对小鼠视交叉上核中生物钟蛋白动力学的定量测量扩展了昼夜节律计时模型。

Quantitative measures of clock protein dynamics in the mouse suprachiasmatic nucleus extends the circadian time-keeping model.

作者信息

Smyllie Nicola J, Koch Alex A, Adamson Antony D, Patton Andrew P, Johnson Adam, Bagnall James S, Johnson Olivia, Meng Qing-Jun, Loudon Andrew S I, Hastings Michael H

机构信息

Neurobiology Division, MRC Laboratory of Molecular Biology, Cambridge, UK.

Faculty of Biology, Medicine and Health, University of Manchester, Manchester, UK.

出版信息

EMBO J. 2025 Apr 17. doi: 10.1038/s44318-025-00426-z.

DOI:10.1038/s44318-025-00426-z

PMID:40247113

Abstract

The suprachiasmatic nucleus (SCN) synchronises circadian rhythmicity (~24 h) across the body. The SCN cell-autonomous clock is modelled qualitatively as a transcriptional-translational feedback loop (TTFL), with heteromeric complexes of transcriptional activator and repressor proteins driving cyclical gene expression. How these proteins really behave within the SCN, individually and in relation to each other, is poorly understood. Imaging SCN slices from a novel array of knock-in reporter mice, we quantify the dynamic behaviours of combined repressors PERIOD2 (PER2) and CRYPTOCHROME1 (CRY1), and activator BMAL1. We reveal a spectrum of protein-specific intracellular and spatiotemporal behaviours that run counter to the qualitative TTFL model. We also show that PER and CRY1 exert independent actions on TTFL oscillations, and that their individual stabilities play a critical role in SCN circadian dynamics. These results reveal a rich and unanticipated complexity in the dynamic behaviours and functions of endogenous circadian proteins, prompting re-appraisal of current transcriptional-translational feedback loop models of the suprachiasmatic nucleus.

摘要

视交叉上核（SCN）使身体各处的昼夜节律（约24小时）同步。SCN细胞自主时钟在定性上被建模为转录-翻译反馈环（TTFL），转录激活蛋白和阻遏蛋白的异源复合物驱动周期性基因表达。这些蛋白质在SCN内如何单独以及相互关联地实际表现，目前了解甚少。通过对一系列新型敲入报告基因小鼠的SCN切片进行成像，我们量化了联合阻遏蛋白周期蛋白2（PER2）和隐花色素1（CRY1）以及激活蛋白脑和肌肉芳香烃受体核转位蛋白1（BMAL1）的动态行为。我们揭示了一系列蛋白质特异性的细胞内和时空行为，这些行为与定性的TTFL模型相悖。我们还表明PER和CRY1对TTFL振荡发挥独立作用，并且它们各自的稳定性在SCN昼夜节律动态中起关键作用。这些结果揭示了内源性昼夜节律蛋白动态行为和功能中丰富且出人意料的复杂性，促使人们重新评估当前视交叉上核的转录-翻译反馈环模型。

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对小鼠视交叉上核中生物钟蛋白动力学的定量测量扩展了昼夜节律计时模型。

Quantitative measures of clock protein dynamics in the mouse suprachiasmatic nucleus extends the circadian time-keeping model.

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