调控基础态多能性中的一碳代谢和组蛋白甲基化。

regulates one-carbon metabolism and histone methylation in ground-state pluripotency.

机构信息

Patrick G Johnston Centre for Cancer Research, Queen's University Belfast, Belfast, UK.

Department of Clinical Chemistry, Amsterdam University Medical Center, Amsterdam, Netherlands.

出版信息

Sci Adv. 2023 Aug 18;9(33):eadg7997. doi: 10.1126/sciadv.adg7997.

DOI:10.1126/sciadv.adg7997

PMID:37595034

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11801372/

Abstract

Understanding mechanisms of epigenetic regulation in embryonic stem cells (ESCs) is of fundamental importance for stem cell and developmental biology. Here, we identify , a member of the ETS family of transcription factors (TFs), as a marker of ground state pluripotency. We show that is rapidly induced in ground state ESCs and in response to extracellular signal-regulated kinase (ERK) inhibition. We find that SPIC binds to enhancer elements and stabilizes NANOG binding to chromatin, particularly at genes involved in choline/one-carbon (1C) metabolism such as , , and . Gain-of-function and loss-of-function experiments revealed that controls 1C metabolism and the flux of -adenosyl methionine to -adenosyl-L-homocysteine (SAM-to-SAH), thereby, modulating the levels of H3R17me2 and H3K4me3 histone marks in ESCs. Our findings highlight betaine-dependent 1C metabolism as a hallmark of ground state pluripotency primarily activated by SPIC. These findings underscore the role of uncharacterized auxiliary TFs in linking cellular metabolism to epigenetic regulation in ESCs.

摘要

理解胚胎干细胞 (ESC) 中表观遗传调控的机制对于干细胞和发育生物学具有重要意义。在这里，我们确定是转录因子 (TF)ETS 家族的成员，是原始态多能性的标志物。我们发现在原始态 ESCs 中以及对外界信号调节激酶 (ERK) 抑制的反应中迅速诱导。我们发现 SPIC 结合到增强子元件上，并稳定 NANOG 与染色质的结合，特别是在涉及胆碱/一碳 (1C) 代谢的基因上，如、和。功能获得和功能丧失实验表明，控制 1C 代谢和 -腺苷甲硫氨酸到 -腺苷-L-同型半胱氨酸 (SAM-to-SAH) 的通量，从而调节 ESC 中 H3R17me2 和 H3K4me3 组蛋白标记的水平。我们的研究结果突出了依赖甜菜碱的 1C 代谢作为原始态多能性的标志，主要由 SPIC 激活。这些发现强调了未表征的辅助 TF 在将细胞代谢与 ESC 中的表观遗传调控联系起来的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d315/11801372/8138d7dd1489/sciadv.adg7997-f1.jpg

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调控基础态多能性中的一碳代谢和组蛋白甲基化。

regulates one-carbon metabolism and histone methylation in ground-state pluripotency.

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