Analysis of the interplay between MeCP2 and histone H1 during in vitro differentiation of human ReNCell neural progenitor cells.

IF 2.9 3区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Epigenetics Pub Date : 2023-12-01 Epub Date: 2023-11-17 DOI:10.1080/15592294.2023.2276425
Edilene Siqueira, Bo-Hyun Kim, Larry Reser, Robert Chow, Kerry Delaney, Manel Esteller, Mark M Ross, Jeffrey Shabanowitz, Donald F Hunt, Sonia Guil, Juan Ausiö
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引用次数: 0

Abstract

An immortalized neural cell line derived from the human ventral mesencephalon, called ReNCell, and its MeCP2 knock out were used. With it, we characterized the chromatin compositional transitions undergone during differentiation, with special emphasis on linker histones. While the WT cells displayed the development of dendrites and axons the KO cells did not, despite undergoing differentiation as monitored by NeuN. ReNCell expressed minimal amounts of histone H1.0 and their linker histone complement consisted mainly of histone H1.2, H1.4 and H1.5. The overall level of histone H1 exhibited a trend to increase during the differentiation of MeCP2 KO cells. The phosphorylation levels of histone H1 proteins decreased dramatically during ReNCell's cell differentiation independently of the presence of MeCP2. Immunofluorescence analysis showed that MeCP2 exhibits an extensive co-localization with linker histones. Interestingly, the average size of the nucleus decreased during differentiation but in the MeCP2 KO cells, the smaller size of the nuclei at the start of differentiation increased by almost 40% after differentiation by 8 days (8 DIV). In summary, our data provide a compelling perspective on the dynamic changes of H1 histones during neural differentiation, coupled with the intricate interplay between H1 variants and MeCP2.Abbreviations: ACN, acetonitrile; A230, absorbance at 230 nm; bFGF, basic fibroblast growth factor; CM, chicken erythrocyte histone marker; CNS, central nervous system; CRISPR, clustered regulated interspaced short palindromic repeatsDAPI, 4,'6-diaminidino-2-phenylindole; DIV, days in vitro (days after differentiation is induced); DMEM, Dulbecco's modified Eagle medium; EGF, epidermal growth factor; ESC, embryonic stem cell; GAPDH, glyceraldehyde-3-phosphate dehydrogenase; GFAP, glial fibrillary acidic proteinHPLC, high-performance liquid chromatography; IF, immunofluorescence; iPSCs, induced pluripotent stem cells; MAP2, microtubule-associated protein 2; MBD, methyl-binding domain; MeCP2, methyl-CpG binding protein 2; MS, mass spectrometry; NCP, nucleosome core particle; NeuN, neuron nuclear antigen; NPC, neural progenitor cellPAGE, polyacrylamide gel electrophoresis; PBS, phosphate buffered saline; PFA, paraformaldehyde; PTM, posttranslational modification; RP-HPLC, reversed phase HPLC; ReNCells, ReNCells VM; RPLP0, ribosomal protein lateral stalk subunit P0; RT-qPCR, reverse transcription quantitative polymerase-chain reaction; RTT, Rett Syndrome; SDS, sodium dodecyl sulphate; TAD, topologically associating domain; Triple KO, triple knockout.

人ReNCell神经祖细胞体外分化过程中MeCP2与组蛋白H1的相互作用分析。
使用了一种来自人类腹侧中脑的永生化神经细胞系ReNCell及其MeCP2敲除。有了它,我们表征了分化过程中染色质组成的转变,特别强调了连接体组蛋白。虽然WT细胞显示树突和轴突的发育,但KO细胞没有,尽管在NeuN监测下经历了分化。ReNCell表达少量组蛋白H1.0,其连接组蛋白补体主要由组蛋白H1.2、H1.4和H1.5组成。在MeCP2 KO细胞的分化过程中,组蛋白H1的总体水平呈现升高的趋势。在ReNCell的细胞分化过程中,组蛋白H1的磷酸化水平急剧下降,与MeCP2的存在无关。免疫荧光分析显示MeCP2与连接蛋白广泛共定位。有趣的是,在分化过程中细胞核的平均大小减小,但在MeCP2 KO细胞中,分化开始时较小的细胞核在分化8天后增加了近40% (8 DIV)。总之,我们的数据为神经分化过程中H1组蛋白的动态变化以及H1变异与MeCP2之间复杂的相互作用提供了令人信服的视角。缩写:ACN,乙腈;A230, 230 nm处吸光度;碱性成纤维细胞生长因子;CM,鸡红细胞组蛋白标志物;CNS,中枢神经系统;CRISPR,簇化调控的间隔短回文重复序列;DIV, days in vitro(诱导分化后的天数);DMEM, Dulbecco改良Eagle培养基;表皮生长因子;胚胎干细胞;甘油醛-3-磷酸脱氢酶;胶质原纤维酸性蛋白高效液相色谱法;如果,免疫荧光;诱导多能干细胞;MAP2,微管相关蛋白2;MBD,甲基结合域;MeCP2,甲基- cpg结合蛋白2;质谱法;核小体核心粒子;NeuN,神经元核抗原;NPC,神经祖细胞page,聚丙烯酰胺凝胶电泳;PBS,磷酸盐缓冲盐水;PFA,多聚甲醛;PTM,翻译后修饰;反相高效液相色谱法;ReNCells, ReNCells VM;RPLP0,核糖体蛋白侧柄亚基P0;RT-qPCR,逆转录定量聚合酶链反应;Rett综合征;十二烷基硫酸钠;TAD,拓扑关联域;三次KO,三次击倒。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Epigenetics
Epigenetics 生物-生化与分子生物学
CiteScore
6.80
自引率
2.70%
发文量
82
审稿时长
3-8 weeks
期刊介绍: Epigenetics publishes peer-reviewed original research and review articles that provide an unprecedented forum where epigenetic mechanisms and their role in diverse biological processes can be revealed, shared, and discussed. Epigenetics research studies heritable changes in gene expression caused by mechanisms others than the modification of the DNA sequence. Epigenetics therefore plays critical roles in a variety of biological systems, diseases, and disciplines. Topics of interest include (but are not limited to): DNA methylation Nucleosome positioning and modification Gene silencing Imprinting Nuclear reprogramming Chromatin remodeling Non-coding RNA Non-histone chromosomal elements Dosage compensation Nuclear organization Epigenetic therapy and diagnostics Nutrition and environmental epigenetics Cancer epigenetics Neuroepigenetics
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