WNK3-PER1 interactions regulate the circadian rhythm in the suprachiasmatic nucleus in rats

PER1 is a core component of the internal time-keeping system. In the suprachiasmatic nucleus, it serves as the primary circadian pacemaker in mammalian brains. PER1 functions with other clock components to generate a feedback loop involving the transcriptional repression of gene expression to produc...

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Published in:American journal of translational research 2022-01, Vol.14 (2), p.1001-1009
Main Authors: Zhang, Zhao-Huan, Xiong, Jian-Mei, Zhu, Yun-Yi, Zhang, Xiao-Dan, Wu, Wen-Jie, Zhou, Lin, Zhuang, Jian-Hua, Xu, Xiao-Hui
Format: Article
Language:English
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Summary:PER1 is a core component of the internal time-keeping system. In the suprachiasmatic nucleus, it serves as the primary circadian pacemaker in mammalian brains. PER1 functions with other clock components to generate a feedback loop involving the transcriptional repression of gene expression to produce a circadian rhythm with an approximately 24-hour cycle. Post-transcriptional modifications (PTMs) are a basic regulatory mechanism that both perpetuate self-sustained oscillations and interpret metabolic input into circadian physiology by affecting factors such as protein stability, interactions, localization, and activity. Here we examined whether the serine/threonine protein kinase WNK3, which is expressed in a circadian rhythm, can interact and colocalize with PER1 in the SCN. In rats, WNK3 knockdown in the SCN is associated with altered sleep patterns. Moreover, WNK3 can phosphorylate PER1 to promote its degradation and is associated with circadian oscillations when PER1 is expressed in vitro.
ISSN:1943-8141
1943-8141