Nature Communications (Aug 2024)

Mutations in linker-2 of KLF1 impair expression of membrane transporters and cytoskeletal proteins causing hemolysis

  • Stephen Huang,
  • Casie Reed,
  • Melissa Ilsley,
  • Graham Magor,
  • Michael Tallack,
  • Michael Landsberg,
  • Helen Mitchell,
  • Kevin Gillinder,
  • Andrew Perkins

DOI
https://doi.org/10.1038/s41467-024-50579-4
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 16

Abstract

Read online

Abstract The SP/KLF family of transcription factors harbour three C-terminal C2H2 zinc fingers interspersed by two linkers which confers DNA-binding to a 9-10 bp motif. Mutations in KLF1, the founding member of the family, are common. Missense mutations in linker two result in a mild phenotype. However, when co-inherited with loss-of-function mutations, they result in severe non-spherocytic hemolytic anemia. We generate a mouse model of this disease by crossing Klf1 +/− mice with Klf1 H350R/+ mice that harbour a missense mutation in linker-2. Klf1 H350R/− mice exhibit severe hemolysis without thalassemia. RNA-seq demonstrate loss of expression of genes encoding transmembrane and cytoskeletal proteins, but not globins. ChIP-seq show no change in DNA-binding specificity, but a global reduction in affinity, which is confirmed using recombinant proteins and in vitro binding assays. This study provides new insights into how linker mutations in zinc finger transcription factors result in different phenotypes to those caused by loss-of-function mutations.