Litcius/Paper detail

3D chromatin remodeling potentiates transcriptional programs driving cell invasion

Benjamin Lebeau, Maïka Jangal, Tiejun Zhao, Cheng Kit Wong, Nolan Wong, Eduardo Cepeda Cañedo, Steven Hébert, Adriana Aguilar‐Mahecha, Catherine Chabot, Marguerite Buchanan, Rachel Catterall, Luke McCaffrey, Geneviève Deblois, Claudia L. Kleinman, Morag Park, Mark Basik, Michael Witcher

2022Proceedings of the National Academy of Sciences14 citationsDOIOpen Access PDF

Abstract

The contribution of deregulated chromatin architecture, including topologically associated domains (TADs), to cancer progression remains ambiguous. CCCTC-binding factor (CTCF) is a central regulator of higher-order chromatin structure that undergoes copy number loss in over half of all breast cancers, but the impact of this defect on epigenetic programming and chromatin architecture remains unclear. We find that under physiological conditions, CTCF organizes subTADs to limit the expression of oncogenic pathways, including phosphatidylinositol 3-kinase (PI3K) and cell adhesion networks. Loss of a single CTCF allele potentiates cell invasion through compromised chromatin insulation and a reorganization of chromatin architecture and histone programming that facilitates de novo promoter-enhancer contacts. However, this change in the higher-order chromatin landscape leads to a vulnerability to inhibitors of mTOR. These data support a model whereby subTAD reorganization drives both modification of histones at de novo enhancer-promoter contacts and transcriptional up-regulation of oncogenic transcriptional networks.

Topics & Concepts

CTCFChromatinEnhancerHistoneChromatin remodelingBiologyCell biologyChIA-PETEpigeneticsEpigenomeHistone codeHistone-modifying enzymesBivalent chromatinGeneticsTranscription factorCancer researchGeneGene expressionDNA methylationNucleosomeGenomics and Chromatin DynamicsEpigenetics and DNA MethylationUbiquitin and proteasome pathways