell imaging
organelle-targeted probe
small-molecule fluorescent probe

ASJC Scopus subject areas

Physiology
Biochemistry
Molecular Biology
Clinical Biochemistry
Cell Biology

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10.1089/ars.2018.7605

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title = "Quantitative Real-Time Imaging of Glutathione with Subcellular Resolution",

abstract = "Aims: Quantitative imaging of glutathione (GSH) with high spatial and temporal resolution is essential for studying the roles of GSH in redox biology. To study the long-standing question of compartmentalization of GSH, especially its distribution between the nucleus and cytosol, an organelle-targeted quantitative probe is needed. Results: We developed a reversible reaction-based ratiometric fluorescent probe-HaloRT-that can quantitatively measure GSH dynamics with subcellular resolution in real time. Using HaloRT, we quantitatively measured the GSH concentrations in the nucleus and cytosol of HeLa cells and primary hepatocytes under different treatment conditions and found no appreciable concentration gradients between these two organelles. Innovation and Conclusion: We developed the first reversible ratiometric GSH probe that can be universally targeted to any organelle of interest. Taking advantage of this new tool, we provided definitive evidence showing that GSH concentrations are not significantly different between the nucleus and cytosol, challenging the view of nuclear compartmentalization of GSH.",

keywords = "Glutathione, HaloTag, compartmentalization of glutathione, live-cell imaging, organelle-targeted probe, small-molecule fluorescent probe",

author = "Xiqian Jiang and Chengwei Zhang and Jianwei Chen and Sungwoo Choi and Ying Zhou and Mingkun Zhao and Xianzhou Song and Xi Chen and Mirjana Maleti{\'c}-Savati{\'c} and Timothy Palzkill and David Moore and Wang, {Meng C.} and Jin Wang",

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year = "2019",

month = jun,

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doi = "10.1089/ars.2018.7605",

language = "English (US)",

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TY - JOUR

T1 - Quantitative Real-Time Imaging of Glutathione with Subcellular Resolution

AU - Jiang, Xiqian

AU - Zhang, Chengwei

AU - Chen, Jianwei

AU - Choi, Sungwoo

AU - Zhou, Ying

AU - Zhao, Mingkun

AU - Song, Xianzhou

AU - Chen, Xi

AU - Maletić-Savatić, Mirjana

AU - Palzkill, Timothy

AU - Moore, David

AU - Wang, Meng C.

AU - Wang, Jin

PY - 2019/6/1

Y1 - 2019/6/1

N2 - Aims: Quantitative imaging of glutathione (GSH) with high spatial and temporal resolution is essential for studying the roles of GSH in redox biology. To study the long-standing question of compartmentalization of GSH, especially its distribution between the nucleus and cytosol, an organelle-targeted quantitative probe is needed. Results: We developed a reversible reaction-based ratiometric fluorescent probe-HaloRT-that can quantitatively measure GSH dynamics with subcellular resolution in real time. Using HaloRT, we quantitatively measured the GSH concentrations in the nucleus and cytosol of HeLa cells and primary hepatocytes under different treatment conditions and found no appreciable concentration gradients between these two organelles. Innovation and Conclusion: We developed the first reversible ratiometric GSH probe that can be universally targeted to any organelle of interest. Taking advantage of this new tool, we provided definitive evidence showing that GSH concentrations are not significantly different between the nucleus and cytosol, challenging the view of nuclear compartmentalization of GSH.

AB - Aims: Quantitative imaging of glutathione (GSH) with high spatial and temporal resolution is essential for studying the roles of GSH in redox biology. To study the long-standing question of compartmentalization of GSH, especially its distribution between the nucleus and cytosol, an organelle-targeted quantitative probe is needed. Results: We developed a reversible reaction-based ratiometric fluorescent probe-HaloRT-that can quantitatively measure GSH dynamics with subcellular resolution in real time. Using HaloRT, we quantitatively measured the GSH concentrations in the nucleus and cytosol of HeLa cells and primary hepatocytes under different treatment conditions and found no appreciable concentration gradients between these two organelles. Innovation and Conclusion: We developed the first reversible ratiometric GSH probe that can be universally targeted to any organelle of interest. Taking advantage of this new tool, we provided definitive evidence showing that GSH concentrations are not significantly different between the nucleus and cytosol, challenging the view of nuclear compartmentalization of GSH.

KW - Glutathione

KW - HaloTag

KW - compartmentalization of glutathione

KW - live-cell imaging

KW - organelle-targeted probe

KW - small-molecule fluorescent probe

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JO - Antioxidants and Redox Signaling

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ER -

Quantitative Real-Time Imaging of Glutathione with Subcellular Resolution

Abstract

Keywords

ASJC Scopus subject areas

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