Overexpression of Lmo2 initiates T-lymphoblastic leukemia via impaired thymocyte competition

Hesham D. Abdulla; Raed Alserihi; Christoffer Flensburg; Waruni Abeysekera; Meng Xiao Luo; Daniel H.D. Gray; Xiaodong Liu; Gordon K. Smyth; Warren S. Alexander; Ian J. Majewski; Matthew P. McCormack

doi:10.1084/jem.20212383

Overexpression of Lmo2 initiates T-lymphoblastic leukemia via impaired thymocyte competition

Hesham D. Abdulla, Raed Alserihi, Christoffer Flensburg, Waruni Abeysekera, Meng Xiao Luo, Daniel H.D. Gray, Xiaodong Liu, Gordon K. Smyth, Warren S. Alexander, Ian J. Majewski, Matthew P. McCormack

Australian Centre for Blood Diseases

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

4 Citations (Scopus)

Abstract

Cell competition has recently emerged as an important tumor suppressor mechanism in the thymus that inhibits autonomous thymic maintenance. Here, we show that the oncogenic transcription factor Lmo2 causes autonomous thymic maintenance in transgenic mice by inhibiting early T cell differentiation. This autonomous thymic maintenance results in the development of self-renewing preleukemic stem cells (pre-LSCs) and subsequent leukemogenesis, both of which are profoundly inhibited by restoration of thymic competition or expression of the antiapoptotic factor BCL2. Genomic analyses revealed the presence of Notch1 mutations in pre-LSCs before subsequent loss of tumor suppressors promotes the transition to overt leukemogenesis. These studies demonstrate a critical role for impaired cell competition in the development of pre-LSCs in a transgenic mouse model of T cell acute lymphoblastic leukemia (T-ALL), implying that this process plays a role in the ontogeny of human T-ALL.

Original language	English
Article number	e20212383
Number of pages	24
Journal	Journal of Experimental Medicine
Volume	220
Issue number	6
DOIs	https://doi.org/10.1084/jem.20212383
Publication status	Published - 5 Jun 2023

Keywords

Hematopoiesis
Leukemia & Lymphoma

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10.1084/jem.20212383Licence: CC BY-SA

Cite this

@article{8307cb33140e41138ffcf4aaae865736,

title = "Overexpression of Lmo2 initiates T-lymphoblastic leukemia via impaired thymocyte competition",

abstract = "Cell competition has recently emerged as an important tumor suppressor mechanism in the thymus that inhibits autonomous thymic maintenance. Here, we show that the oncogenic transcription factor Lmo2 causes autonomous thymic maintenance in transgenic mice by inhibiting early T cell differentiation. This autonomous thymic maintenance results in the development of self-renewing preleukemic stem cells (pre-LSCs) and subsequent leukemogenesis, both of which are profoundly inhibited by restoration of thymic competition or expression of the antiapoptotic factor BCL2. Genomic analyses revealed the presence of Notch1 mutations in pre-LSCs before subsequent loss of tumor suppressors promotes the transition to overt leukemogenesis. These studies demonstrate a critical role for impaired cell competition in the development of pre-LSCs in a transgenic mouse model of T cell acute lymphoblastic leukemia (T-ALL), implying that this process plays a role in the ontogeny of human T-ALL.",

keywords = "Hematopoiesis, Leukemia & Lymphoma",

author = "Abdulla, {Hesham D.} and Raed Alserihi and Christoffer Flensburg and Waruni Abeysekera and Luo, {Meng Xiao} and Gray, {Daniel H.D.} and Xiaodong Liu and Smyth, {Gordon K.} and Alexander, {Warren S.} and Majewski, {Ian J.} and McCormack, {Matthew P.}",

note = "Funding Information: This work was supported by an Alan W. Harris Scholarship and an Australian Postgraduate Award (to H.D. Abdulla) from the Australian Government, project grants (1003391 to M.P. McCormack, 1187367 to D.H.D. Gray, and 1104145 to M.P. Mc-Cormack and I.J. Majewski), a Program grant (1113577 to W.S. Alexander), Fellowships (1154970 to G.K. Smyth, 1158024 to D.H.D. Gray, and 1058344 to W.S. Alexander), and the Independent Research Institute{\textquoteright}s Infrastructure Support Scheme from the National Health and Medical Research Council of Australia, a grant-in-aid from the Cancer Council of Victoria, a Future Fellowship from the Australian Research Council (to M.P. McCormack), and a Victorian State Government Operational Infrastructure Support grant. Funding Information: Disclosures: The Walter and Eliza Hall Institute receives milestone and royalty payments related to Venetoclax, and employees may also be eligible for benefits related to these payments. W.S. Alexander and I.J. Majewski reported receiving payments from the Walter and Eliza Hall Institute related to Venetoclax. M.P. McCormack is an employee of iCamuno Bio-therapeutics and has served as a consultant for AstraZeneca. D.H.D. Gray reported “other” from Walter and Eliza Hall Institute and grants from Servier outside the submitted work. X. Liu is co-founder of iCamuno Biotherapeutics. No other disclosures were reported. Publisher Copyright: {\textcopyright} 2023 Abdulla et al.",

year = "2023",

month = jun,

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doi = "10.1084/jem.20212383",

language = "English",

volume = "220",

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T1 - Overexpression of Lmo2 initiates T-lymphoblastic leukemia via impaired thymocyte competition

AU - Abdulla, Hesham D.

AU - Alserihi, Raed

AU - Flensburg, Christoffer

AU - Abeysekera, Waruni

AU - Luo, Meng Xiao

AU - Gray, Daniel H.D.

AU - Liu, Xiaodong

AU - Smyth, Gordon K.

AU - Alexander, Warren S.

AU - Majewski, Ian J.

AU - McCormack, Matthew P.

N1 - Funding Information: This work was supported by an Alan W. Harris Scholarship and an Australian Postgraduate Award (to H.D. Abdulla) from the Australian Government, project grants (1003391 to M.P. McCormack, 1187367 to D.H.D. Gray, and 1104145 to M.P. Mc-Cormack and I.J. Majewski), a Program grant (1113577 to W.S. Alexander), Fellowships (1154970 to G.K. Smyth, 1158024 to D.H.D. Gray, and 1058344 to W.S. Alexander), and the Independent Research Institute’s Infrastructure Support Scheme from the National Health and Medical Research Council of Australia, a grant-in-aid from the Cancer Council of Victoria, a Future Fellowship from the Australian Research Council (to M.P. McCormack), and a Victorian State Government Operational Infrastructure Support grant. Funding Information: Disclosures: The Walter and Eliza Hall Institute receives milestone and royalty payments related to Venetoclax, and employees may also be eligible for benefits related to these payments. W.S. Alexander and I.J. Majewski reported receiving payments from the Walter and Eliza Hall Institute related to Venetoclax. M.P. McCormack is an employee of iCamuno Bio-therapeutics and has served as a consultant for AstraZeneca. D.H.D. Gray reported “other” from Walter and Eliza Hall Institute and grants from Servier outside the submitted work. X. Liu is co-founder of iCamuno Biotherapeutics. No other disclosures were reported. Publisher Copyright: © 2023 Abdulla et al.

PY - 2023/6/5

Y1 - 2023/6/5

N2 - Cell competition has recently emerged as an important tumor suppressor mechanism in the thymus that inhibits autonomous thymic maintenance. Here, we show that the oncogenic transcription factor Lmo2 causes autonomous thymic maintenance in transgenic mice by inhibiting early T cell differentiation. This autonomous thymic maintenance results in the development of self-renewing preleukemic stem cells (pre-LSCs) and subsequent leukemogenesis, both of which are profoundly inhibited by restoration of thymic competition or expression of the antiapoptotic factor BCL2. Genomic analyses revealed the presence of Notch1 mutations in pre-LSCs before subsequent loss of tumor suppressors promotes the transition to overt leukemogenesis. These studies demonstrate a critical role for impaired cell competition in the development of pre-LSCs in a transgenic mouse model of T cell acute lymphoblastic leukemia (T-ALL), implying that this process plays a role in the ontogeny of human T-ALL.

AB - Cell competition has recently emerged as an important tumor suppressor mechanism in the thymus that inhibits autonomous thymic maintenance. Here, we show that the oncogenic transcription factor Lmo2 causes autonomous thymic maintenance in transgenic mice by inhibiting early T cell differentiation. This autonomous thymic maintenance results in the development of self-renewing preleukemic stem cells (pre-LSCs) and subsequent leukemogenesis, both of which are profoundly inhibited by restoration of thymic competition or expression of the antiapoptotic factor BCL2. Genomic analyses revealed the presence of Notch1 mutations in pre-LSCs before subsequent loss of tumor suppressors promotes the transition to overt leukemogenesis. These studies demonstrate a critical role for impaired cell competition in the development of pre-LSCs in a transgenic mouse model of T cell acute lymphoblastic leukemia (T-ALL), implying that this process plays a role in the ontogeny of human T-ALL.

KW - Hematopoiesis

KW - Leukemia & Lymphoma

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DO - 10.1084/jem.20212383

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AN - SCOPUS:85150396947

SN - 0022-1007

VL - 220

JO - Journal of Experimental Medicine

JF - Journal of Experimental Medicine

IS - 6

M1 - e20212383

ER -

Overexpression of Lmo2 initiates T-lymphoblastic leukemia via impaired thymocyte competition

Abstract

Keywords

Access to Document

Other files and links

Understanding the multistep pathogenesis of T-cell leukaemia

Therapeutic targeting of precancerous stem cells in T cell leukaemia

Cite this

Overexpression of Lmo2 initiates T-lymphoblastic leukemia via impaired thymocyte competition

Abstract

Keywords

Access to Document

Other files and links

Projects

Understanding the multistep pathogenesis of T-cell leukaemia

Therapeutic targeting of precancerous stem cells in T cell leukaemia

Cite this