Regulation of circadian behaviour and metabolism by REV-ERB-α and REV-ERB-β

Cho, Han; Zhao, Xuan; Hatori, Megumi; Yu, Ruth T.; Barish, Grant D.; Lam, Michael T.; Chong, Ling Wa; DiTacchio, Luciano; Atkins, Annette R.; Glass, Christopher K.; Liddle, Christopher; Auwerx, Johan; Downes, Michael; Panda, Satchidananda; Evans, Ronald M.

doi:10.1038/nature11048

Cited by 914 publications

(992 citation statements)

References 29 publications

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“…***P < 0.001; *P < 0.05. also enriched in target genes of REV-ERB and REV-ERB (ref. 18), we believe that it is unlikely that the upregulation of these targets in Ho-1-and Ho-2-depleted hepatocytes was due to CO directly regulating the activity of REV-ERB and REV-ERB (discussion in Supplementary Note 2).…”

Section: Heme Oxygenase Depletion Globally Alters Clock-controlled Trmentioning

confidence: 99%

Reciprocal regulation of carbon monoxide metabolism and the circadian clock

Klemz

Reischl

Wallach

et al. 2016

Nat Struct Mol Biol

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Section: Heme Oxygenase Depletion Globally Alters Clock-controlled Trmentioning

confidence: 99%

Reciprocal regulation of carbon monoxide metabolism and the circadian clock

Klemz

Reischl

Wallach

et al. 2016

Nat Struct Mol Biol

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“…For example, thousands of DNAbinding sites in mouse liver are rhythmically occupied by BMAL1, including genes involved in sterol and TAG metabolic pathways (49,50) . Similarly, the circadian cistromes for REV-ERBα, nuclear receptor corepressor and histone deacetylase 3 overlap extensively and are enriched for genes involved in lipid metabolism (51)(52)(53) . Circadian rhythms in genome-wide occupancy for BMAL1, REV-ERBα and REV-ERBβ show strong overlap for metabolic pathways and transcriptional regulators in the liver (52) , and similar findings have been reported for other core clock proteins (BMAL1, CLOCK, NPAS2, PER1, PER2, CRY1 and CRY2) (54) .…”

Section: Regulation Of Clock-controlled Genes Involved In Lipid Metabmentioning

confidence: 99%

“…Similarly, the circadian cistromes for REV-ERBα, nuclear receptor corepressor and histone deacetylase 3 overlap extensively and are enriched for genes involved in lipid metabolism (51)(52)(53) . Circadian rhythms in genome-wide occupancy for BMAL1, REV-ERBα and REV-ERBβ show strong overlap for metabolic pathways and transcriptional regulators in the liver (52) , and similar findings have been reported for other core clock proteins (BMAL1, CLOCK, NPAS2, PER1, PER2, CRY1 and CRY2) (54) . Importantly, the circadian clock can exert its widespread influence on energy metabolism by regulating ratelimiting steps in metabolic pathways (55) , as well as nuclear receptors, including REV-ERB and ROR proteins, and PPARα, PPARγ and PPARδ, which are key transcriptional regulators of lipid metabolism.…”

Section: Regulation Of Clock-controlled Genes Involved In Lipid Metabmentioning

confidence: 99%

Circadian regulation of lipid metabolism

Gooley

2016

Proc. Nutr. Soc.

141

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The circadian system temporally coordinates daily rhythms in feeding behaviour and energy metabolism. The objective of the present paper is to review the mechanisms that underlie circadian regulation of lipid metabolic pathways. Circadian rhythms in behaviour and physiology are generated by master clock neurons in the suprachiasmatic nucleus (SCN). The SCN and its efferent targets in the hypothalamus integrate light and feeding signals to entrain behavioural rhythms as well as clock cells located in peripheral tissues, including the liver, adipose tissue and muscle. Circadian rhythms in gene expression are regulated at the cellular level by a molecular clock comprising a core set of clock genes/proteins. In peripheral tissues, hundreds of genes involved in lipid biosynthesis and fatty acid oxidation are rhythmically activated and repressed by clock proteins, hence providing a direct mechanism for circadian regulation of lipids. Disruption of clock gene function results in abnormal metabolic phenotypes and impaired lipid absorption, demonstrating that the circadian system is essential for normal energy metabolism. The composition and timing of meals influence diurnal regulation of metabolic pathways, with food intake during the usual rest phase associated with dysregulation of lipid metabolism. Recent studies using metabolomics and lipidomics platforms have shown that hundreds of lipid species are circadian-regulated in human plasma, including but not limited to fatty acids, TAG, glycerophospholipids, sterol lipids and sphingolipids. In future work, these lipid profiling approaches can be used to understand better the interaction between diet, mealtimes and circadian rhythms on lipid metabolism and risk for obesity and metabolic diseases.

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“…Rev-erb et Rev-erb corégulent les gènes de la lipogenèse de façon circadienne permettant d'assurer l'homéostasie lipidique. Leur délétion spécifiquement dans le foie conduit à l'apparition d'une stéatose hépatique [35,36]. Rev-erb intervient aussi dans le développement du tissu adipeux et la synthèse des acides biliaires et du glucose [37].…”

Section: Couplage De L'horloge Moléculaire Avec Le Statut Métaboliqueunclassified