P19 Cells as a Model for Studying the Circadian Clock in Stem Cells before and after Cell Differentiation.

Q2 Biochemistry, Genetics and Molecular Biology Journal of Circadian Rhythms Pub Date : 2018-05-18 DOI:10.5334/jcr.157
Abdullah Mashhour, Zainab Al Mansour, Al Shaima Al Hallaj, Rizwan Ali, Thadeo Trivilegio, Mohamed Boudjelal
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引用次数: 4

Abstract

In mammals, circadian rhythmicity is sustained via a transcriptional/translational feedback loop referred to as the canonical molecular circadian clock. Circadian rhythm is absent in undifferentiated embryonic stem cells; it begins only after differentiation. We used pluripotent P19 embryonal carcinoma stem cells to check the biological clock before and after differentiation into neurons using retinoic acid. We show that the central clock genes ARNTL (Bmal), Per2 and Per3, and the peripheral clock genes Rev-erb-α and ROR-α, oscillate before and after differentiation, as does the expression of the neuronal differentiation markers Hes5, β-3-tubulin (Tubb3) and Stra13, but not Neurod1. Furthermore, the known clock-modulating compounds ERK, EGFR, Pi3K, p38, DNA methylation and Sirtiun inhibitors, in addition to Rev-erb-α ligands, modulate the expression of central and peripheral clock genes. Interestingly Sirtinol, Sirt1 and Sirt2 inhibitors had the greatest significant effect on the expression of clock genes, and increased Hes5 and Tubb3 expression during neuronal differentiation. Our findings reveal a new frontier of circadian clock research in stem cells: contrary to what has been published previously, we have shown the clock to be functional and to oscillate, even in undifferentiated stem cells. Modulating the expression of clock genes using small molecules could affect stem cell differentiation.

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P19细胞作为研究干细胞分化前后生物钟的模型
在哺乳动物中,昼夜节律是通过被称为标准分子昼夜节律钟的转录/翻译反馈回路维持的。在未分化的胚胎干细胞中不存在昼夜节律;它只在分化后才开始。我们使用多能性P19胚胎癌干细胞,用维甲酸检测分化成神经元前后的生物钟。我们发现中枢时钟基因ARNTL (Bmal)、Per2和Per3以及外周时钟基因rev - erbb -α和ROR-α在分化前后都有振荡,神经元分化标志物Hes5、β-3-微管蛋白(Tubb3)和Stra13的表达也有振荡,但Neurod1没有振荡。此外,除了Rev-erb-α配体外,已知的时钟调节化合物ERK、EGFR、Pi3K、p38、DNA甲基化和Sirtiun抑制剂还可以调节中枢和外周时钟基因的表达。有趣的是,Sirtinol、Sirt1和Sirt2抑制剂对clock基因表达的影响最为显著,并增加了神经元分化过程中Hes5和Tubb3的表达。我们的研究结果揭示了干细胞生物钟研究的新前沿:与之前发表的相反,我们已经证明,即使在未分化的干细胞中,生物钟也具有功能和振荡。利用小分子调节时钟基因的表达可以影响干细胞的分化。
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来源期刊
Journal of Circadian Rhythms
Journal of Circadian Rhythms Biochemistry, Genetics and Molecular Biology-Physiology
CiteScore
7.10
自引率
0.00%
发文量
0
审稿时长
12 weeks
期刊介绍: Journal of Circadian Rhythms is an Open Access, peer-reviewed online journal that publishes research articles dealing with circadian and nycthemeral (daily) rhythms in living organisms, including processes associated with photoperiodism and daily torpor. Journal of Circadian Rhythms aims to include both basic and applied research at any level of biological organization (molecular, cellular, organic, organismal, and populational). Studies of daily rhythms in environmental factors that directly affect circadian rhythms are also pertinent to the journal"s mission.
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