XThe ubiquitin ligase FBXW7 modulates leukemia-initiating cell activity by regulating MYC stability

Bryan King; Thomas Trimarchi; Linsey Reavie; Luyao Xu; Jasper Mullenders; Panagiotis Ntziachristos; Beatriz Aranda-Orgilles; Arianne Perez-Garcia; Junwei Shi; Christopher Vakoc; Peter Sandy; Steven S. Shen; Adolfo Ferrando; Iannis Aifantis

doi:10.1016/j.cell.2013.05.041

XThe ubiquitin ligase FBXW7 modulates leukemia-initiating cell activity by regulating MYC stability

Bryan King, Thomas Trimarchi, Linsey Reavie, Luyao Xu, Jasper Mullenders, Panagiotis Ntziachristos, Beatriz Aranda-Orgilles, Arianne Perez-Garcia, Junwei Shi, Christopher Vakoc, Peter Sandy, Steven S. Shen, Adolfo Ferrando, Iannis Aifantis

Institute for Health Informatics

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256 Scopus citations

Abstract

Summary Sequencing efforts led to the identification of somatic mutations that could affect the self-renewal and differentiation of cancer-initiating cells. One such recurrent mutation targets the binding pocket of the ubiquitin ligase Fbxw7. Missense FBXW7 mutations are prevalent in various tumors, including T cell acute lymphoblastic leukemia (T-ALL). To study the effects of such lesions, we generated animals carrying regulatable Fbxw7 mutant alleles. Here, we show that these mutations specifically bolster cancer-initiating cell activity in collaboration with Notch1 oncogenes but spare normal hematopoietic stem cell function. We were also able to show that FBXW7 mutations specifically affect the ubiquitylation and half-life of c-Myc protein, a key T-ALL oncogene. Using animals carrying c-Myc fusion alleles, we connected Fbxw7 function to c-Myc abundance and correlated c-Myc expression to leukemia-initiating activity. Finally, we demonstrated that small-molecule-mediated suppression of MYC activity leads to T-ALL remission, suggesting an effective therapeutic strategy.

Original language	English (US)
Pages (from-to)	1552
Number of pages	1
Journal	Cell
Volume	153
Issue number	7
DOIs	https://doi.org/10.1016/j.cell.2013.05.041
State	Published - Jun 20 2013

Bibliographical note

Funding Information:
We thank Constellation Pharmaceuticals for providing CPI203; W. Pear, P. Premsrirut, J. Aster, J. Silva, M. Kelliher, and A. Klinakis for sharing materials; the NYU Genome Technology Center (supported in part by an NIH/NCI P30 CA016087-30 grant); L. Deriano and J. Chaumeil for mFISH analysis; the NYU Flow Cytometry facility for cell sorting; and the NYU Histology Core and Transgenic Mouse Core (NYU Cancer Institute Center grant 5P30CA16087-31). I.A. was supported by the NIH (1RO1CA133379, 1RO1CA105129, 1RO1CA149655, 5RO1CA173636, and 1RO1GM088847). I.A. was also supported by the William Lawrence and Blanche Hughes Foundation, the Leukemia & Lymphoma Society (TRP#6340-11 and LLS#6373-13), the Chemotherapy Foundation, the V Foundation for Cancer Research, and the St. Baldrick’s Foundation. B.K. was supported by the NYU CMB Training Program. L.R. is supported by a Ruth L. Kirschstein F31 Award and a Marie Curie Actions Fellowship. J.M. is supported by NWO Rubicon and the Dutch Cancer Society. B.A.-O. is supported by the José Carreras Leukemia Foundation (FIJC-12/EDTHOMAS). I.A. is a Howard Hughes Medical Institute Early Career Scientist. I.A. and B.K. designed experiments and wrote the manuscript. B.K. performed most of the experiments. L.R. generated Eef1a1-targeted ESCs. L.X., A.P.-G., and A.F. assisted with in vivo and primary human T-ALL drug studies. P.S. assisted with inhibitor production and provided advice for use. C.V., J.S., and J.M. performed BRD4 knockdown experiments. B.A.-O. performed ubiquitylation assays. P.N., T.T., and S.S.S. performed and analyzed RNA-seq and ChIP-seq experiments. P.S. is an employee of Constellation Pharmaceuticals.

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@article{694ce238515f411d96908f7e8e690bcc,

title = "XThe ubiquitin ligase FBXW7 modulates leukemia-initiating cell activity by regulating MYC stability",

abstract = "Summary Sequencing efforts led to the identification of somatic mutations that could affect the self-renewal and differentiation of cancer-initiating cells. One such recurrent mutation targets the binding pocket of the ubiquitin ligase Fbxw7. Missense FBXW7 mutations are prevalent in various tumors, including T cell acute lymphoblastic leukemia (T-ALL). To study the effects of such lesions, we generated animals carrying regulatable Fbxw7 mutant alleles. Here, we show that these mutations specifically bolster cancer-initiating cell activity in collaboration with Notch1 oncogenes but spare normal hematopoietic stem cell function. We were also able to show that FBXW7 mutations specifically affect the ubiquitylation and half-life of c-Myc protein, a key T-ALL oncogene. Using animals carrying c-Myc fusion alleles, we connected Fbxw7 function to c-Myc abundance and correlated c-Myc expression to leukemia-initiating activity. Finally, we demonstrated that small-molecule-mediated suppression of MYC activity leads to T-ALL remission, suggesting an effective therapeutic strategy.",

author = "Bryan King and Thomas Trimarchi and Linsey Reavie and Luyao Xu and Jasper Mullenders and Panagiotis Ntziachristos and Beatriz Aranda-Orgilles and Arianne Perez-Garcia and Junwei Shi and Christopher Vakoc and Peter Sandy and Shen, {Steven S.} and Adolfo Ferrando and Iannis Aifantis",

note = "Funding Information: We thank Constellation Pharmaceuticals for providing CPI203; W. Pear, P. Premsrirut, J. Aster, J. Silva, M. Kelliher, and A. Klinakis for sharing materials; the NYU Genome Technology Center (supported in part by an NIH/NCI P30 CA016087-30 grant); L. Deriano and J. Chaumeil for mFISH analysis; the NYU Flow Cytometry facility for cell sorting; and the NYU Histology Core and Transgenic Mouse Core (NYU Cancer Institute Center grant 5P30CA16087-31). I.A. was supported by the NIH (1RO1CA133379, 1RO1CA105129, 1RO1CA149655, 5RO1CA173636, and 1RO1GM088847). I.A. was also supported by the William Lawrence and Blanche Hughes Foundation, the Leukemia & Lymphoma Society (TRP#6340-11 and LLS#6373-13), the Chemotherapy Foundation, the V Foundation for Cancer Research, and the St. Baldrick{\textquoteright}s Foundation. B.K. was supported by the NYU CMB Training Program. L.R. is supported by a Ruth L. Kirschstein F31 Award and a Marie Curie Actions Fellowship. J.M. is supported by NWO Rubicon and the Dutch Cancer Society. B.A.-O. is supported by the Jos{\'e} Carreras Leukemia Foundation (FIJC-12/EDTHOMAS). I.A. is a Howard Hughes Medical Institute Early Career Scientist. I.A. and B.K. designed experiments and wrote the manuscript. B.K. performed most of the experiments. L.R. generated Eef1a1-targeted ESCs. L.X., A.P.-G., and A.F. assisted with in vivo and primary human T-ALL drug studies. P.S. assisted with inhibitor production and provided advice for use. C.V., J.S., and J.M. performed BRD4 knockdown experiments. B.A.-O. performed ubiquitylation assays. P.N., T.T., and S.S.S. performed and analyzed RNA-seq and ChIP-seq experiments. P.S. is an employee of Constellation Pharmaceuticals. ",

year = "2013",

month = jun,

day = "20",

doi = "10.1016/j.cell.2013.05.041",

language = "English (US)",

volume = "153",

pages = "1552",

journal = "Cell",

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TY - JOUR

T1 - XThe ubiquitin ligase FBXW7 modulates leukemia-initiating cell activity by regulating MYC stability

AU - King, Bryan

AU - Trimarchi, Thomas

AU - Reavie, Linsey

AU - Xu, Luyao

AU - Mullenders, Jasper

AU - Ntziachristos, Panagiotis

AU - Aranda-Orgilles, Beatriz

AU - Perez-Garcia, Arianne

AU - Shi, Junwei

AU - Vakoc, Christopher

AU - Sandy, Peter

AU - Shen, Steven S.

AU - Ferrando, Adolfo

AU - Aifantis, Iannis

N1 - Funding Information: We thank Constellation Pharmaceuticals for providing CPI203; W. Pear, P. Premsrirut, J. Aster, J. Silva, M. Kelliher, and A. Klinakis for sharing materials; the NYU Genome Technology Center (supported in part by an NIH/NCI P30 CA016087-30 grant); L. Deriano and J. Chaumeil for mFISH analysis; the NYU Flow Cytometry facility for cell sorting; and the NYU Histology Core and Transgenic Mouse Core (NYU Cancer Institute Center grant 5P30CA16087-31). I.A. was supported by the NIH (1RO1CA133379, 1RO1CA105129, 1RO1CA149655, 5RO1CA173636, and 1RO1GM088847). I.A. was also supported by the William Lawrence and Blanche Hughes Foundation, the Leukemia & Lymphoma Society (TRP#6340-11 and LLS#6373-13), the Chemotherapy Foundation, the V Foundation for Cancer Research, and the St. Baldrick’s Foundation. B.K. was supported by the NYU CMB Training Program. L.R. is supported by a Ruth L. Kirschstein F31 Award and a Marie Curie Actions Fellowship. J.M. is supported by NWO Rubicon and the Dutch Cancer Society. B.A.-O. is supported by the José Carreras Leukemia Foundation (FIJC-12/EDTHOMAS). I.A. is a Howard Hughes Medical Institute Early Career Scientist. I.A. and B.K. designed experiments and wrote the manuscript. B.K. performed most of the experiments. L.R. generated Eef1a1-targeted ESCs. L.X., A.P.-G., and A.F. assisted with in vivo and primary human T-ALL drug studies. P.S. assisted with inhibitor production and provided advice for use. C.V., J.S., and J.M. performed BRD4 knockdown experiments. B.A.-O. performed ubiquitylation assays. P.N., T.T., and S.S.S. performed and analyzed RNA-seq and ChIP-seq experiments. P.S. is an employee of Constellation Pharmaceuticals.

PY - 2013/6/20

Y1 - 2013/6/20

N2 - Summary Sequencing efforts led to the identification of somatic mutations that could affect the self-renewal and differentiation of cancer-initiating cells. One such recurrent mutation targets the binding pocket of the ubiquitin ligase Fbxw7. Missense FBXW7 mutations are prevalent in various tumors, including T cell acute lymphoblastic leukemia (T-ALL). To study the effects of such lesions, we generated animals carrying regulatable Fbxw7 mutant alleles. Here, we show that these mutations specifically bolster cancer-initiating cell activity in collaboration with Notch1 oncogenes but spare normal hematopoietic stem cell function. We were also able to show that FBXW7 mutations specifically affect the ubiquitylation and half-life of c-Myc protein, a key T-ALL oncogene. Using animals carrying c-Myc fusion alleles, we connected Fbxw7 function to c-Myc abundance and correlated c-Myc expression to leukemia-initiating activity. Finally, we demonstrated that small-molecule-mediated suppression of MYC activity leads to T-ALL remission, suggesting an effective therapeutic strategy.

AB - Summary Sequencing efforts led to the identification of somatic mutations that could affect the self-renewal and differentiation of cancer-initiating cells. One such recurrent mutation targets the binding pocket of the ubiquitin ligase Fbxw7. Missense FBXW7 mutations are prevalent in various tumors, including T cell acute lymphoblastic leukemia (T-ALL). To study the effects of such lesions, we generated animals carrying regulatable Fbxw7 mutant alleles. Here, we show that these mutations specifically bolster cancer-initiating cell activity in collaboration with Notch1 oncogenes but spare normal hematopoietic stem cell function. We were also able to show that FBXW7 mutations specifically affect the ubiquitylation and half-life of c-Myc protein, a key T-ALL oncogene. Using animals carrying c-Myc fusion alleles, we connected Fbxw7 function to c-Myc abundance and correlated c-Myc expression to leukemia-initiating activity. Finally, we demonstrated that small-molecule-mediated suppression of MYC activity leads to T-ALL remission, suggesting an effective therapeutic strategy.

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U2 - 10.1016/j.cell.2013.05.041

DO - 10.1016/j.cell.2013.05.041

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SN - 0092-8674

VL - 153

SP - 1552

JO - Cell

JF - Cell

IS - 7

ER -

XThe ubiquitin ligase FBXW7 modulates leukemia-initiating cell activity by regulating MYC stability

Abstract

Bibliographical note

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