Haematologica (Jun 2024)

<i>IKZF1</i> gene deletions drive resistance to cytarabine in B-cell precursor acute lymphoblastic leukemia

  • Britt M. T. Vervoort,
  • Miriam Butler,
  • Kari J.T. Grünewald,
  • Dorette S. van Ingen Schenau,
  • Trisha M. Tee,
  • Luc Lucas,
  • Alwin D. R. Huitema,
  • Judith M. Boer,
  • Beat C. Bornhauser,
  • Jean-Pierre Bourquin,
  • Peter M. Hoogerbrugge,
  • Vincent H.J. van der Velden,
  • Roland P. Kuiper,
  • Laurens T. van der Meer,
  • Frank N. van Leeuwen

DOI
https://doi.org/10.3324/haematol.2023.284357
Journal volume & issue
Vol. 999, no. 1

Abstract

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IKZF1-deletions occur in 10-15% of patients with B-cell precursor acute lymphoblastic leukemia (BCP-ALL) and predict a poor outcome. However, the impact of IKZF1-loss on sensitivity to drugs used in contemporary treatment protocols has remained underexplored. Here we show in experimental models and in patients that loss of IKZF1 promotes resistance to AraC, a key component of both upfront and relapsed treatment protocols. We attribute this resistance, in part, to diminished import and incorporation of cytarabine (AraC) due to reduced expression of the solute carrier hENT1. Moreover, we find elevated mRNA expression of Evi1, a known driver of therapy resistance in myeloid malignancies. Finally, a kinase directed CRISPR/Cas9-screen identified that inhibition of either mediator kinases CDK8/19 or casein kinase 2 can restore response to AraC. We conclude that this high-risk patient group could benefit from alternative antimetabolites, or targeted therapies that resensitize the cells to AraC.