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Biological and therapeutic implications of a unique subtype of NPM1 mutated AML

Author

Listed:
  • Arvind Singh Mer

    (University Health Network
    University of Toronto
    Karolinska Institute)

  • Emily M. Heath

    (University Health Network)

  • Seyed Ali Madani Tonekaboni

    (University Health Network
    University of Toronto)

  • Nergiz Dogan-Artun

    (University Health Network)

  • Sisira Kadambat Nair

    (University Health Network)

  • Alex Murison

    (University Health Network)

  • Laura Garcia-Prat

    (University Health Network)

  • Liran Shlush

    (Weizmann Institute of Science)

  • Rose Hurren

    (University Health Network)

  • Veronique Voisin

    (University of Toronto)

  • Gary D. Bader

    (University of Toronto
    University of Toronto)

  • Corey Nislow

    (The University of British Columbia)

  • Mattias Rantalainen

    (Karolinska Institute)

  • Soren Lehmann

    (Karolinska Institute)

  • Mark Gower

    (The Hospital for Sick Children)

  • Cynthia J. Guidos

    (The Hospital for Sick Children)

  • Mathieu Lupien

    (University Health Network
    University of Toronto
    Ontario Institute for Cancer Research)

  • John E. Dick

    (University Health Network
    University of Toronto)

  • Mark D. Minden

    (University Health Network)

  • Aaron D. Schimmer

    (University Health Network)

  • Benjamin Haibe-Kains

    (University Health Network
    University of Toronto
    University of Toronto
    Ontario Institute for Cancer Research)

Abstract

In acute myeloid leukemia (AML), molecular heterogeneity across patients constitutes a major challenge for prognosis and therapy. AML with NPM1 mutation is a distinct genetic entity in the revised World Health Organization classification. However, differing patterns of co-mutation and response to therapy within this group necessitate further stratification. Here we report two distinct subtypes within NPM1 mutated AML patients, which we label as primitive and committed based on the respective presence or absence of a stem cell signature. Using gene expression (RNA-seq), epigenomic (ATAC-seq) and immunophenotyping (CyToF) analysis, we associate each subtype with specific molecular characteristics, disease differentiation state and patient survival. Using ex vivo drug sensitivity profiling, we show a differential drug response of the subtypes to specific kinase inhibitors, irrespective of the FLT3-ITD status. Differential drug responses of the primitive and committed subtype are validated in an independent AML cohort. Our results highlight heterogeneity among NPM1 mutated AML patient samples based on stemness and suggest that the addition of kinase inhibitors to the treatment of cases with the primitive signature, lacking FLT3-ITD, could have therapeutic benefit.

Suggested Citation

  • Arvind Singh Mer & Emily M. Heath & Seyed Ali Madani Tonekaboni & Nergiz Dogan-Artun & Sisira Kadambat Nair & Alex Murison & Laura Garcia-Prat & Liran Shlush & Rose Hurren & Veronique Voisin & Gary D., 2021. "Biological and therapeutic implications of a unique subtype of NPM1 mutated AML," Nature Communications, Nature, vol. 12(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-21233-0
    DOI: 10.1038/s41467-021-21233-0
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    Cited by:

    1. Hanlin Wang & Guanghao Luo & Xiaobei Hu & Gaoya Xu & Tao Wang & Minmin Liu & Xiaohui Qiu & Jianan Li & Jingfeng Fu & Bo Feng & Yutong Tu & Weijuan Kan & Chang Wang & Ran Xu & Yubo Zhou & Jianmin Yang , 2023. "Targeting C/EBPα overcomes primary resistance and improves the efficacy of FLT3 inhibitors in acute myeloid leukaemia," Nature Communications, Nature, vol. 14(1), pages 1-18, December.

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