Litcius/Paper detail

Super-Enhancer Redistribution as a Mechanism of Broad Gene Dysregulation in Repeatedly Drug-Treated Cancer Cells

Qi Ma, Feng Yang, Carlos Mackintosh, Ranveer Singh Jayani, Soohwan Oh, Chunyu Jin, Sreejith J. Nair, Daria Merkurjev, Wubin Ma, Stephanie Allen, Dong Wang, Angels Almenar‐Queralt, Ivan García-Bassets

2020Cell Reports40 citationsDOIOpen Access PDF

Abstract

Cisplatin is an antineoplastic drug administered at suboptimal and intermittent doses to avoid life-threatening effects. Although this regimen shortly improves symptoms in the short term, it also leads to more malignant disease in the long term. We describe a multilayered analysis ranging from chromatin to translation-integrating chromatin immunoprecipitation sequencing (ChIP-seq), global run-on sequencing (GRO-seq), RNA sequencing (RNA-seq), and ribosome profiling-to understand how cisplatin confers (pre)malignant features by using a well-established ovarian cancer model of cisplatin exposure. This approach allows us to segregate the human transcriptome into gene modules representing distinct regulatory principles and to characterize that the most cisplatin-disrupted modules are associated with underlying events of super-enhancer plasticity. These events arise when cancer cells initiate without ultimately ending the program of drug-stimulated death. Using a PageRank-based algorithm, we predict super-enhancer regulator ISL1 as a driver of this plasticity and validate this prediction by using CRISPR/dCas9-KRAB inhibition (CRISPRi) and CRISPR/dCas9-VP64 activation (CRISPRa) tools. Together, we propose that cisplatin reprograms cancer cells when inducing them to undergo near-to-death experiences.

Topics & Concepts

EnhancerRedistribution (election)DrugMechanism (biology)GeneCancer drugsCancer researchBiologyChemistryGeneticsPharmacologyGene expressionEpistemologyLawPhilosophyPoliticsPolitical scienceGenomics and Chromatin DynamicsProtein Degradation and InhibitorsVirus-based gene therapy research