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Epigenetic priming by Dppa2 and 4 in pluripotency facilitates multi-lineage commitment.


ABSTRACT: How the epigenetic landscape is established in development is still being elucidated. Here, we uncover developmental pluripotency associated 2 and 4 (DPPA2/4) as epigenetic priming factors that establish a permissive epigenetic landscape at a subset of developmentally important bivalent promoters characterized by low expression and poised RNA-polymerase. Differentiation assays reveal that Dppa2/4 double knockout mouse embryonic stem cells fail to exit pluripotency and differentiate efficiently. DPPA2/4 bind both H3K4me3-marked and bivalent gene promoters and associate with COMPASS- and Polycomb-bound chromatin. Comparing knockout and inducible knockdown systems, we find that acute depletion of DPPA2/4 results in rapid loss of H3K4me3 from key bivalent genes, while H3K27me3 is initially more stable but lost following extended culture. Consequently, upon DPPA2/4 depletion, these promoters gain DNA methylation and are unable to be activated upon differentiation. Our findings uncover a novel epigenetic priming mechanism at developmental promoters, poising them for future lineage-specific activation.

SUBMITTER: Eckersley-Maslin MA 

PROVIDER: S-EPMC7614975 | biostudies-literature | 2020 Aug

REPOSITORIES: biostudies-literature

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Epigenetic priming by Dppa2 and 4 in pluripotency facilitates multi-lineage commitment.

Eckersley-Maslin Mélanie A MA   Parry Aled A   Blotenburg Marloes M   Krueger Christel C   Ito Yoko Y   Franklin Valar Nila Roamio VNR   Narita Masashi M   D'Santos Clive S CS   Reik Wolf W  

Nature structural & molecular biology 20200622 8


How the epigenetic landscape is established in development is still being elucidated. Here, we uncover developmental pluripotency associated 2 and 4 (DPPA2/4) as epigenetic priming factors that establish a permissive epigenetic landscape at a subset of developmentally important bivalent promoters characterized by low expression and poised RNA-polymerase. Differentiation assays reveal that Dppa2/4 double knockout mouse embryonic stem cells fail to exit pluripotency and differentiate efficiently.  ...[more]

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