Contrasting roles of histone 3 lysine 27 demethylases in acute lymphoblastic leukaemia

Panagiotis Ntziachristos; Aristotelis Tsirigos; G. Grant Welstead; Thomas Trimarchi; Sofia Bakogianni; Luyao Xu; Evangelia Loizou; Linda Holmfeldt; Alexandros Strikoudis; Bryan King; Jasper Mullenders; Jared Becksfort; Jelena Nedjic; Elisabeth Paietta; Martin S. Tallman; Jacob M. Rowe; Giovanni Tonon; Takashi Satoh; Laurens Kruidenier; Rab Prinjha; Shizuo Akira; Pieter Van Vlierberghe; Adolfo A. Ferrando; Rudolf Jaenisch; Charles G. Mullighan; Iannis Aifantis

doi:10.1038/nature13605

Contrasting roles of histone 3 lysine 27 demethylases in acute lymphoblastic leukaemia

Panagiotis Ntziachristos, Aristotelis Tsirigos, G. Grant Welstead, Thomas Trimarchi, Sofia Bakogianni, Luyao Xu, Evangelia Loizou, Linda Holmfeldt, Alexandros Strikoudis, Bryan King, Jasper Mullenders, Jared Becksfort, Jelena Nedjic, Elisabeth Paietta, Martin S. Tallman, Jacob M. Rowe, Giovanni Tonon, Takashi Satoh, Laurens Kruidenier, Rab PrinjhaShizuo Akira, Pieter Van Vlierberghe, Adolfo A. Ferrando, Rudolf Jaenisch, Charles G. Mullighan, Iannis Aifantis

Biochemistry and Molecular Genetics

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Abstract

T-cell acute lymphoblastic leukaemia (T-ALL) is a haematological malignancy with a dismal overall prognosis, including a relapse rate of up to 25%, mainly because of the lack of non-cytotoxic targeted therapy options.Drugs that target the function of key epigenetic factors have been approved in the context of haematopoietic disorders1, and mutations that affect chromatin modulators in a variety of leukaemias have recently been identified_2,3; however, 'epigenetic' drugs arenot currently used forT-ALLtreatment.Recently,wedescribedthat the polycomb repressive complex 2 (PRC2) has a tumour-suppressor role in T-ALL₄. Here we delineated the role of the histone 3 lysine 27 (H3K27) demethylases JMJD3 and UTX in T-ALL. We show that JMJD3 is essential for the initiation and maintenance of T-ALL, as it controls important oncogenic gene targets by modulating H3K27 methylation. By contrast, we found thatUTXfunctions as a tumour suppressor and is frequently genetically inactivated in T-ALL.Moreover, wedemonstrated that the smallmolecule inhibitor GSKJ4(ref. 5) affects T-ALL growth, by targeting JMJD3 activity. These findings show that two proteins with a similar enzymatic function can have opposing roles in the context of the same disease, paving the way for treating haematopoietic malignancies with a new category of epigenetic inhibitors.

Original language	English (US)
Pages (from-to)	513-517
Number of pages	5
Journal	Nature
Volume	514
Issue number	7523
DOIs	https://doi.org/10.1038/nature13605
State	Published - Oct 23 2014

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Ntziachristos, P., Tsirigos, A., Welstead, G. G., Trimarchi, T., Bakogianni, S., Xu, L., Loizou, E., Holmfeldt, L., Strikoudis, A., King, B., Mullenders, J., Becksfort, J., Nedjic, J., Paietta, E., Tallman, M. S., Rowe, J. M., Tonon, G., Satoh, T., Kruidenier, L., ... Aifantis, I. (2014). Contrasting roles of histone 3 lysine 27 demethylases in acute lymphoblastic leukaemia. Nature, 514(7523), 513-517. https://doi.org/10.1038/nature13605

@article{9cac954138e243b8a0f70f5a6441aa98,

title = "Contrasting roles of histone 3 lysine 27 demethylases in acute lymphoblastic leukaemia",

abstract = "T-cell acute lymphoblastic leukaemia (T-ALL) is a haematological malignancy with a dismal overall prognosis, including a relapse rate of up to 25%, mainly because of the lack of non-cytotoxic targeted therapy options.Drugs that target the function of key epigenetic factors have been approved in the context of haematopoietic disorders1, and mutations that affect chromatin modulators in a variety of leukaemias have recently been identified2,3; however, 'epigenetic' drugs arenot currently used forT-ALLtreatment.Recently,wedescribedthat the polycomb repressive complex 2 (PRC2) has a tumour-suppressor role in T-ALL4. Here we delineated the role of the histone 3 lysine 27 (H3K27) demethylases JMJD3 and UTX in T-ALL. We show that JMJD3 is essential for the initiation and maintenance of T-ALL, as it controls important oncogenic gene targets by modulating H3K27 methylation. By contrast, we found thatUTXfunctions as a tumour suppressor and is frequently genetically inactivated in T-ALL.Moreover, wedemonstrated that the smallmolecule inhibitor GSKJ4(ref. 5) affects T-ALL growth, by targeting JMJD3 activity. These findings show that two proteins with a similar enzymatic function can have opposing roles in the context of the same disease, paving the way for treating haematopoietic malignancies with a new category of epigenetic inhibitors.",

author = "Panagiotis Ntziachristos and Aristotelis Tsirigos and Welstead, {G. Grant} and Thomas Trimarchi and Sofia Bakogianni and Luyao Xu and Evangelia Loizou and Linda Holmfeldt and Alexandros Strikoudis and Bryan King and Jasper Mullenders and Jared Becksfort and Jelena Nedjic and Elisabeth Paietta and Tallman, {Martin S.} and Rowe, {Jacob M.} and Giovanni Tonon and Takashi Satoh and Laurens Kruidenier and Rab Prinjha and Shizuo Akira and {Van Vlierberghe}, Pieter and Ferrando, {Adolfo A.} and Rudolf Jaenisch and Mullighan, {Charles G.} and Iannis Aifantis",

note = "Funding Information: Acknowledgements We thank the members of the Aifantis laboratory and J. Siegle for discussions throughout the duration of the project; S. Shen for discussions on the analysis of sequencing data; GlaxoSmithKline for the GSKJ4 and GSKJ5 inhibitory compounds; A. Heguy and the NYU Genome Technology Center (supported in part by National Institutes of Health (NIH)/National Cancer Institute (NCI) grant P30 CA016087-30) for assistance with sequencing experiments; the NYU Flow Cytometry facility (supported in part by NIH/NCI grant 5P30CA16087-31) for cell sorting; the NYU Histology Core (5P30CA16087-31) and the NYU mouse facility (NYU Cancer Institute Center Grant 5P30CA16087-31); G. Natoli for providing the anti-JMJD3 antibody; J. Zhang for help with the analysis of the mutation data; and I. Rigo for technical support. I.A. was supported by the NIH (grants 1RO1CA133379, 1RO1CA105129, 1RO1CA149655, 5RO1CA173636 and 5RO1CA169784). J.N. was supported by the Damon Runyon Cancer Research Foundation. B.K. was supported by the NYU Cell and Molecular Biology Training Program. P.N. was supported by fellowships from Lady Tata Memorial Trust for leukaemia and the American Society of Hematology and NIH/NCI (K99CA188293). T.T. is supported by the NIH training grant 5 T32 CA009161-37. P.V.V. was supported by the Research Foundation Flanders and an Odysseus type II grant. Moreover, this study was supported by an NIH grant (R37-HD04502) to R.J., the ECOG tumour bank, an NIH grant (R01CA120196) to A.A.F.; NCI grants (U24 CA114737 and U10 CA21115) to E.P. and the Stand Up To Cancer Innovative Research Award (A.A.F.). I.A. was also supported by the William Lawrence and Blanche Hughes Foundation, The Leukemia & Lymphoma Society, the Ralph S. French Charitable Foundation Trust, The Chemotherapy Foundation, The V Foundation for Cancer Research and the St. Baldrick{\textquoteright}s Foundation. I.A. is a Howard Hughes Medical InstituteEarlyCareerScientist.A.T.carriedout partofthisworkwhileat the Computational Biology Center, IBM Research, Yorktown Heights, New York. Publisher Copyright: {\textcopyright} 2014 Macmillan Publishers Limited. All rights reserved.",

year = "2014",

month = oct,

day = "23",

doi = "10.1038/nature13605",

language = "English (US)",

volume = "514",

pages = "513--517",

journal = "Nature",

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Ntziachristos, P, Tsirigos, A, Welstead, GG, Trimarchi, T, Bakogianni, S, Xu, L, Loizou, E, Holmfeldt, L, Strikoudis, A, King, B, Mullenders, J, Becksfort, J, Nedjic, J, Paietta, E, Tallman, MS, Rowe, JM, Tonon, G, Satoh, T, Kruidenier, L, Prinjha, R, Akira, S, Van Vlierberghe, P, Ferrando, AA, Jaenisch, R, Mullighan, CG & Aifantis, I 2014, 'Contrasting roles of histone 3 lysine 27 demethylases in acute lymphoblastic leukaemia', Nature, vol. 514, no. 7523, pp. 513-517. https://doi.org/10.1038/nature13605

TY - JOUR

T1 - Contrasting roles of histone 3 lysine 27 demethylases in acute lymphoblastic leukaemia

AU - Ntziachristos, Panagiotis

AU - Tsirigos, Aristotelis

AU - Welstead, G. Grant

AU - Trimarchi, Thomas

AU - Bakogianni, Sofia

AU - Xu, Luyao

AU - Loizou, Evangelia

AU - Holmfeldt, Linda

AU - Strikoudis, Alexandros

AU - King, Bryan

AU - Mullenders, Jasper

AU - Becksfort, Jared

AU - Nedjic, Jelena

AU - Paietta, Elisabeth

AU - Tallman, Martin S.

AU - Rowe, Jacob M.

AU - Tonon, Giovanni

AU - Satoh, Takashi

AU - Kruidenier, Laurens

AU - Prinjha, Rab

AU - Akira, Shizuo

AU - Van Vlierberghe, Pieter

AU - Ferrando, Adolfo A.

AU - Jaenisch, Rudolf

AU - Mullighan, Charles G.

AU - Aifantis, Iannis

N1 - Funding Information: Acknowledgements We thank the members of the Aifantis laboratory and J. Siegle for discussions throughout the duration of the project; S. Shen for discussions on the analysis of sequencing data; GlaxoSmithKline for the GSKJ4 and GSKJ5 inhibitory compounds; A. Heguy and the NYU Genome Technology Center (supported in part by National Institutes of Health (NIH)/National Cancer Institute (NCI) grant P30 CA016087-30) for assistance with sequencing experiments; the NYU Flow Cytometry facility (supported in part by NIH/NCI grant 5P30CA16087-31) for cell sorting; the NYU Histology Core (5P30CA16087-31) and the NYU mouse facility (NYU Cancer Institute Center Grant 5P30CA16087-31); G. Natoli for providing the anti-JMJD3 antibody; J. Zhang for help with the analysis of the mutation data; and I. Rigo for technical support. I.A. was supported by the NIH (grants 1RO1CA133379, 1RO1CA105129, 1RO1CA149655, 5RO1CA173636 and 5RO1CA169784). J.N. was supported by the Damon Runyon Cancer Research Foundation. B.K. was supported by the NYU Cell and Molecular Biology Training Program. P.N. was supported by fellowships from Lady Tata Memorial Trust for leukaemia and the American Society of Hematology and NIH/NCI (K99CA188293). T.T. is supported by the NIH training grant 5 T32 CA009161-37. P.V.V. was supported by the Research Foundation Flanders and an Odysseus type II grant. Moreover, this study was supported by an NIH grant (R37-HD04502) to R.J., the ECOG tumour bank, an NIH grant (R01CA120196) to A.A.F.; NCI grants (U24 CA114737 and U10 CA21115) to E.P. and the Stand Up To Cancer Innovative Research Award (A.A.F.). I.A. was also supported by the William Lawrence and Blanche Hughes Foundation, The Leukemia & Lymphoma Society, the Ralph S. French Charitable Foundation Trust, The Chemotherapy Foundation, The V Foundation for Cancer Research and the St. Baldrick’s Foundation. I.A. is a Howard Hughes Medical InstituteEarlyCareerScientist.A.T.carriedout partofthisworkwhileat the Computational Biology Center, IBM Research, Yorktown Heights, New York. Publisher Copyright: © 2014 Macmillan Publishers Limited. All rights reserved.

PY - 2014/10/23

Y1 - 2014/10/23

N2 - T-cell acute lymphoblastic leukaemia (T-ALL) is a haematological malignancy with a dismal overall prognosis, including a relapse rate of up to 25%, mainly because of the lack of non-cytotoxic targeted therapy options.Drugs that target the function of key epigenetic factors have been approved in the context of haematopoietic disorders1, and mutations that affect chromatin modulators in a variety of leukaemias have recently been identified2,3; however, 'epigenetic' drugs arenot currently used forT-ALLtreatment.Recently,wedescribedthat the polycomb repressive complex 2 (PRC2) has a tumour-suppressor role in T-ALL4. Here we delineated the role of the histone 3 lysine 27 (H3K27) demethylases JMJD3 and UTX in T-ALL. We show that JMJD3 is essential for the initiation and maintenance of T-ALL, as it controls important oncogenic gene targets by modulating H3K27 methylation. By contrast, we found thatUTXfunctions as a tumour suppressor and is frequently genetically inactivated in T-ALL.Moreover, wedemonstrated that the smallmolecule inhibitor GSKJ4(ref. 5) affects T-ALL growth, by targeting JMJD3 activity. These findings show that two proteins with a similar enzymatic function can have opposing roles in the context of the same disease, paving the way for treating haematopoietic malignancies with a new category of epigenetic inhibitors.

AB - T-cell acute lymphoblastic leukaemia (T-ALL) is a haematological malignancy with a dismal overall prognosis, including a relapse rate of up to 25%, mainly because of the lack of non-cytotoxic targeted therapy options.Drugs that target the function of key epigenetic factors have been approved in the context of haematopoietic disorders1, and mutations that affect chromatin modulators in a variety of leukaemias have recently been identified2,3; however, 'epigenetic' drugs arenot currently used forT-ALLtreatment.Recently,wedescribedthat the polycomb repressive complex 2 (PRC2) has a tumour-suppressor role in T-ALL4. Here we delineated the role of the histone 3 lysine 27 (H3K27) demethylases JMJD3 and UTX in T-ALL. We show that JMJD3 is essential for the initiation and maintenance of T-ALL, as it controls important oncogenic gene targets by modulating H3K27 methylation. By contrast, we found thatUTXfunctions as a tumour suppressor and is frequently genetically inactivated in T-ALL.Moreover, wedemonstrated that the smallmolecule inhibitor GSKJ4(ref. 5) affects T-ALL growth, by targeting JMJD3 activity. These findings show that two proteins with a similar enzymatic function can have opposing roles in the context of the same disease, paving the way for treating haematopoietic malignancies with a new category of epigenetic inhibitors.

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Contrasting roles of histone 3 lysine 27 demethylases in acute lymphoblastic leukaemia

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