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The interplay of DNA damage, epigenetics and tumour heterogeneity in driving cancer cell fitness

Célia D. Rouault, Emmanuelle Charafe‐Jauffret, Christophe Ginestier

2025Nature Communications10 citationsDOIOpen Access PDF

Abstract

Intra-tumor heterogeneity is a primary cause of therapeutic failure, driving tumor progression. Within tumors, diverse cell states coexist, maintained by a specific chromatin landscape that influences various cell functions, including cancer stemness. Among factors that induce chromatin changes affecting cell state fitness, DNA damage and its repair have emerged as significant contributors. This perspective examines recent advances that elucidate the interplay between DNA repair, epigenome, and cell plasticity. We discuss how epigenome affects DNA repair and, conversely, how DNA repair-induced chromatin changes influence cell plasticity. Finally, we discuss emerging concepts and highlight the therapeutic implications of these interconnected mechanisms. Cancer cell plasticity is often linked to treatment failure. Here, the authors discuss the role of epigenome in DNA repair and, how DNA repair-induced chromatin changes influence cancer cell plasticity.

Topics & Concepts

ChromatinEpigenomeEpigeneticsBiologyDNAEpigenesisDNA damageDNA repairCellCancerDNA methylationHistoneEpigenomicsCell biologyGeneticsCancer cellComputational biologyChromatin remodelingCancer epigeneticsMechanism (biology)Cancer researchmicroRNAGenomeCell typeEpigenetics and DNA MethylationHistone Deacetylase Inhibitors ResearchGenomics and Chromatin Dynamics
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