Hai-Qiang Dai scite author profile

Tet-mediated DNA oxidation is a recently identified mammalian epigenetic modification, and its functional role in cell-fate transitions remains poorly understood. Here, we derive mouse embryonic fibroblasts (MEFs) deleted in all three Tet genes and examine their capacity for reprogramming into induced pluripotent stem cells (iPSCs). We show that Tet-deficient MEFs cannot be reprogrammed because of a block in the mesenchymal-to-epithelial transition (MET) step. Reprogramming of MEFs deficient in TDG is similarly impaired. The block in reprogramming is caused at least in part by defective activation of key miRNAs, which depends on oxidative demethylation promoted by Tet and TDG. Reintroduction of either the affected miRNAs or catalytically active Tet and TDG restores reprogramming in the knockout MEFs. Thus, oxidative demethylation to promote gene activation appears to be functionally required for reprogramming of fibroblasts to pluripotency. These findings provide mechanistic insight into the role of epigenetic barriers in cell-lineage conversion.

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CTCF-Binding Elements Mediate Accessibility of RAG Substrates During Chromatin Scanning

Jain

Zhang

et al. 2018

Cell

108

245

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RAG endonuclease initiates antibody heavy chain variable region exon assembly from V, D, and J segments within a chromosomal V(D)J recombination center (RC) by cleaving between paired gene segments and flanking recombination signal sequences (RSSs). The IGCR1 control region promotes DJ intermediate formation by isolating Ds, Js, and RCs from upstream Vs in a chromatin loop anchored by CTCF-binding elements (CBEs). How Vs access the DJRC for V to DJ rearrangement was unknown. We report that CBEs immediately downstream of frequently rearranged V-RSSs increase recombination potential of their associated V far beyond that provided by RSSs alone. This CBE activity becomes particularly striking upon IGCR1 inactivation, which allows RAG, likely via loop extrusion, to linearly scan chromatin far upstream. V-associated CBEs stabilize interactions of D-proximal Vs first encountered by the DJRC during linear RAG scanning and thereby promote dominant rearrangement of these Vs by an unanticipated chromatin accessibility-enhancing CBE function.

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Hai-Qiang Dai

Tet and TDG Mediate DNA Demethylation Essential for Mesenchymal-to-Epithelial Transition in Somatic Cell Reprogramming

CTCF-Binding Elements Mediate Accessibility of RAG Substrates During Chromatin Scanning

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