Abstract
The spreading of epigenetic domains has emerged as a distinguishing epigenomic phenotype for diverse cell types. In particular, clusters of H3K27ac- and H3K4me3-marked elements, referred to as super-enhancers, and broad H3K4me3 domains, respectively, have been linked to cell identity and disease states. Here, we characterized the broad domains from different pancreatic ductal adenocarcinoma (PDAC) cell lines that represent distinct histological grades. Our integrative genomic analysis found that human derived cell line models for distinct PDAC grades exhibit characteristic broad epigenetic features associated with gene expression patterns that are predictive of patient prognosis and provide insight into pancreatic cancer cell identity. In particular, we find that genes marked by overlapping Low-Grade broad domains correspond to an epithelial phenotype and hold potential as markers for patient stratification. We further utilize ChIP-seq to compare the effects of histone acetyltransferase (HAT) inhibitors to detect global changes in histone acetylation and methylation levels. We found that HAT inhibitors impact certain broad domains of pancreatic cancer cells. Overall, our results reveal potential roles for broad domains in cells from distinct PDAC grades and demonstrate the plasticity of particular broad epigenomic domains to epigenetic inhibitors.
Highlights
Cancer is a complex disease arising from both genetic and epigenetic alterations that impact changes in gene expression to drive and maintain malignant phenotypes
The extension of epigenetic regulatory domains has emerged as a diagnostic marker that can serve to distinguish cancer cell identity and disease states
We characterized the broad domains in several different cell lines that represent distinct pancreatic ductal adenocarcinoma (PDAC) histological grades
Summary
Cancer is a complex disease arising from both genetic and epigenetic alterations that impact changes in gene expression to drive and maintain malignant phenotypes. Epigenomic profiling has revealed that cancer progression involves a global reprogramming of networks of functional DNA regulatory elements, including enhancers [1]. Enhancers are cis-acting elements that positively control the transcription of target genes and play central roles in regulating cell-type or tissue-type specific genes during development and differentiation [2]. Clusters of enhancer elements, referred to as super-enhancers, have been linked to cell identity and disease states [3,4,5,6,7]. Regions with widespread H3K4me modification, called broad H3K4me domains, have emerged as important domains linked to the expression of tumor suppressor and cell identity genes [8,9]. Understanding the functional roles of these epigenomic domains in Epigenomes 2019, 3, 11; doi:10.3390/epigenomes3020011 www.mdpi.com/journal/epigenomes
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