IKZF2 Drives Leukemia Stem Cell Self-Renewal and Inhibits Myeloid Differentiation

Sun Mi Park; Hyunwoo Cho; Angela M. Thornton; Trevor S. Barlowe; Timothy Chou; Sagar Chhangawala; Lauren Fairchild; James Taggart; Arthur Chow; Alexandria Schurer; Antoine Gruet; Matthew D. Witkin; Jun Hyun Kim; Ethan M. Shevach; Andrei Krivtsov; Scott A. Armstrong; Christina Leslie; Michael G. Kharas

doi:10.1016/j.stem.2018.10.016

IKZF2 Drives Leukemia Stem Cell Self-Renewal and Inhibits Myeloid Differentiation

Sun Mi Park
, Hyunwoo Cho
, Angela M. Thornton
, Trevor S. Barlowe
, Timothy Chou
, Sagar Chhangawala
, Lauren Fairchild
, James Taggart
, Arthur Chow
, Alexandria Schurer
, Antoine Gruet
, Matthew D. Witkin
, Jun Hyun Kim
, Ethan M. Shevach
, Andrei Krivtsov
, Scott A. Armstrong
, Christina Leslie
, Michael G. Kharas

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

84 Scopus citations

Abstract

Leukemias exhibit a dysregulated developmental program mediated through both genetic and epigenetic mechanisms. Although IKZF2 is expressed in hematopoietic stem cells (HSCs), we found that it is dispensable for mouse and human HSC function. In contrast to its role as a tumor suppressor in hypodiploid B-acute lymphoblastic leukemia, we found that IKZF2 is required for myeloid leukemia. IKZF2 is highly expressed in leukemic stem cells (LSCs), and its deficiency results in defective LSC function. IKZF2 depletion in acute myeloid leukemia (AML) cells reduced colony formation, increased differentiation and apoptosis, and delayed leukemogenesis. Gene expression, chromatin accessibility, and direct IKZF2 binding in MLL-AF9 LSCs demonstrate that IKZF2 regulates a HOXA9 self-renewal gene expression program and inhibits a C/EBP-driven differentiation program. Ectopic HOXA9 expression and CEBPE depletion rescued the effects of IKZF2 depletion. Thus, our study shows that IKZF2 regulates the AML LSC program and provides a rationale to therapeutically target IKZF2 in myeloid leukemia.

Original language	English
Pages (from-to)	153-165.e7
Journal	Cell Stem Cell
Volume	24
Issue number	1
DOIs	https://doi.org/10.1016/j.stem.2018.10.016
State	Published - 3 Jan 2019
Externally published	Yes

Keywords

C/EBP
HOXA9
IKZF2
leukemic stem cells

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10.1016/j.stem.2018.10.016

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Park, S. M., Cho, H., Thornton, A. M., Barlowe, T. S., Chou, T., Chhangawala, S., Fairchild, L., Taggart, J., Chow, A., Schurer, A., Gruet, A., Witkin, M. D., Kim, J. H., Shevach, E. M., Krivtsov, A., Armstrong, S. A., Leslie, C., & Kharas, M. G. (2019). IKZF2 Drives Leukemia Stem Cell Self-Renewal and Inhibits Myeloid Differentiation. Cell Stem Cell, 24(1), 153-165.e7. https://doi.org/10.1016/j.stem.2018.10.016

@article{11b3b782b418405b845d8d8e509e8a6d,

title = "IKZF2 Drives Leukemia Stem Cell Self-Renewal and Inhibits Myeloid Differentiation",

abstract = "Leukemias exhibit a dysregulated developmental program mediated through both genetic and epigenetic mechanisms. Although IKZF2 is expressed in hematopoietic stem cells (HSCs), we found that it is dispensable for mouse and human HSC function. In contrast to its role as a tumor suppressor in hypodiploid B-acute lymphoblastic leukemia, we found that IKZF2 is required for myeloid leukemia. IKZF2 is highly expressed in leukemic stem cells (LSCs), and its deficiency results in defective LSC function. IKZF2 depletion in acute myeloid leukemia (AML) cells reduced colony formation, increased differentiation and apoptosis, and delayed leukemogenesis. Gene expression, chromatin accessibility, and direct IKZF2 binding in MLL-AF9 LSCs demonstrate that IKZF2 regulates a HOXA9 self-renewal gene expression program and inhibits a C/EBP-driven differentiation program. Ectopic HOXA9 expression and CEBPE depletion rescued the effects of IKZF2 depletion. Thus, our study shows that IKZF2 regulates the AML LSC program and provides a rationale to therapeutically target IKZF2 in myeloid leukemia.",

keywords = "C/EBP, HOXA9, IKZF2, leukemic stem cells",

author = "Park, \{Sun Mi\} and Hyunwoo Cho and Thornton, \{Angela M.\} and Barlowe, \{Trevor S.\} and Timothy Chou and Sagar Chhangawala and Lauren Fairchild and James Taggart and Arthur Chow and Alexandria Schurer and Antoine Gruet and Witkin, \{Matthew D.\} and Kim, \{Jun Hyun\} and Shevach, \{Ethan M.\} and Andrei Krivtsov and Armstrong, \{Scott A.\} and Christina Leslie and Kharas, \{Michael G.\}",

note = "Publisher Copyright: {\textcopyright} 2018 Elsevier Inc.",

year = "2019",

month = jan,

day = "3",

doi = "10.1016/j.stem.2018.10.016",

language = "English",

volume = "24",

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Park, SM, Cho, H, Thornton, AM, Barlowe, TS, Chou, T, Chhangawala, S, Fairchild, L, Taggart, J, Chow, A, Schurer, A, Gruet, A, Witkin, MD, Kim, JH, Shevach, EM, Krivtsov, A, Armstrong, SA, Leslie, C & Kharas, MG 2019, 'IKZF2 Drives Leukemia Stem Cell Self-Renewal and Inhibits Myeloid Differentiation', Cell Stem Cell, vol. 24, no. 1, pp. 153-165.e7. https://doi.org/10.1016/j.stem.2018.10.016

TY - JOUR

T1 - IKZF2 Drives Leukemia Stem Cell Self-Renewal and Inhibits Myeloid Differentiation

AU - Park, Sun Mi

AU - Cho, Hyunwoo

AU - Thornton, Angela M.

AU - Barlowe, Trevor S.

AU - Chou, Timothy

AU - Chhangawala, Sagar

AU - Fairchild, Lauren

AU - Taggart, James

AU - Chow, Arthur

AU - Schurer, Alexandria

AU - Gruet, Antoine

AU - Witkin, Matthew D.

AU - Kim, Jun Hyun

AU - Shevach, Ethan M.

AU - Krivtsov, Andrei

AU - Armstrong, Scott A.

AU - Leslie, Christina

AU - Kharas, Michael G.

PY - 2019/1/3

Y1 - 2019/1/3

N2 - Leukemias exhibit a dysregulated developmental program mediated through both genetic and epigenetic mechanisms. Although IKZF2 is expressed in hematopoietic stem cells (HSCs), we found that it is dispensable for mouse and human HSC function. In contrast to its role as a tumor suppressor in hypodiploid B-acute lymphoblastic leukemia, we found that IKZF2 is required for myeloid leukemia. IKZF2 is highly expressed in leukemic stem cells (LSCs), and its deficiency results in defective LSC function. IKZF2 depletion in acute myeloid leukemia (AML) cells reduced colony formation, increased differentiation and apoptosis, and delayed leukemogenesis. Gene expression, chromatin accessibility, and direct IKZF2 binding in MLL-AF9 LSCs demonstrate that IKZF2 regulates a HOXA9 self-renewal gene expression program and inhibits a C/EBP-driven differentiation program. Ectopic HOXA9 expression and CEBPE depletion rescued the effects of IKZF2 depletion. Thus, our study shows that IKZF2 regulates the AML LSC program and provides a rationale to therapeutically target IKZF2 in myeloid leukemia.

AB - Leukemias exhibit a dysregulated developmental program mediated through both genetic and epigenetic mechanisms. Although IKZF2 is expressed in hematopoietic stem cells (HSCs), we found that it is dispensable for mouse and human HSC function. In contrast to its role as a tumor suppressor in hypodiploid B-acute lymphoblastic leukemia, we found that IKZF2 is required for myeloid leukemia. IKZF2 is highly expressed in leukemic stem cells (LSCs), and its deficiency results in defective LSC function. IKZF2 depletion in acute myeloid leukemia (AML) cells reduced colony formation, increased differentiation and apoptosis, and delayed leukemogenesis. Gene expression, chromatin accessibility, and direct IKZF2 binding in MLL-AF9 LSCs demonstrate that IKZF2 regulates a HOXA9 self-renewal gene expression program and inhibits a C/EBP-driven differentiation program. Ectopic HOXA9 expression and CEBPE depletion rescued the effects of IKZF2 depletion. Thus, our study shows that IKZF2 regulates the AML LSC program and provides a rationale to therapeutically target IKZF2 in myeloid leukemia.

KW - C/EBP

KW - HOXA9

KW - IKZF2

KW - leukemic stem cells

UR - https://www.scopus.com/pages/publications/85059132554

U2 - 10.1016/j.stem.2018.10.016

DO - 10.1016/j.stem.2018.10.016

M3 - Article

C2 - 30472158

AN - SCOPUS:85059132554

SN - 1934-5909

VL - 24

SP - 153-165.e7

JO - Cell Stem Cell

JF - Cell Stem Cell

IS - 1

ER -

IKZF2 Drives Leukemia Stem Cell Self-Renewal and Inhibits Myeloid Differentiation

Abstract

Keywords

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