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EKLF/Klf1 regulates erythroid transcription by its pioneering activity and selective control of RNA Pol II pause-release

Kaustav Mukherjee, James J. Bieker

2022Cell Reports35 citationsDOIOpen Access PDF

Abstract

EKLF/Klf1 is a zinc-finger transcription activator essential for erythroid lineage commitment and terminal differentiation. Using ChIP-seq, we investigate EKLF DNA binding and transcription activation mechanisms during mouse embryonic erythropoiesis. We utilize the Nan/+ mouse that expresses the EKLF-E339D (Nan) variant mutated in its conserved zinc-finger region and address the mechanism of hypomorphic and neomorphic changes in downstream gene expression. First, we show that Nan-EKLF limits normal EKLF binding to a subset of its sites. Second, we find that ectopic binding of Nan-EKLF occurs largely at enhancers and activates transcription through pioneering activity. Third, we find that for a subset of ectopic targets, gene activation is achieved in Nan/+ only by Nan-EKLF binding to distal enhancers, leading to RNA polymerase II pause-release. These results have general applicability to understanding how a DNA binding variant factor confers dominant disruptive effects on downstream gene expression even in the presence of its normal counterpart.

Topics & Concepts

Zinc fingerEctopic expressionEnhancerTranscription factorBiologyCell biologyActivator (genetics)GATA1Transcription (linguistics)Molecular biologyGeneErythropoiesisGeneticsPhilosophyAnemiaInternal medicineLinguisticsMedicineRNA Research and SplicingRNA modifications and cancerGenomics and Chromatin Dynamics
EKLF/Klf1 regulates erythroid transcription by its pioneering activity and selective control of RNA Pol II pause-release | Litcius