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Epigenetic reprogramming by TET enzymes impacts co-transcriptional R-loops

João C Sabino, Madalena R de Almeida, Patrícia L Abreu, Ana M Ferreira, Paulo Caldas, Marco M Domingues, Nuno C Santos, Claus M Azzalin, Ana Rita Grosso, Sérgio Fernandes de Almeida

2022eLife30 citationsDOIOpen Access PDF

Abstract

DNA oxidation by ten-eleven translocation (TET) family enzymes is essential for epigenetic reprogramming. The conversion of 5-methylcytosine (5mC) into 5-hydroxymethylcytosine (5hmC) initiates developmental and cell-type-specific transcriptional programs through mechanisms that include changes in the chromatin structure. Here, we show that the presence of 5hmC in the transcribed gene promotes the annealing of the nascent RNA to the template DNA strand, leading to the formation of an R-loop. Depletion of TET enzymes reduced global R-loops in the absence of gene expression changes, whereas CRISPR-mediated tethering of TET to an active gene promoted the formation of R-loops. The genome-wide distribution of 5hmC and R-loops shows a positive correlation in mouse and human stem cells and overlap in half of all active genes. Moreover, R-loop resolution leads to differential expression of a subset of genes that are involved in crucial events during stem cell proliferation. Altogether, our data reveal that epigenetic reprogramming via TET activity promotes co-transcriptional R-loop formation, disclosing new mechanisms of gene expression regulation.

Topics & Concepts

EpigeneticsBiologyReprogrammingChromatinGene expressionGeneCell biologyRegulation of gene expressionDNADNA methylationRNAGeneticsTranscription (linguistics)EpigenomicsTranscription factorCellular differentiationEpigenesisMolecular biologyStem cellEnzymeEpigenetic regulation of neurogenesisChromatin remodeling5-HydroxymethylcytosineRNA polymerase IIEpigenetics and DNA MethylationChromosomal and Genetic VariationsGenomics and Chromatin Dynamics
Epigenetic reprogramming by TET enzymes impacts co-transcriptional R-loops | Litcius