DNA methylation is required to maintain DNA replication timing precision and 3D genome integrity

Author:

Du QianORCID,Smith Grady C.,Luu Phuc Loi,Ferguson James M.,Armstrong Nicola J.,Caldon C. Elizabeth,Campbell Elyssa,Nair Shalima S.,Zotenko Elena,Gould Cathryn M.,Buckley Michael,Kaczorowski Dominik,Barton Kirston,Deveson Ira W.,Smith Martin A.,Powell Joseph E.,Skvortsova Ksenia,Stirzaker Clare,Achinger-Kawecka Joanna,Clark Susan J.ORCID

Abstract

AbstractDNA replication timing and three-dimensional (3D) genome organisation occur across large domains associated with distinct epigenome patterns to functionally compartmentalise genome regulation. However, it is still unclear if alternations in the epigenome, in particular cancer-related DNA hypomethylation, can directly result in alterations to cancer higher order genome architecture. Here, we use Hi-C and single cell Repli-Seq, in the colorectal cancerDNMT1andDNMT3BDNA methyltransferases double knockout model, to determine the impact of DNA hypomethylation on replication timing and 3D genome organisation. First, we find that the hypomethylated cells show a striking loss of replication timing precision with gain of cell-to-cell replication timing heterogeneity and loss of 3D genome compartmentalisation. Second, hypomethylated regions that undergo a large change in replication timing also show loss of allelic replication timing, including at cancer-related genes. Finally, we observe the formation of broad ectopic H3K4me3-H3K9me3 domains across hypomethylated regions where late replication is maintained, that potentially prevent aberrant transcription and loss of genome organisation after DNA demethylation. Together, our results highlight a previously underappreciated role for DNA methylation in maintenance of 3D genome architecture.

Publisher

Cold Spring Harbor Laboratory

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