利用大规模ChIP-Seq数据通过表观遗传学景观阐明污染物引发的疾病相关机制。

IF 4.2 2区 生物学 Q1 GENETICS & HEREDITY Epigenetics & Chromatin Pub Date : 2023-09-25 DOI:10.1186/s13072-023-00510-w
Zhaonan Zou, Yuka Yoshimura, Yoshihiro Yamanishi, Shinya Oki
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引用次数: 0

摘要

背景:尽管有充分的证据表明环境污染物对人类健康的影响,但对其作用模式还不完全了解。尽管基于转录组的方法被广泛用于预测化学物质和疾病之间的关联,但调节污染物衍生基因表达变化的分子线索仍不清楚。因此,我们开发了一种数据挖掘方法,称为“DAR ChIPEA”,以识别在污染物作用模式中发挥关键作用的转录因子(TF)。方法:大规模公共ChIP-Seq数据(人,n = 15155;鼠标,n = 13156)用于预测富集于从表观基因组分析(ATAC-Seq)获得的污染物诱导的差异可及基因组区域(DAR)中的TF。然后将得到的污染物TF矩阵与TF无序关联库进行交叉引用,以说明污染物的作用模式。随后,我们使用化学扰动数据集评估了所提出方法的性能,以比较DAR-CIPEA的输出和我们之前开发的使用污染物诱导的DEG作为输入的差异表达基因(DEG)-CIPEA方法。然后,我们采用所提出的方法来预测污染物引发的疾病相关机制。结果:所提出的方法优于使用受试者操作特征曲线下面积得分的其他方法。提出的DAR ChIPEA的平均得分显著高于我们之前描述的DEG ChIPEA(0.7287对0.7060;Q = 5.278 × 10-42;双尾Wilcoxon秩和检验)。所提出的方法进一步预测了污染物暴露时TF驱动的作用模式,表明(1)调节Th1/2细胞稳态的TF在三丁基锡诱导的过敏性疾病的病理生理学中是不可或缺的;(2) 细颗粒物(PM2.5)抑制C/EBPs、Rela和Spi1与基因组的结合,从而干扰正常血细胞分化并导致免疫功能障碍;以及(3)铅通过改变肝脏昼夜节律来破坏脂质代谢的正常调节,从而诱导脂肪肝。结论:强调污染物暴露时全基因组染色质的变化,以阐明污染物反应的表观遗传学景观,优于我们之前描述的仅关注基因邻近结构域的方法。我们的方法有可能揭示介导污染物有害影响的关键TFs,从而促进制定减轻环境污染损害的战略。
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Elucidating disease-associated mechanisms triggered by pollutants via the epigenetic landscape using large-scale ChIP-Seq data.

Background: Despite well-documented effects on human health, the action modes of environmental pollutants are incompletely understood. Although transcriptome-based approaches are widely used to predict associations between chemicals and disorders, the molecular cues regulating pollutant-derived gene expression changes remain unclear. Therefore, we developed a data-mining approach, termed "DAR-ChIPEA," to identify transcription factors (TFs) playing pivotal roles in the action modes of pollutants.

Methods: Large-scale public ChIP-Seq data (human, n = 15,155; mouse, n = 13,156) were used to predict TFs that are enriched in the pollutant-induced differentially accessible genomic regions (DARs) obtained from epigenome analyses (ATAC-Seq). The resultant pollutant-TF matrices were then cross-referenced to a repository of TF-disorder associations to account for pollutant modes of action. We subsequently evaluated the performance of the proposed method using a chemical perturbation data set to compare the outputs of the DAR-ChIPEA and our previously developed differentially expressed gene (DEG)-ChIPEA methods using pollutant-induced DEGs as input. We then adopted the proposed method to predict disease-associated mechanisms triggered by pollutants.

Results: The proposed approach outperformed other methods using the area under the receiver operating characteristic curve score. The mean score of the proposed DAR-ChIPEA was significantly higher than that of our previously described DEG-ChIPEA (0.7287 vs. 0.7060; Q = 5.278 × 10-42; two-tailed Wilcoxon rank-sum test). The proposed approach further predicted TF-driven modes of action upon pollutant exposure, indicating that (1) TFs regulating Th1/2 cell homeostasis are integral in the pathophysiology of tributyltin-induced allergic disorders; (2) fine particulates (PM2.5) inhibit the binding of C/EBPs, Rela, and Spi1 to the genome, thereby perturbing normal blood cell differentiation and leading to immune dysfunction; and (3) lead induces fatty liver by disrupting the normal regulation of lipid metabolism by altering hepatic circadian rhythms.

Conclusions: Highlighting genome-wide chromatin change upon pollutant exposure to elucidate the epigenetic landscape of pollutant responses outperformed our previously described method that focuses on gene-adjacent domains only. Our approach has the potential to reveal pivotal TFs that mediate deleterious effects of pollutants, thereby facilitating the development of strategies to mitigate damage from environmental pollution.

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来源期刊
Epigenetics & Chromatin
Epigenetics & Chromatin GENETICS & HEREDITY-
CiteScore
7.00
自引率
0.00%
发文量
35
审稿时长
1 months
期刊介绍: Epigenetics & Chromatin is a peer-reviewed, open access, online journal that publishes research, and reviews, providing novel insights into epigenetic inheritance and chromatin-based interactions. The journal aims to understand how gene and chromosomal elements are regulated and their activities maintained during processes such as cell division, differentiation and environmental alteration.
期刊最新文献
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