Nature Communications (May 2024)

The miR-144/Hmgn2 regulatory axis orchestrates chromatin organization during erythropoiesis

  • Dmitry A. Kretov,
  • Leighton Folkes,
  • Alexandra Mora-Martin,
  • Isha A. Walawalkar,
  • Imrat,
  • Noreen Syedah,
  • Kim Vanuytsel,
  • Simon Moxon,
  • George J. Murphy,
  • Daniel Cifuentes

DOI
https://doi.org/10.1038/s41467-024-47982-2
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 15

Abstract

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Abstract Differentiation of stem and progenitor cells is a highly regulated process that involves the coordinated action of multiple layers of regulation. Here we show how the post-transcriptional regulatory layer instructs the level of chromatin regulation via miR-144 and its targets to orchestrate chromatin condensation during erythropoiesis. The loss of miR-144 leads to impaired chromatin condensation during erythrocyte maturation. Among the several targets of miR-144 that influence chromatin organization, the miR-144-dependent regulation of Hmgn2 is conserved from fish to humans. Our genetic probing of the miR-144/Hmgn2 regulatory axis establish that intact miR-144 target sites in the Hmgn2 3’UTR are necessary for the proper maturation of erythrocytes in both zebrafish and human iPSC-derived erythroid cells while loss of Hmgn2 rescues in part the miR-144 null phenotype. Altogether, our results uncover miR-144 and its target Hmgn2 as the backbone of the genetic regulatory circuit that controls the terminal differentiation of erythrocytes in vertebrates.