TP63 fusions drive multicomplex enhancer rewiring, lymphomagenesis, and EZH2 dependence

Gongwei Wu; Noriaki Yoshida; Jihe Liu; Xiaoyang Zhang; Yuan Xiong; Tayla B. Heavican-Foral; Elisa Mandato; Huiyun Liu; Geoffrey M. Nelson; Lu Yang; Renee Chen; Katherine A. Donovan; Marcus K. Jones; Mikhail Roshal; Yanming Zhang; Ran Xu; Ajit J. Nirmal; Salvia Jain; Catharine Leahy; Kristen L. Jones; Kristen E. Stevenson; Natasha Galasso; Nivetha Ganesan; Tiffany Chang; Wen Chao Wu; Abner Louissaint; Lydie Debaize; Hojong Yoon; Paola Dal Cin; Wing C. Chan; Shannan J. Ho Sui; Samuel Y. Ng; Andrew L. Feldman; Steven M. Horwitz; Karen Adelman; Eric S. Fischer; Chun Wei Chen; David M. Weinstock; Myles Brown

doi:10.1126/SCITRANSLMED.ADI7244

TP63 fusions drive multicomplex enhancer rewiring, lymphomagenesis, and EZH2 dependence

Gongwei Wu, Noriaki Yoshida, Jihe Liu, Xiaoyang Zhang, Yuan Xiong, Tayla B. Heavican-Foral, Elisa Mandato, Huiyun Liu, Geoffrey M. Nelson, Lu Yang, Renee Chen, Katherine A. Donovan, Marcus K. Jones, Mikhail Roshal, Yanming Zhang, Ran Xu, Ajit J. Nirmal, Salvia Jain, Catharine Leahy, Kristen L. JonesKristen E. Stevenson, Natasha Galasso, Nivetha Ganesan, Tiffany Chang, Wen Chao Wu, Abner Louissaint, Lydie Debaize, Hojong Yoon, Paola Dal Cin, Wing C. Chan, Shannan J. Ho Sui, Samuel Y. Ng, Andrew L. Feldman, Steven M. Horwitz, Karen Adelman, Eric S. Fischer, Chun Wei Chen, David M. Weinstock, Myles Brown

Laboratory Medicine and Pathology

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

Abstract

Gene fusions involving tumor protein p63 gene (TP63) occur in multiple T and B cell lymphomas and portend a dismal prognosis for patients. The function and mechanisms of TP63 fusions remain unclear, and there is no target therapy for patients with lymphoma harboring TP63 fusions. Here, we show that TP63 fusions act as bona fide oncogenes and are essential for fusion-positive lymphomas. Transgenic mice expressing TBL1XR1::TP63, the most common TP63 fusion, develop diverse lymphomas that recapitulate multiple human T and B cell lymphomas. Here, we identify that TP63 fusions coordinate the recruitment of two epigenetic modifying complexes, the nuclear receptor corepressor (NCoR)—histone deacetylase 3 (HDAC3) by the N-terminal TP63 fusion partner and the lysine methyltransferase 2D (KMT2D) by the C-terminal TP63 component, which are both required for fusion-dependent survival. TBL1XR1::TP63 localization at enhancers drives a unique cell state that involves up-regulation of MYC and the polycomb repressor complex 2 (PRC2) components EED and EZH2. Inhibiting EZH2 with the therapeutic agent valemetostat is highly effective at treating transgenic lymphoma murine models, xenografts, and patient-derived xenografts harboring TP63 fusions. One patient with TP63-rearranged lymphoma showed a rapid response to valemetostat treatment. In summary, TP63 fusions link partner components that, together, coordinate multiple epigenetic complexes, resulting in therapeutic vulnerability to EZH2 inhibition.

Original language	English (US)
Article number	eadi7244
Journal	Science translational medicine
Volume	15
Issue number	714
DOIs	https://doi.org/10.1126/SCITRANSLMED.ADI7244
State	Published - Sep 20 2023

ASJC Scopus subject areas

General Medicine

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10.1126/SCITRANSLMED.ADI7244

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Wu, G., Yoshida, N., Liu, J., Zhang, X., Xiong, Y., Heavican-Foral, T. B., Mandato, E., Liu, H., Nelson, G. M., Yang, L., Chen, R., Donovan, K. A., Jones, M. K., Roshal, M., Zhang, Y., Xu, R., Nirmal, A. J., Jain, S., Leahy, C., ... Brown, M. (2023). TP63 fusions drive multicomplex enhancer rewiring, lymphomagenesis, and EZH2 dependence. Science translational medicine, 15(714), Article eadi7244. https://doi.org/10.1126/SCITRANSLMED.ADI7244

Wu, G, Yoshida, N, Liu, J, Zhang, X, Xiong, Y, Heavican-Foral, TB, Mandato, E, Liu, H, Nelson, GM, Yang, L, Chen, R, Donovan, KA, Jones, MK, Roshal, M, Zhang, Y, Xu, R, Nirmal, AJ, Jain, S, Leahy, C, Jones, KL, Stevenson, KE, Galasso, N, Ganesan, N, Chang, T, Wu, WC, Louissaint, A, Debaize, L, Yoon, H, Cin, PD, Chan, WC, Ho Sui, SJ, Ng, SY, Feldman, AL, Horwitz, SM, Adelman, K, Fischer, ES, Chen, CW, Weinstock, DM & Brown, M 2023, 'TP63 fusions drive multicomplex enhancer rewiring, lymphomagenesis, and EZH2 dependence', Science translational medicine, vol. 15, no. 714, eadi7244. https://doi.org/10.1126/SCITRANSLMED.ADI7244

@article{0245f513f0c8495d8a0ff522aa0f9eb3,

title = "TP63 fusions drive multicomplex enhancer rewiring, lymphomagenesis, and EZH2 dependence",

abstract = "Gene fusions involving tumor protein p63 gene (TP63) occur in multiple T and B cell lymphomas and portend a dismal prognosis for patients. The function and mechanisms of TP63 fusions remain unclear, and there is no target therapy for patients with lymphoma harboring TP63 fusions. Here, we show that TP63 fusions act as bona fide oncogenes and are essential for fusion-positive lymphomas. Transgenic mice expressing TBL1XR1::TP63, the most common TP63 fusion, develop diverse lymphomas that recapitulate multiple human T and B cell lymphomas. Here, we identify that TP63 fusions coordinate the recruitment of two epigenetic modifying complexes, the nuclear receptor corepressor (NCoR)—histone deacetylase 3 (HDAC3) by the N-terminal TP63 fusion partner and the lysine methyltransferase 2D (KMT2D) by the C-terminal TP63 component, which are both required for fusion-dependent survival. TBL1XR1::TP63 localization at enhancers drives a unique cell state that involves up-regulation of MYC and the polycomb repressor complex 2 (PRC2) components EED and EZH2. Inhibiting EZH2 with the therapeutic agent valemetostat is highly effective at treating transgenic lymphoma murine models, xenografts, and patient-derived xenografts harboring TP63 fusions. One patient with TP63-rearranged lymphoma showed a rapid response to valemetostat treatment. In summary, TP63 fusions link partner components that, together, coordinate multiple epigenetic complexes, resulting in therapeutic vulnerability to EZH2 inhibition.",

author = "Gongwei Wu and Noriaki Yoshida and Jihe Liu and Xiaoyang Zhang and Yuan Xiong and Heavican-Foral, {Tayla B.} and Elisa Mandato and Huiyun Liu and Nelson, {Geoffrey M.} and Lu Yang and Renee Chen and Donovan, {Katherine A.} and Jones, {Marcus K.} and Mikhail Roshal and Yanming Zhang and Ran Xu and Nirmal, {Ajit J.} and Salvia Jain and Catharine Leahy and Jones, {Kristen L.} and Stevenson, {Kristen E.} and Natasha Galasso and Nivetha Ganesan and Tiffany Chang and Wu, {Wen Chao} and Abner Louissaint and Lydie Debaize and Hojong Yoon and Cin, {Paola Dal} and Chan, {Wing C.} and {Ho Sui}, {Shannan J.} and Ng, {Samuel Y.} and Feldman, {Andrew L.} and Horwitz, {Steven M.} and Karen Adelman and Fischer, {Eric S.} and Chen, {Chun Wei} and Weinstock, {David M.} and Myles Brown",

note = "Publisher Copyright: Copyright {\textcopyright} 2023 The Authors, some rights reserved.",

year = "2023",

month = sep,

day = "20",

doi = "10.1126/SCITRANSLMED.ADI7244",

language = "English (US)",

volume = "15",

journal = "Science translational medicine",

issn = "1946-6234",

publisher = "American Association for the Advancement of Science",

number = "714",

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TY - JOUR

T1 - TP63 fusions drive multicomplex enhancer rewiring, lymphomagenesis, and EZH2 dependence

AU - Wu, Gongwei

AU - Yoshida, Noriaki

AU - Liu, Jihe

AU - Zhang, Xiaoyang

AU - Xiong, Yuan

AU - Heavican-Foral, Tayla B.

AU - Mandato, Elisa

AU - Liu, Huiyun

AU - Nelson, Geoffrey M.

AU - Yang, Lu

AU - Chen, Renee

AU - Donovan, Katherine A.

AU - Jones, Marcus K.

AU - Roshal, Mikhail

AU - Zhang, Yanming

AU - Xu, Ran

AU - Nirmal, Ajit J.

AU - Jain, Salvia

AU - Leahy, Catharine

AU - Jones, Kristen L.

AU - Stevenson, Kristen E.

AU - Galasso, Natasha

AU - Ganesan, Nivetha

AU - Chang, Tiffany

AU - Wu, Wen Chao

AU - Louissaint, Abner

AU - Debaize, Lydie

AU - Yoon, Hojong

AU - Cin, Paola Dal

AU - Chan, Wing C.

AU - Ho Sui, Shannan J.

AU - Ng, Samuel Y.

AU - Feldman, Andrew L.

AU - Horwitz, Steven M.

AU - Adelman, Karen

AU - Fischer, Eric S.

AU - Chen, Chun Wei

AU - Weinstock, David M.

AU - Brown, Myles

PY - 2023/9/20

Y1 - 2023/9/20

N2 - Gene fusions involving tumor protein p63 gene (TP63) occur in multiple T and B cell lymphomas and portend a dismal prognosis for patients. The function and mechanisms of TP63 fusions remain unclear, and there is no target therapy for patients with lymphoma harboring TP63 fusions. Here, we show that TP63 fusions act as bona fide oncogenes and are essential for fusion-positive lymphomas. Transgenic mice expressing TBL1XR1::TP63, the most common TP63 fusion, develop diverse lymphomas that recapitulate multiple human T and B cell lymphomas. Here, we identify that TP63 fusions coordinate the recruitment of two epigenetic modifying complexes, the nuclear receptor corepressor (NCoR)—histone deacetylase 3 (HDAC3) by the N-terminal TP63 fusion partner and the lysine methyltransferase 2D (KMT2D) by the C-terminal TP63 component, which are both required for fusion-dependent survival. TBL1XR1::TP63 localization at enhancers drives a unique cell state that involves up-regulation of MYC and the polycomb repressor complex 2 (PRC2) components EED and EZH2. Inhibiting EZH2 with the therapeutic agent valemetostat is highly effective at treating transgenic lymphoma murine models, xenografts, and patient-derived xenografts harboring TP63 fusions. One patient with TP63-rearranged lymphoma showed a rapid response to valemetostat treatment. In summary, TP63 fusions link partner components that, together, coordinate multiple epigenetic complexes, resulting in therapeutic vulnerability to EZH2 inhibition.

AB - Gene fusions involving tumor protein p63 gene (TP63) occur in multiple T and B cell lymphomas and portend a dismal prognosis for patients. The function and mechanisms of TP63 fusions remain unclear, and there is no target therapy for patients with lymphoma harboring TP63 fusions. Here, we show that TP63 fusions act as bona fide oncogenes and are essential for fusion-positive lymphomas. Transgenic mice expressing TBL1XR1::TP63, the most common TP63 fusion, develop diverse lymphomas that recapitulate multiple human T and B cell lymphomas. Here, we identify that TP63 fusions coordinate the recruitment of two epigenetic modifying complexes, the nuclear receptor corepressor (NCoR)—histone deacetylase 3 (HDAC3) by the N-terminal TP63 fusion partner and the lysine methyltransferase 2D (KMT2D) by the C-terminal TP63 component, which are both required for fusion-dependent survival. TBL1XR1::TP63 localization at enhancers drives a unique cell state that involves up-regulation of MYC and the polycomb repressor complex 2 (PRC2) components EED and EZH2. Inhibiting EZH2 with the therapeutic agent valemetostat is highly effective at treating transgenic lymphoma murine models, xenografts, and patient-derived xenografts harboring TP63 fusions. One patient with TP63-rearranged lymphoma showed a rapid response to valemetostat treatment. In summary, TP63 fusions link partner components that, together, coordinate multiple epigenetic complexes, resulting in therapeutic vulnerability to EZH2 inhibition.

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UR - http://www.scopus.com/inward/citedby.url?scp=85171810972&partnerID=8YFLogxK

U2 - 10.1126/SCITRANSLMED.ADI7244

DO - 10.1126/SCITRANSLMED.ADI7244

M3 - Article

C2 - 37729434

AN - SCOPUS:85171810972

SN - 1946-6234

VL - 15

JO - Science translational medicine

JF - Science translational medicine

IS - 714

M1 - eadi7244

ER -

TP63 fusions drive multicomplex enhancer rewiring, lymphomagenesis, and EZH2 dependence

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