PERfect Day:通过 PERIOD2 蛋白表达的翻译转换,对小鼠蛛网膜上核昼夜节律时间保持的可逆性和剂量依赖性控制。

IF 2.7 4区 医学 Q3 NEUROSCIENCES
David McManus, Andrew P. Patton, Nicola J. Smyllie, Jason W. Chin, Michael H. Hastings
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引用次数: 0

摘要

丘脑上核(SCN)的生物钟协调着行为和生理的昼夜节律(大约每天一次),而昼夜节律是健康的基础。SCN细胞自主计时围绕着一个转录/翻译反馈环(TTFL),其中PERIOD(PER1,2)和CRYPTOCHROME(CRY1,2)蛋白异源二聚体并抑制其编码基因(Per1,2;Cry1,2)的反式激活。为了探索其对 SCN 时间保持的贡献,我们利用腺相关病毒介导的翻译转换,在携带生物发光 TTFL 昼夜节律报告器的器官型 SCN 切片中表达 PER2(tsPER2)。翻译转换需要提供非规范氨基酸--炔赖氨酸(AlkK)来表达蛋白质。相应地,AlkK(而非载体)诱导了 tsPER2 在 SCN 神经元中的组成型表达,并可逆地、剂量依赖性地抑制了 PER 缺失(Per1,2-null)SCN 中 pPer1 驱动的转录,这说明了 PER2 在 TTFL 内负性调控的效力。然而,在心律失常的 PER 缺失型 SCN 中,tsPER2 的连续表达未能启动昼夜节律振荡。在有节律、PER 正常的 SCN 中,随着 tsPER2 的抑制作用逐渐抑制 TTFL,AlkK 的剂量依赖性降低了 PER2 报告的振荡幅度。在冲淡 AlkK 以去除 tsPER2 后,SCN 恢复了 TTFL 的振幅和周期。此外,SCN 保留了冲洗前的相位:移除 tsPER2 并没有使 TTFL 发生相移。鉴于组成型tsCRY1不仅能调节TTFL的振幅和周期,还能重置TTFL的相位并在CRY缺陷的SCN中启动节律,这些结果揭示了PER2和CRY1在SCN中既重叠又不同的特性,并强调了翻译转换在探索昼夜节律蛋白功能方面的实用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

PERfect Day: reversible and dose-dependent control of circadian time-keeping in the mouse suprachiasmatic nucleus by translational switching of PERIOD2 protein expression

PERfect Day: reversible and dose-dependent control of circadian time-keeping in the mouse suprachiasmatic nucleus by translational switching of PERIOD2 protein expression

The biological clock of the suprachiasmatic nucleus (SCN) orchestrates circadian (approximately daily) rhythms of behaviour and physiology that underpin health. SCN cell-autonomous time-keeping revolves around a transcriptional/translational feedback loop (TTFL) within which PERIOD (PER1,2) and CRYPTOCHROME (CRY1,2) proteins heterodimerise and suppress trans-activation of their encoding genes (Per1,2; Cry1,2). To explore its contribution to SCN time-keeping, we used adeno-associated virus–mediated translational switching to express PER2 (tsPER2) in organotypic SCN slices carrying bioluminescent TTFL circadian reporters. Translational switching requires provision of the non-canonical amino acid, alkyne lysine (AlkK), for protein expression. Correspondingly, AlkK, but not vehicle, induced constitutive expression of tsPER2 in SCN neurons and reversibly and dose-dependently suppressed pPer1-driven transcription in PER-deficient (Per1,2-null) SCN, illustrating the potency of PER2 in negative regulation within the TTFL. Constitutive expression of tsPER2, however, failed to initiate circadian oscillations in arrhythmic PER-deficient SCN. In rhythmic, PER-competent SCN, AlkK dose-dependently reduced the amplitude of PER2-reported oscillations as inhibition by tsPER2 progressively damped the TTFL. tsPER2 also dose-dependently lengthened the period of the SCN TTFL and neuronal calcium rhythms. Following wash-out of AlkK to remove tsPER2, the SCN regained TTFL amplitude and period. Furthermore, SCN retained their pre-washout phase: the removal of tsPER2 did not phase-shift the TTFL. Given that constitutive tsCRY1 can regulate TTFL amplitude and period, but also reset TTFL phase and initiate rhythms in CRY-deficient SCN, these results reveal overlapping and distinct properties of PER2 and CRY1 within the SCN, and emphasise the utility of translational switching to explore the functions of circadian proteins.

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来源期刊
European Journal of Neuroscience
European Journal of Neuroscience 医学-神经科学
CiteScore
7.10
自引率
5.90%
发文量
305
审稿时长
3.5 months
期刊介绍: EJN is the journal of FENS and supports the international neuroscientific community by publishing original high quality research articles and reviews in all fields of neuroscience. In addition, to engage with issues that are of interest to the science community, we also publish Editorials, Meetings Reports and Neuro-Opinions on topics that are of current interest in the fields of neuroscience research and training in science. We have recently established a series of ‘Profiles of Women in Neuroscience’. Our goal is to provide a vehicle for publications that further the understanding of the structure and function of the nervous system in both health and disease and to provide a vehicle to engage the neuroscience community. As the official journal of FENS, profits from the journal are re-invested in the neuroscientific community through the activities of FENS.
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