Robust CTCF-Based Chromatin Architecture Underpins Epigenetic Changes in the Heart Failure Stress–Gene Response

CTCF公司 染色质 增强子 表观遗传学 嘉雅宠物 染色质重塑 组蛋白 生物 二价染色质 基因表达调控 遗传学 基因表达 细胞生物学 粘蛋白 基因
作者
Dominic Paul Lee,Wilson Lek Wen Tan,Chukwuemeka George Anene-Nzelu,Chang Jie Mick Lee,Peter Yiqing Li,Tuan Danh Anh Luu,Casey K. Chan,Zenia Tiang,Shi Ling Ng,Xingfan Huang,Efthymios Motakis,Matias Autio,Jianming Jiang,Melissa J. Fullwood,Shyam Prabhakar,E Aiden,Roger Foo
出处
期刊:Circulation [Lippincott Williams & Wilkins]
卷期号:139 (16): 1937-1956 被引量:34
标识
DOI:10.1161/circulationaha.118.036726
摘要

The human genome folds in 3 dimensions to form thousands of chromatin loops inside the nucleus, encasing genes and cis-regulatory elements for accurate gene expression control. Physical tethers of loops are anchored by the DNA-binding protein CTCF and the cohesin ring complex. Because heart failure is characterized by hallmark gene expression changes, it was recently reported that substantial CTCF-related chromatin reorganization underpins the myocardial stress-gene response, paralleled by chromatin domain boundary changes observed in CTCF knockout.We undertook an independent and orthogonal analysis of chromatin organization with mouse pressure-overload model of myocardial stress (transverse aortic constriction) and cardiomyocyte-specific knockout of Ctcf. We also downloaded published data sets of similar cardiac mouse models and subjected them to independent reanalysis.We found that the cardiomyocyte chromatin architecture remains broadly stable in transverse aortic constriction hearts, whereas Ctcf knockout resulted in ≈99% abolition of global chromatin loops. Disease gene expression changes correlated instead with differential histone H3K27-acetylation enrichment at their respective proximal and distal interacting genomic enhancers confined within these static chromatin structures. Moreover, coregulated genes were mapped out as interconnected gene sets on the basis of their multigene 3D interactions.This work reveals a more stable genome-wide chromatin framework than previously described. Myocardial stress-gene transcription responds instead through H3K27-acetylation enhancer enrichment dynamics and gene networks of coregulation. Robust and intact CTCF looping is required for the induction of a rapid and accurate stress response.

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