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Daily rhythms of REV-ERBα and its role as transcriptional repressor of clock genes in fish hepatic oscillator

The REV-ERBα nuclear receptor is a key component of the molecular machinery of circadian oscillators in mammals. While the rhythmic expression of this receptor has been described in teleosts, several critical aspects of its regulation remain unknown, such as which synchronizers entrain its rhythm, a...

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Published in:Comparative biochemistry and physiology. Part A, Molecular & integrative physiology Molecular & integrative physiology, 2023-09, Vol.283, p.111458-111458, Article 111458
Main Authors: Saiz, Nuria, Herrera-Castillo, Lisbeth, Gómez-Boronat, Miguel, Delgado, María Jesús, Isorna, Esther, de Pedro, Nuria
Format: Article
Language:English
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Summary:The REV-ERBα nuclear receptor is a key component of the molecular machinery of circadian oscillators in mammals. While the rhythmic expression of this receptor has been described in teleosts, several critical aspects of its regulation remain unknown, such as which synchronizers entrain its rhythm, and whether it can modulate the expression of other clock genes. The objective of this study was to gain deeper understanding of the role of REV-ERBα in the fish circadian system. To this end, we first investigated the cues that entrain the rhythm of rev-erbα expression in the goldfish (Carassius auratus) liver and hypothalamus. A 12-h shift in feeding time induced a parallel shift in the hepatic rhythm of rev-erbα expression, confirming that this gene is food-entrainable in the goldfish liver. In contrast, light seems the main driver of rev-erbα rhythmic expression in the hypothalamus. Next, we examined the effects of REV-ERBα activation on locomotor activity and hepatic expression of clock genes. Subchronic treatment with the REV-ERBα agonist SR9009 slightly decreased locomotor activity anticipating light onset and food arrival, and downregulated hepatic bmal1a, clock1a, cry1a, per1a and pparα expression. This generalized repressing action of REV-ERBα on the expression of hepatic clock genes was confirmed in vitro by using agonists (SR9009 and GSK4112) and antagonist (SR8278) of this receptor. Overall, the present work reveals that REV-ERBα modulates the daily expression of the main genes of the teleostean liver clock, reinforcing its role in the liver temporal homeostasis, which seems highly conserved in both fish and mammals. [Display omitted] •rev-erbα rhythm is entrained by feeding time in liver but not in hypothalamus.•REV-ERBα agonist SR9009 slightly reduces FAA, not affecting activity daily rhythms.•REV-ERBα activation downregulates clock gene expression in the hepatic oscillator.•SR8278 antagonist counteracts the repression of liver clock genes by REV-ERBα.•REV-ERBα shows a conserved circadian role in mammals and fish.
ISSN:1095-6433
1531-4332
DOI:10.1016/j.cbpa.2023.111458