由于组蛋白修饰,丁酸盐诱导的IGF2激活与不同的染色质特征相关。

Gene regulation and systems biology Pub Date : 2013-03-26 Print Date: 2013-01-01 DOI:10.4137/GRSB.S11243
Joo Heon Shin, Robert W Li, Yuan Gao, Derek M Bickhart, George E Liu, Weizhong Li, Sitao Wu, Cong-Jun Li
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引用次数: 8

摘要

组蛋白修饰已成为调控基因组转录状态的重要机制。胰岛素样生长因子2 (IGF2)是一种控制多种细胞过程的肽激素,包括增殖和凋亡。H19基因与IGF2基因紧密相连,IGF2和H19是相互调控的印迹基因。父本等位基因上H19启动子(超甲基化)的表观遗传特征对IGF2.46父本等位基因的表达起着至关重要的作用。我们之前的研究表明,丁酸盐调节IGF2的表达以及编码IGF结合蛋白的基因的表达。为了进一步了解组蛋白修饰及其在控制IGF2/H19基因表达中的调控潜力,我们利用RNA-seq结合Chip-seq技术研究了牛细胞中与IGF2/H19基因表达相关的一些关键组蛋白的组蛋白修饰状态。构建了由丁酸盐诱导的IGF2/H19位点主要染色质修饰的高分辨率图谱,以阐明可能在IGF2基因激活中发挥作用的染色质修饰景观的基本关联。高分辨率表观基因组景观图谱显示,IGF2和H19在其编码区和启动子区(如tss和tss)具有不同的染色质修饰模式。此外,IGF2/H19位点的差异甲基化区(DMRs)与组蛋白修饰(乙酰化和甲基化)之间的相关性表明,DNA甲基化、组蛋白甲基化和组蛋白乙酰化的表观遗传特征/标记在表达的IGF2和沉默的H19基因上的分布存在差异。我们的证据还表明,丁酸盐诱导的H19上游调控域组蛋白乙酰化状态的局部变化可能与H19表达的降低和IGF2的强激活有关。我们的研究结果揭示了丁酸盐诱导IGF2印迹缺失(LOI)的机制以及组蛋白修饰对基因表达的调控。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Butyrate Induced IGF2 Activation Correlated with Distinct Chromatin Signatures Due to Histone Modification.

Butyrate Induced IGF2 Activation Correlated with Distinct Chromatin Signatures Due to Histone Modification.

Butyrate Induced IGF2 Activation Correlated with Distinct Chromatin Signatures Due to Histone Modification.

Butyrate Induced IGF2 Activation Correlated with Distinct Chromatin Signatures Due to Histone Modification.

Histone modification has emerged as a very important mechanism regulating the transcriptional status of the genome. Insulin-like growth factor 2 (IGF2) is a peptide hormone controlling various cellular processes, including proliferation and apoptosis. H19 gene is closely linked to IGF2 gene, and IGF2 and H19 are reciprocally regulated imprinted genes. The epigenetic signature of H19 promoter (hypermethylation) on the paternal allele plays a vital role in allowing the expression of the paternal allele of IGF2.46 Our previous studies demonstrate that butyrate regulates the expression of IGF2 as well as genes encoding IGF Binding proteins. To obtain further understanding of histone modification and its regulatory potentials in controlling IGF2/H19 gene expression, we investigated the histone modification status of some key histones associated with the expression of IGF2/H19 genes in bovine cells using RNA-seq in combination with Chip-seq technology. A high-resolution map of the major chromatin modification at the IGF2/H19 locus induced by butyrate was constructed to illustrate the fundamental association of the chromatin modification landscape that may play a role in the activation of the IGF2 gene. High-definition epigenomic landscape mapping revealed that IGF2 and H19 have distinct chromatin modification patterns at their coding and promoter regions, such as TSSs and TTSs. Moreover, the correlation between the differentially methylated regions (DMRs) of IGF2/H19 locus and histone modification (acetylation and methylation) indicated that epigenetic signatures/markers of DNA methylation, histone methylation and histone acetylation were differentially distributed on the expressed IGF2 and silenced H19 genes. Our evidence also suggests that butyrate-induced regional changes of histone acetylation statusin the upstream regulation domain of H19 may be related to the reduced expression of H19 and strong activation of IGF2. Our results provided insights into the mechanism of butyrate-induced loss of imprinting (LOI) of IGF2 and regulation of gene expression by histone modification.

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