MOZ and HBO1 Histone Acetyltransferase Complexes Are Molecular Dependencies and Therapeutic Targets in NUP98 -Rearranged Acute Myeloid Leukemia

  1. Nicole L. Michmerhuizen
  2. Emily B. Heikamp
  3. Ilaria Iacobucci
  4. Masayuki Umeda
  5. Bright Arthur
  6. Vibhor Mishra
  7. Danika Di Giacomo
  8. Ryan Hiltenbrand
  9. Qingsong Gao
  10. Sandi Radko-Juettner
  11. Josi Lott
  12. Cynthia Martucci
  13. Varsha Subramanyam
  14. Charlie Hatton
  15. Pradyuamna Baviskar
  16. Pablo Portola
  17. Aurelie Claquin
  18. Bappaditya Chandra
  19. David W. Baggett
  20. Ali Khalighifar
  21. Hongling Huang
  22. Peipei Zhou
  23. Lingyun Long
  24. Hao Shi
  25. Yu Sun
  26. Evangelia K. Papachristou
  27. Chandra Sekhar Reddy Chilamakuri
  28. Francisca N. de L. Vitorino
  29. Joanna M. Gongora
  30. Laura Janke
  31. Alex Kentsis
  32. Clive S. D’Santos
  33. Benjamin A. Garcia
  34. Richard W. Kriwacki
  35. Hongbo Chi
  36. Jeffery M. Klco
  37. Scott A. Armstrong
  38. Charles G. Mullighan
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Abstract

NUP98 fusion oncoproteins (FOs) are a hallmark of childhood acute myeloid leukemia (AML) and drive leukemogenesis through liquid-liquid phase separation-mediated nuclear condensate formation. However, the composition and consequences of NUP98 FO-associated condensates are incompletely understood. Here we show that MYST family histone acetyltransferase (HAT) complex proteins including MOZ/KAT6A, HBO1/KAT7, and the common MOZ/HBO1 complex subunit BRPF1 associate with NUP98 FOs on chromatin and within condensates. MYST HATs are molecular dependencies in NUP98 -rearranged ( NUP98 -r) leukemia, and genetic inactivation or pharmacologic inhibition of Moz and Hbo1 impairs NUP98 -r cell fitness. MOZ/HBO1 inhibition decreased global H3K23ac levels, displaced NUP98::HOXA9 from chromatin at the Meis1 locus, and led to myeloid cell differentiation. Additionally, MOZ/HBO1 inhibition decreased leukemic burden in multiple NUP98 -r leukemia xenograft mouse models, synergized with Menin inhibitor treatment, and was efficacious in Menin inhibitor-resistant cells. In summary, we show that MYST family HATs are therapeutically actionable dependencies in NUP98 -r AML.

SIGNIFICANCE STATEMENT

MOZ and HBO1 associate with NUP98 fusion oncoprotein condensates to drive leukemogenesis. Inhibition of their histone acetyltransferase activity is an effective therapeutic strategy in NUP98 -rearranged leukemias, including those resistant to Menin inhibition. Moreover, combined MOZ/HBO1 and Menin inhibition is synergistic, supporting clinical translation to improve outcomes of NUP98 FO-driven leukemias.

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  1. Version published to 10.1101/2024.12.02.624182v2 on bioRxiv
  2. Version published to 10.1101/2024.12.02.624182v1 on bioRxiv