Reorganization of 3D genome architecture provides insights into pathogenesis of early fatty liver disease in laying hens.

IF 6.3 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Yanli Liu, Zhuqing Zheng, Chaohui Wang, Yumeng Wang, Xi Sun, Zhouzheng Ren, Xin Yang, Xiaojun Yang
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Abstract

Background: Fatty liver disease causes huge economic losses in the poultry industry due to its high occurrence and lethality rate. Three-dimensional (3D) chromatin architecture takes part in disease processing by regulating transcriptional reprogramming. The study is carried out to investigate the alterations of hepatic 3D genome and H3K27ac profiling in early fatty liver (FLS) and reveal their effect on hepatic transcriptional reprogramming in laying hens.

Results: Results show that FLS model is constructed with obvious phenotypes including hepatic visible lipid deposition as well as higher total triglyceride and cholesterol in serum. A/B compartment switching, topologically associating domain (TAD) and chromatin loop changes are identified by high-throughput/resolution chromosome conformation capture (HiC) technology. Targeted genes of these alternations in hepatic 3D genome organization significantly enrich pathways related to lipid metabolism and hepatic damage. H3K27ac differential peaks and differential expression genes (DEGs) identified through RNA-seq analysis are also enriched in these pathways. Notably, certain DEGs are found to correspond with changes in 3D chromatin structure and H3K27ac binding in their promoters. DNA motif analysis reveals that candidate transcription factors are implicated in regulating transcriptional reprogramming. Furthermore, disturbed folate metabolism is observed, as evidenced by lower folate levels and altered enzyme expression.

Conclusion: Our findings establish a link between transcriptional reprogramming changes and 3D chromatin structure variations during early FLS formation, which provides candidate transcription factors and folate as targets for FLS prevention or treatment.

三维基因组结构重组揭示了蛋鸡早期脂肪肝的发病机理。
背景:脂肪肝的高发生率和致死率给家禽业造成了巨大的经济损失。三维(3D)染色质结构通过调控转录重编程参与疾病的处理。本研究旨在探讨早期脂肪肝(FLS)肝脏三维基因组和 H3K27ac 图谱的改变,并揭示其对蛋鸡肝脏转录重编程的影响:结果表明:构建的FLS模型具有明显的表型,包括肝脏可见脂质沉积以及血清中甘油三酯和胆固醇总量升高。通过高通量/分辨率染色体构象捕获(HiC)技术,确定了A/B区切换、拓扑关联域(TAD)和染色质环路变化。这些肝脏三维基因组组织变化的靶基因极大地丰富了与脂质代谢和肝损伤相关的通路。通过 RNA-seq 分析确定的 H3K27ac 差异峰和差异表达基因(DEG)也在这些通路中得到了富集。值得注意的是,某些 DEGs 的启动子与三维染色质结构和 H3K27ac 结合的变化相对应。DNA 主题分析表明,候选转录因子参与了转录重编程的调控。此外,还观察到叶酸代谢紊乱,表现为叶酸水平降低和酶表达改变:我们的研究结果在 FLS 早期形成过程中的转录重编程变化和三维染色质结构变化之间建立了联系,这为预防或治疗 FLS 提供了候选转录因子和叶酸靶标。
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
CiteScore
10.30
自引率
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