Regulation of Human Erythroferrone Expression

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Regulation of Human Erythroferrone Expression

Authors

Moir-Meyer, G.; Sertori, R.; Bennett, C.; Pal, M.; Pettikiriarachchi, A.; Hughes, J.; Drakesmith, H.; Davies, J. O. J.; Downes, D. J.; Gosden, M. E.; Badat, M.; Clucas, D.; Babbs, C.; Kurita, R.; Li-Wai-Suen, C. S. N.; Garnham, A. L.; Benetti, N.; Iminitoff, M.; Cameron, T.; Blewitt, M.; Pasricha, S.-R.

Abstract

Erythroferrone (ERFE) is an erythroblast-secreted hormone that suppresses hepatic hepcidin expression to increase iron availability for erythropoiesis, ensuring recovery from anaemia. ERFE excess drives iron overload in disorders of ineffective erythropoiesis. Despite its pivotal role in systemic iron homeostasis and diseases of erythropoiesis, ERFEs molecular regulation has remained undefined. Here, we applied a genomic approach to characterise the molecular mechanisms governing ERFE expression. Using the HUDEP-2 human erythroid progenitor model, integrative ATAC-seq, CUT&RUN and micro capture-C analysis we identified a stage-specific accessible chromatin region within the ERFE 3 UTR that interacts with the promotor. We also identified enhancer-associated chromatin marks including H3K4me1 and H3K27ac in this region, and demonstrate that this cis-regulatory element is bound by key erythroid transcription factors KLF1, GATA1, TAL1 and STAT5. Functional dissection using CRISPR-Cas9-mediated deletion of the central 3 UTR enhancer element led to marked reduction in ERFE mRNA expression, and we show a corresponding reduction in nascent mRNA, confirming a key role for this region in transcriptional regulation. We define the transcriptional regulatory mechanism by which maturing human erythroblasts activate ERFE, the endocrine signal that coordinates erythropoietic demand with systemic iron mobilisation.

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