Litcius/Paper detail

Whole-genome doubling drives oncogenic loss of chromatin segregation

Ruxandra A. Lambuta, Luca Nanni, Yuanlong Liu, Juan Díaz-Miyar, Arvind Iyer, Daniele Tavernari, Natalya Katanayeva, Giovanni Ciriello, Elisa Oricchio

2023Nature63 citationsDOIOpen Access PDF

Abstract

. However, the three-dimensional organization of chromatin in WGD cells and its contribution to oncogenic phenotypes are currently unknown. Here we show that in p53-deficient cells, WGD induces loss of chromatin segregation (LCS). This event is characterized by reduced segregation between short and long chromosomes, A and B subcompartments and adjacent chromatin domains. LCS is driven by the downregulation of CTCF and H3K9me3 in cells that bypassed activation of the tetraploid checkpoint. Longitudinal analyses revealed that LCS primes genomic regions for subcompartment repositioning in WGD cells. This results in chromatin and epigenetic changes associated with oncogene activation in tumours ensuing from WGD cells. Notably, subcompartment repositioning events were largely independent of chromosomal alterations, which indicates that these were complementary mechanisms contributing to tumour development and progression. Overall, LCS initiates chromatin conformation changes that ultimately result in oncogenic epigenetic and transcriptional modifications, which suggests that chromatin evolution is a hallmark of WGD-driven cancer.

Topics & Concepts

ChromatinBiologyEpigeneticsCTCFGenome instabilityCell biologyChromosome instabilityGenomeHistonePhenotypeGeneticsDNAGeneDNA damageGene expressionChromosomeEnhancerGenomics and Chromatin DynamicsCancer Genomics and DiagnosticsEpigenetics and DNA Methylation
Whole-genome doubling drives oncogenic loss of chromatin segregation | Litcius