Role and neural regulation of clock genes in the rat pineal gland: Clock modulates amplitude of rhythmic expression of Aanat encoding the melatonin‐producing enzyme

Author:

Blancas‐Velazquez Aurea S.1ORCID,Bering Tenna1ORCID,Bille Signe1ORCID,Rath Martin F.1ORCID

Affiliation:

1. Department of Neuroscience, Faculty of Health and Medical Sciences University of Copenhagen Copenhagen Denmark

Abstract

AbstractCircadian clock gene expression in the suprachiasmatic nucleus (SCN) controls 24 h rhythms in body functions, but clock genes are also expressed in extra‐hypothalamic tissues, including the melatonin‐producing pineal gland. The nocturnal increase in pineal melatonin synthesis is a hallmark in circadian biology, but the role of local clock gene oscillations in the mammalian pineal gland is unknown. The aim of this work is to determine the role of clock genes in endocrine function of the pineal gland with focus on the Aanat transcript encoding the rhythm‐generating enzyme of melatonin synthesis. Using the rat as a model, we here established 24 h expression patterns of clock genes in the pineal gland in vivo. Lesion studies showed that rhythmic clock gene expression in the pineal gland to a large extent depends on the SCN; further, clock gene rhythms could be re‐established in cultured pineal cells synchronized by rhythmic stimulation with norepinephrine in 12 h pulses, suggesting that pineal cells house a slave oscillator controlled by adrenergic signaling in the gland. Histological analyses showed that clock genes are expressed in pinealocytes and colocalize with Aanat transcripts, thus potentially enabling clock gene products to control cellular melatonin production. To test this, cultured pineal cells were transfected using small interfering RNA to knock down clock gene expression. While successful knockdown of Per1 had a minor effect on Aanat, Clock knockdown produced a marked overexpression of Aanat in the pinealocytes. Our study suggests that SCN‐dependent rhythmic Clock gene expression in the pinealocytes regulates the daily profile of Aanat expression.

Publisher

Wiley

Subject

Endocrinology

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