Epigenetic restriction of extraembryonic lineages mirrors the somatic transition to cancer.

Nature
Authors
Keywords
Abstract

In mammals, the canonical somatic DNA methylation landscape is established upon specification of the embryo proper and subsequently disrupted within many cancer types. However, the underlying mechanisms that direct this genome-scale transformation remain elusive, with no clear model for its systematic acquisition or potential developmental utility. Here, we analysed global remethylation from the mouse preimplantation embryo into the early epiblast and extraembryonic ectoderm. We show that these two states acquire highly divergent genomic distributions with substantial disruption of bimodal, CpG density-dependent methylation in the placental progenitor. The extraembryonic epigenome includes specific de novo methylation at hundreds of embryonically protected CpG island promoters, particularly those that are associated with key developmental regulators and are orthologously methylated across most human cancer types. Our data suggest that the evolutionary innovation of extraembryonic tissues may have required co-option of DNA methylation-based suppression as an alternative to regulation by Polycomb-group proteins, which coordinate embryonic germ-layer formation in response to extraembryonic cues. Moreover, we establish that this decision is made deterministically, downstream of promiscuously used-and frequently oncogenic-signalling pathways, via a novel combination of epigenetic cofactors. Methylation of developmental gene promoters during tumorigenesis may therefore reflect the misappropriation of an innate trajectory and the spontaneous reacquisition of a latent, developmentally encoded epigenetic landscape.

Year of Publication
2017
Journal
Nature
Volume
549
Issue
7673
Pages
543-547
Date Published
2017 09 28
ISSN
1476-4687
DOI
10.1038/nature23891
PubMed ID
28959968
PubMed Central ID
PMC5789792
Links
Grant list
P01 GM099117 / GM / NIGMS NIH HHS / United States
R01 HD078679 / HD / NICHD NIH HHS / United States
P50 HG006193 / HG / NHGRI NIH HHS / United States
U54 CA193461 / CA / NCI NIH HHS / United States
1P50HG006193 / NH / NIH HHS / United States
R01 DA036898 / DA / NIDA NIH HHS / United States
RM1 HG006193 / HG / NHGRI NIH HHS / United States