Regulome analysis in B-acute lymphoblastic leukemia exposes Core Binding Factor addiction as a therapeutic vulnerability

Jason P. Wray; Elitza M. Deltcheva; Charlotta Boiers; Simon Richardson; Jyoti Bikram Chhetri; John Brown; Sladjana Gagrica; Yanping Guo; Anuradha Illendula; Joost H.A. Martens; Hendrik G. Stunnenberg; John H. Bushweller; Rachael Nimmo; Tariq Enver

doi:10.1038/s41467-022-34653-3

Regulome analysis in B-acute lymphoblastic leukemia exposes Core Binding Factor addiction as a therapeutic vulnerability

Jason P. Wray, Elitza M. Deltcheva, Charlotta Boiers, Simon Richardson, Jyoti Bikram Chhetri, John Brown, Sladjana Gagrica, Yanping Guo, Anuradha Illendula, Joost H.A. Martens, Hendrik G. Stunnenberg, John H. Bushweller, Rachael Nimmo, Tariq Enver

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

Abstract

The ETV6-RUNX1 onco-fusion arises in utero, initiating a clinically silent pre-leukemic state associated with the development of pediatric B-acute lymphoblastic leukemia (B-ALL). We characterize the ETV6-RUNX1 regulome by integrating chromatin immunoprecipitation- and RNA-sequencing and show that ETV6-RUNX1 functions primarily through competition for RUNX1 binding sites and transcriptional repression. In pre-leukemia, this results in ETV6-RUNX1 antagonization of cell cycle regulation by RUNX1 as evidenced by mass cytometry analysis of B-lineage cells derived from ETV6-RUNX1 knock-in human pluripotent stem cells. In frank leukemia, knockdown of RUNX1 or its co-factor CBFβ results in cell death suggesting sustained requirement for RUNX1 activity which is recapitulated by chemical perturbation using an allosteric CBFβ-inhibitor. Strikingly, we show that RUNX1 addiction extends to other genetic subtypes of pediatric B-ALL and also adult disease. Importantly, inhibition of RUNX1 activity spares normal hematopoiesis. Our results suggest that chemical intervention in the RUNX1 program may provide a therapeutic opportunity in ALL.

Original language	English
Article number	7124
Journal	Nature Communications
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41467-022-34653-3
Publication status	Published - 2022 Dec

Subject classification (UKÄ)

Cell and Molecular Biology

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10.1038/s41467-022-34653-3

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Wray, J. P., Deltcheva, E. M., Boiers, C., Richardson, S., Chhetri, J. B., Brown, J., Gagrica, S., Guo, Y., Illendula, A., Martens, J. H. A., Stunnenberg, H. G., Bushweller, J. H., Nimmo, R., & Enver, T. (2022). Regulome analysis in B-acute lymphoblastic leukemia exposes Core Binding Factor addiction as a therapeutic vulnerability. Nature Communications, 13(1), Article 7124. https://doi.org/10.1038/s41467-022-34653-3

@article{cddcb82aa77647b79d15206e890c01da,

title = "Regulome analysis in B-acute lymphoblastic leukemia exposes Core Binding Factor addiction as a therapeutic vulnerability",

abstract = "The ETV6-RUNX1 onco-fusion arises in utero, initiating a clinically silent pre-leukemic state associated with the development of pediatric B-acute lymphoblastic leukemia (B-ALL). We characterize the ETV6-RUNX1 regulome by integrating chromatin immunoprecipitation- and RNA-sequencing and show that ETV6-RUNX1 functions primarily through competition for RUNX1 binding sites and transcriptional repression. In pre-leukemia, this results in ETV6-RUNX1 antagonization of cell cycle regulation by RUNX1 as evidenced by mass cytometry analysis of B-lineage cells derived from ETV6-RUNX1 knock-in human pluripotent stem cells. In frank leukemia, knockdown of RUNX1 or its co-factor CBFβ results in cell death suggesting sustained requirement for RUNX1 activity which is recapitulated by chemical perturbation using an allosteric CBFβ-inhibitor. Strikingly, we show that RUNX1 addiction extends to other genetic subtypes of pediatric B-ALL and also adult disease. Importantly, inhibition of RUNX1 activity spares normal hematopoiesis. Our results suggest that chemical intervention in the RUNX1 program may provide a therapeutic opportunity in ALL.",

author = "Wray, {Jason P.} and Deltcheva, {Elitza M.} and Charlotta Boiers and Simon Richardson and Chhetri, {Jyoti Bikram} and John Brown and Sladjana Gagrica and Yanping Guo and Anuradha Illendula and Martens, {Joost H.A.} and Stunnenberg, {Hendrik G.} and Bushweller, {John H.} and Rachael Nimmo and Tariq Enver",

year = "2022",

month = dec,

doi = "10.1038/s41467-022-34653-3",

language = "English",

volume = "13",

journal = "Nature Communications",

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Wray, JP, Deltcheva, EM, Boiers, C, Richardson, S, Chhetri, JB, Brown, J, Gagrica, S, Guo, Y, Illendula, A, Martens, JHA, Stunnenberg, HG, Bushweller, JH, Nimmo, R & Enver, T 2022, 'Regulome analysis in B-acute lymphoblastic leukemia exposes Core Binding Factor addiction as a therapeutic vulnerability', Nature Communications, vol. 13, no. 1, 7124. https://doi.org/10.1038/s41467-022-34653-3

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T1 - Regulome analysis in B-acute lymphoblastic leukemia exposes Core Binding Factor addiction as a therapeutic vulnerability

AU - Wray, Jason P.

AU - Deltcheva, Elitza M.

AU - Boiers, Charlotta

AU - Richardson, Simon

AU - Chhetri, Jyoti Bikram

AU - Brown, John

AU - Gagrica, Sladjana

AU - Guo, Yanping

AU - Illendula, Anuradha

AU - Martens, Joost H.A.

AU - Stunnenberg, Hendrik G.

AU - Bushweller, John H.

AU - Nimmo, Rachael

AU - Enver, Tariq

PY - 2022/12

Y1 - 2022/12

N2 - The ETV6-RUNX1 onco-fusion arises in utero, initiating a clinically silent pre-leukemic state associated with the development of pediatric B-acute lymphoblastic leukemia (B-ALL). We characterize the ETV6-RUNX1 regulome by integrating chromatin immunoprecipitation- and RNA-sequencing and show that ETV6-RUNX1 functions primarily through competition for RUNX1 binding sites and transcriptional repression. In pre-leukemia, this results in ETV6-RUNX1 antagonization of cell cycle regulation by RUNX1 as evidenced by mass cytometry analysis of B-lineage cells derived from ETV6-RUNX1 knock-in human pluripotent stem cells. In frank leukemia, knockdown of RUNX1 or its co-factor CBFβ results in cell death suggesting sustained requirement for RUNX1 activity which is recapitulated by chemical perturbation using an allosteric CBFβ-inhibitor. Strikingly, we show that RUNX1 addiction extends to other genetic subtypes of pediatric B-ALL and also adult disease. Importantly, inhibition of RUNX1 activity spares normal hematopoiesis. Our results suggest that chemical intervention in the RUNX1 program may provide a therapeutic opportunity in ALL.

AB - The ETV6-RUNX1 onco-fusion arises in utero, initiating a clinically silent pre-leukemic state associated with the development of pediatric B-acute lymphoblastic leukemia (B-ALL). We characterize the ETV6-RUNX1 regulome by integrating chromatin immunoprecipitation- and RNA-sequencing and show that ETV6-RUNX1 functions primarily through competition for RUNX1 binding sites and transcriptional repression. In pre-leukemia, this results in ETV6-RUNX1 antagonization of cell cycle regulation by RUNX1 as evidenced by mass cytometry analysis of B-lineage cells derived from ETV6-RUNX1 knock-in human pluripotent stem cells. In frank leukemia, knockdown of RUNX1 or its co-factor CBFβ results in cell death suggesting sustained requirement for RUNX1 activity which is recapitulated by chemical perturbation using an allosteric CBFβ-inhibitor. Strikingly, we show that RUNX1 addiction extends to other genetic subtypes of pediatric B-ALL and also adult disease. Importantly, inhibition of RUNX1 activity spares normal hematopoiesis. Our results suggest that chemical intervention in the RUNX1 program may provide a therapeutic opportunity in ALL.

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DO - 10.1038/s41467-022-34653-3

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JO - Nature Communications

JF - Nature Communications

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M1 - 7124

ER -

Regulome analysis in B-acute lymphoblastic leukemia exposes Core Binding Factor addiction as a therapeutic vulnerability

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