Endogenous rhythmicity of Bmal1 and Rev‐erb α in the hamster pineal gland is not driven by norepinephrine

Pineal melatonin is synthesized with daily and seasonal rhythms following the hypothalamic clock‐driven release of norepinephrine (NE). The pineal gland of rats and mice, like the biological clock, expresses a number of clock genes. However, the role of pineal clock elements in pineal physiology is still unknown. We examined the expression and regulation of several clock genes ( Per1 , Cry2 , Bmal1 and Rev‐erbα ) under different lighting conditions or following adrenergic treatments in the Syrian hamster, a seasonal rodent. We found that Per1 and Cry2 genes were similarly regulated by the nocturnal release of NE: levels of Per1 and Cry2 mRNA displayed a nocturnal increase that was maintained after 2 days in constant darkness (DD) but abolished after 2 days under constant light (LL), a condition that suppresses endogenous NE release, or after an early night administration of the adrenergic antagonist propranolol. In contrast, Bmal1 and Rev‐erbα exhibited a different pattern of expression and regulation. mRNA levels of both clock genes displayed a marked daily variation, maintained in DD, with higher values at midday for Bmal1 and at day/night transition for Rev‐erbα . Remarkably, the daily variation of both Bmal1 and Rev‐erbα mRNA was maintained in LL conditions and was not affected by propranolol. This study confirms the daily regulation of Per1 and Cry2 gene expression by NE in the pineal gland of rodents and shows for the first time that a second set of clock genes, Bmal1 and Rev‐erbα are expressed with a circadian rhythm independent of the hypothalamic clock‐driven noradrenergic signal.