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

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. Bader; Corey Nislow; Mattias Rantalainen; Soren Lehmann; Mark Gower; Cynthia J. Guidos; Mathieu Lupien; John E. Dick; Mark D. Minden; Aaron D. Schimmer; Benjamin Haibe-Kains

doi:10.1038/s41467-021-21233-0

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

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. Bader, Corey Nislow, Mattias Rantalainen, Soren Lehmann, Mark Gower, Cynthia J. Guidos, Mathieu Lupien, John E. Dick, Mark D. Minden, Aaron D. SchimmerBenjamin Haibe-Kains

Department of Systems Immunology

Weizmann Institute of Science

Research output: Contribution to journal › Article › peer-review

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.

Original language	English
Article number	1054
Number of pages	13
Journal	Nature Communications
Volume	12
Issue number	1
DOIs	https://doi.org/10.1038/s41467-021-21233-0
State	Published Online - 16 Feb 2021

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry,Genetics and Molecular Biology
General Physics and Astronomy

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Mer, A. S., Heath, E. M., Madani Tonekaboni, S. A., Dogan-Artun, N., Nair, S. K., Murison, A., Garcia-Prat, L., Shlush, L., Hurren, R., Voisin, V., Bader, G. D., Nislow, C., Rantalainen, M., Lehmann, S., Gower, M., Guidos, C. J., Lupien, M., Dick, J. E., Minden, M. D., ... Haibe-Kains, B. (2021). Biological and therapeutic implications of a unique subtype of NPM1 mutated AML. Nature Communications, 12(1), Article 1054. Advance online publication. https://doi.org/10.1038/s41467-021-21233-0

@article{943938c4bbf14d3ea7f634f4a55a7d11,

title = "Biological and therapeutic implications of a unique subtype of NPM1 mutated AML",

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.",

author = "Mer, \{Arvind Singh\} and Heath, \{Emily M.\} and \{Madani Tonekaboni\}, \{Seyed Ali\} and Nergiz Dogan-Artun and Nair, \{Sisira Kadambat\} and Alex Murison and Laura Garcia-Prat and Liran Shlush and Rose Hurren and Veronique Voisin and Bader, \{Gary D.\} and Corey Nislow and Mattias Rantalainen and Soren Lehmann and Mark Gower and Guidos, \{Cynthia J.\} and Mathieu Lupien and Dick, \{John E.\} and Minden, \{Mark D.\} and Schimmer, \{Aaron D.\} and Benjamin Haibe-Kains",

note = "This research was supported by the Princess Margaret Cancer Foundation, Canadian Institutes of Health Research (CIHR), including the Canadian Epigenetics, Environment and Health Research Consortium (CEEHRC) initiative, the Ontario Institute for Cancer Research (OICR) through funding provided by the Government of Ontario. We acknowledge the Princess Margaret Genomics and Bioinformatics group for providing the infrastructure required to conduct analyses included in this work. We thank the Leucegene and the Quebec Leukemia Cell Bank (BCLQ) teams for RNASeq and clinical data of the Leucegene AML cohort. The Leucegene project is supported by grants from the Government of Canada through Genome Canada and the Minist{\`e}re de l′{\'E}conomie, de l{\textquoteright}Innovation du Qu{\'e}bec through G{\'e}nome Qu{\'e}bec. Contributions - A.S.M. designed the study, collected the data, performed the data analysis, results interpretation, and wrote the manuscript. E.M.H. performed sequencing library preparation, ex vivo drug screening, data processing, and contributed to results interpretation and manuscript writing. S.K.N., L.S., M.R., S.L. and J.E.D. contributed to the data collection, analysis, results interpretation, and manuscript writing. S.A.M.T., N.D.-A., A.M. and M.L. conducted epigenomic profiling and data analysis. L.G., R.H. and C.N. participated in qPCR analysis and gene expression profiling. V.V. and G.D.B. performed cellular deconvolution analysis. M.G. and C.J.G. conducted mass cytometry profiling and data analysis. M.D.M., A.D.S. and B.H.K. designed and supervised the study. Funding Information: A.D.S. has received research funding from Takeda Pharmaceuticals and Medivir AB, and consulting fees/honorarium from Takeda, Novartis, Jazz, and Otsuka Pharmaceuticals. A.D.S. holds stock in Abbvie. A.D.S. is an inventor on patent applications claiming the use of DNTs for the treatment of AML. All other authors declare no competing interests. Publisher Copyright: {\textcopyright} 2021, The Author(s). Copyright: Copyright 2021 Elsevier B.V., All rights reserved.",

year = "2021",

month = feb,

day = "16",

doi = "10.1038/s41467-021-21233-0",

language = "الإنجليزيّة",

volume = "12",

journal = "Nature Communications",

issn = "2041-1723",

publisher = "Nature Research",

number = "1",

}

Mer, AS, Heath, EM, Madani Tonekaboni, SA, Dogan-Artun, N, Nair, SK, Murison, A, Garcia-Prat, L, Shlush, L, Hurren, R, Voisin, V, Bader, GD, Nislow, C, Rantalainen, M, Lehmann, S, Gower, M, Guidos, CJ, Lupien, M, Dick, JE, Minden, MD, Schimmer, AD & Haibe-Kains, B 2021, 'Biological and therapeutic implications of a unique subtype of NPM1 mutated AML', Nature Communications, vol. 12, no. 1, 1054. https://doi.org/10.1038/s41467-021-21233-0

TY - JOUR

T1 - Biological and therapeutic implications of a unique subtype of NPM1 mutated AML

AU - Mer, Arvind Singh

AU - Heath, Emily M.

AU - Madani Tonekaboni, Seyed Ali

AU - Dogan-Artun, Nergiz

AU - Nair, Sisira Kadambat

AU - Murison, Alex

AU - Garcia-Prat, Laura

AU - Shlush, Liran

AU - Hurren, Rose

AU - Voisin, Veronique

AU - Bader, Gary D.

AU - Nislow, Corey

AU - Rantalainen, Mattias

AU - Lehmann, Soren

AU - Gower, Mark

AU - Guidos, Cynthia J.

AU - Lupien, Mathieu

AU - Dick, John E.

AU - Minden, Mark D.

AU - Schimmer, Aaron D.

AU - Haibe-Kains, Benjamin

N1 - This research was supported by the Princess Margaret Cancer Foundation, Canadian Institutes of Health Research (CIHR), including the Canadian Epigenetics, Environment and Health Research Consortium (CEEHRC) initiative, the Ontario Institute for Cancer Research (OICR) through funding provided by the Government of Ontario. We acknowledge the Princess Margaret Genomics and Bioinformatics group for providing the infrastructure required to conduct analyses included in this work. We thank the Leucegene and the Quebec Leukemia Cell Bank (BCLQ) teams for RNASeq and clinical data of the Leucegene AML cohort. The Leucegene project is supported by grants from the Government of Canada through Genome Canada and the Ministère de l′Économie, de l’Innovation du Québec through Génome Québec. Contributions - A.S.M. designed the study, collected the data, performed the data analysis, results interpretation, and wrote the manuscript. E.M.H. performed sequencing library preparation, ex vivo drug screening, data processing, and contributed to results interpretation and manuscript writing. S.K.N., L.S., M.R., S.L. and J.E.D. contributed to the data collection, analysis, results interpretation, and manuscript writing. S.A.M.T., N.D.-A., A.M. and M.L. conducted epigenomic profiling and data analysis. L.G., R.H. and C.N. participated in qPCR analysis and gene expression profiling. V.V. and G.D.B. performed cellular deconvolution analysis. M.G. and C.J.G. conducted mass cytometry profiling and data analysis. M.D.M., A.D.S. and B.H.K. designed and supervised the study. Funding Information: A.D.S. has received research funding from Takeda Pharmaceuticals and Medivir AB, and consulting fees/honorarium from Takeda, Novartis, Jazz, and Otsuka Pharmaceuticals. A.D.S. holds stock in Abbvie. A.D.S. is an inventor on patent applications claiming the use of DNTs for the treatment of AML. All other authors declare no competing interests. Publisher Copyright: © 2021, The Author(s). Copyright: Copyright 2021 Elsevier B.V., All rights reserved.

PY - 2021/2/16

Y1 - 2021/2/16

N2 - 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.

AB - 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.

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U2 - 10.1038/s41467-021-21233-0

DO - 10.1038/s41467-021-21233-0

M3 - مقالة

C2 - 33594052

SN - 2041-1723

VL - 12

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 1054

ER -

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

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