NRF2 regulates core and stabilizing circadian clock loops, coupling redox and timekeeping in mus musculus

Ryan S. Wible; Chidambaram Ramanathan; Carrie Hayes Sutter; Kristin M. Olesen; Thomas W. Kensler; Andrew C. Liu; Thomas R. Sutter

doi:10.7554/eLife.31656

NRF2 regulates core and stabilizing circadian clock loops, coupling redox and timekeeping in mus musculus

Ryan S. Wible, Chidambaram Ramanathan, Carrie Hayes Sutter, Kristin M. Olesen, Thomas W. Kensler, Andrew C. Liu, Thomas R. Sutter

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

27 Scopus citations

Abstract

Diurnal oscillation of intracellular redox potential is known to couple metabolism with the circadian clock, yet the responsible mechanisms are not well understood. We show here that chemical activation of NRF2 modifies circadian gene expression and rhythmicity, with phenotypes similar to genetic NRF2 activation. Loss of Nrf2 function in mouse fibroblasts, hepatocytes and liver also altered circadian rhythms, suggesting that NRF2 stoichiometry and/or timing of expression are important to timekeeping in some cells. Consistent with this concept, activation of NRF2 at a circadian time corresponding to the peak generation of endogenous oxidative signals resulted in NRF2-dependent reinforcement of circadian amplitude. In hepatocytes, activated NRF2 bound specific enhancer regions of the core clock repressor gene Cry2, increased Cry2 expression and repressed CLOCK/BMAL1-regulated E-box transcription. Together these data indicate that NRF2 and clock comprise an interlocking loop that integrates cellular redox signals into tissue-specific circadian timekeeping.

Original language	English (US)
Article number	e31656
Journal	eLife
Volume	7
DOIs	https://doi.org/10.7554/eLife.31656
State	Published - Feb 26 2018
Externally published	Yes

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology
General Immunology and Microbiology
General Neuroscience

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title = "NRF2 regulates core and stabilizing circadian clock loops, coupling redox and timekeeping in mus musculus",

abstract = "Diurnal oscillation of intracellular redox potential is known to couple metabolism with the circadian clock, yet the responsible mechanisms are not well understood. We show here that chemical activation of NRF2 modifies circadian gene expression and rhythmicity, with phenotypes similar to genetic NRF2 activation. Loss of Nrf2 function in mouse fibroblasts, hepatocytes and liver also altered circadian rhythms, suggesting that NRF2 stoichiometry and/or timing of expression are important to timekeeping in some cells. Consistent with this concept, activation of NRF2 at a circadian time corresponding to the peak generation of endogenous oxidative signals resulted in NRF2-dependent reinforcement of circadian amplitude. In hepatocytes, activated NRF2 bound specific enhancer regions of the core clock repressor gene Cry2, increased Cry2 expression and repressed CLOCK/BMAL1-regulated E-box transcription. Together these data indicate that NRF2 and clock comprise an interlocking loop that integrates cellular redox signals into tissue-specific circadian timekeeping.",

author = "Wible, {Ryan S.} and Chidambaram Ramanathan and Sutter, {Carrie Hayes} and Olesen, {Kristin M.} and Kensler, {Thomas W.} and Liu, {Andrew C.} and Sutter, {Thomas R.}",

note = "Funding Information: We wish to thank Dr. Yang Shen for helpful conversations, technical assistance, and insight he provided on this work, as well as Dr. Zibiao Guo for his technical expertise and assistance in chromatin immunoprecipitation. We also thank Dr. David Ferster (Actimetrics) for helpful conversations and information regarding the software analysis package included with the LumiCycle.National Institutes of Health R01 ES017014 Thomas R Sutter University of Memphis W. Harry Feinstone Center for Genomic Research FCGR Graduate Assistantship Ryan S Wible National Institutes of Health R01 NS054794 Andrew C Liu National Institutes of Health R01 CA197222 Thomas W Kensler The funders had no role in study design, data collection and interpretation, or the decision to submit the work for publication. Publisher Copyright: {\textcopyright} Wible et al.",

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T1 - NRF2 regulates core and stabilizing circadian clock loops, coupling redox and timekeeping in mus musculus

AU - Wible, Ryan S.

AU - Ramanathan, Chidambaram

AU - Sutter, Carrie Hayes

AU - Olesen, Kristin M.

AU - Kensler, Thomas W.

AU - Liu, Andrew C.

AU - Sutter, Thomas R.

N1 - Funding Information: We wish to thank Dr. Yang Shen for helpful conversations, technical assistance, and insight he provided on this work, as well as Dr. Zibiao Guo for his technical expertise and assistance in chromatin immunoprecipitation. We also thank Dr. David Ferster (Actimetrics) for helpful conversations and information regarding the software analysis package included with the LumiCycle.National Institutes of Health R01 ES017014 Thomas R Sutter University of Memphis W. Harry Feinstone Center for Genomic Research FCGR Graduate Assistantship Ryan S Wible National Institutes of Health R01 NS054794 Andrew C Liu National Institutes of Health R01 CA197222 Thomas W Kensler The funders had no role in study design, data collection and interpretation, or the decision to submit the work for publication. Publisher Copyright: © Wible et al.

PY - 2018/2/26

Y1 - 2018/2/26

N2 - Diurnal oscillation of intracellular redox potential is known to couple metabolism with the circadian clock, yet the responsible mechanisms are not well understood. We show here that chemical activation of NRF2 modifies circadian gene expression and rhythmicity, with phenotypes similar to genetic NRF2 activation. Loss of Nrf2 function in mouse fibroblasts, hepatocytes and liver also altered circadian rhythms, suggesting that NRF2 stoichiometry and/or timing of expression are important to timekeeping in some cells. Consistent with this concept, activation of NRF2 at a circadian time corresponding to the peak generation of endogenous oxidative signals resulted in NRF2-dependent reinforcement of circadian amplitude. In hepatocytes, activated NRF2 bound specific enhancer regions of the core clock repressor gene Cry2, increased Cry2 expression and repressed CLOCK/BMAL1-regulated E-box transcription. Together these data indicate that NRF2 and clock comprise an interlocking loop that integrates cellular redox signals into tissue-specific circadian timekeeping.

AB - Diurnal oscillation of intracellular redox potential is known to couple metabolism with the circadian clock, yet the responsible mechanisms are not well understood. We show here that chemical activation of NRF2 modifies circadian gene expression and rhythmicity, with phenotypes similar to genetic NRF2 activation. Loss of Nrf2 function in mouse fibroblasts, hepatocytes and liver also altered circadian rhythms, suggesting that NRF2 stoichiometry and/or timing of expression are important to timekeeping in some cells. Consistent with this concept, activation of NRF2 at a circadian time corresponding to the peak generation of endogenous oxidative signals resulted in NRF2-dependent reinforcement of circadian amplitude. In hepatocytes, activated NRF2 bound specific enhancer regions of the core clock repressor gene Cry2, increased Cry2 expression and repressed CLOCK/BMAL1-regulated E-box transcription. Together these data indicate that NRF2 and clock comprise an interlocking loop that integrates cellular redox signals into tissue-specific circadian timekeeping.

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NRF2 regulates core and stabilizing circadian clock loops, coupling redox and timekeeping in mus musculus

Abstract

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