PLoS ONE (Jan 2019)

The mouse KLF1 Nan variant impairs nuclear condensation and erythroid maturation.

  • Ileana Cantú,
  • Harmen J G van de Werken,
  • Nynke Gillemans,
  • Ralph Stadhouders,
  • Steven Heshusius,
  • Alex Maas,
  • Fatemehsadat Esteghamat,
  • Zeliha Ozgur,
  • Wilfred F J van IJcken,
  • Frank Grosveld,
  • Marieke von Lindern,
  • Sjaak Philipsen,
  • Thamar B van Dijk

DOI
https://doi.org/10.1371/journal.pone.0208659
Journal volume & issue
Vol. 14, no. 3
p. e0208659

Abstract

Read online

Krüppel-like factor 1 (KLF1) is an essential transcription factor for erythroid development, as demonstrated by Klf1 knockout mice which die around E14 due to severe anemia. In humans, >140 KLF1 variants, causing different erythroid phenotypes, have been described. The KLF1 Nan variant, a single amino acid substitution (p.E339D) in the DNA binding domain, causes hemolytic anemia and is dominant over wildtype KLF1. Here we describe the effects of the KLF1 Nan variant during fetal development. We show that Nan embryos have defects in erythroid maturation. RNA-sequencing of the KLF1 Nan fetal liver cells revealed that Exportin 7 (Xpo7) was among the 782 deregulated genes. This nuclear exportin is implicated in terminal erythroid differentiation; in particular it is involved in nuclear condensation. Indeed, KLF1 Nan fetal liver cells had larger nuclei and reduced chromatin condensation. Knockdown of XPO7 in wildtype erythroid cells caused a similar phenotype. We propose that reduced expression of XPO7 is partially responsible for the erythroid defects observed in KLF1 Nan erythroid cells.