Literature DB >> 31492675

Suz12 inactivation cooperates with JAK3 mutant signaling in the development of T-cell acute lymphoblastic leukemia.

Michael Broux1,2, Cristina Prieto1,2, Sofie Demeyer1,2, Marlies Vanden Bempt1,2, Llucia Alberti-Servera1,2, Inge Lodewijckx1,2, Roel Vandepoel1,2, Nicole Mentens1,2, Olga Gielen1,2, Kris Jacobs1,2, Ellen Geerdens1,2, Carmen Vicente3,4, Charles E de Bock1,2,5, Jan Cools1,2.   

Abstract

The polycomb repressive complex 2, with core components EZH2, SUZ12, and EED, is responsible for writing histone 3 lysine 27 trimethylation histone marks associated with gene repression. Analysis of sequence data from 419 T-cell acute lymphoblastic leukemia (T-ALL) cases demonstrated a significant association between SUZ12 and JAK3 mutations. Here we show that CRISPR/Cas9-mediated inactivation of Suz12 cooperates with mutant JAK3 to drive T-cell transformation and T-ALL development. Gene expression profiling integrated with ChIP-seq and ATAC-seq data established that inactivation of Suz12 led to increased PI3K/mammalian target of rapamycin (mTOR), vascular endothelial growth factor (VEGF), and WNT signaling. Moreover, a drug screen revealed that JAK3/Suz12 mutant leukemia cells were more sensitive to histone deacetylase (HDAC)6 inhibition than JAK3 mutant leukemia cells. Among the broad genome and gene expression changes observed on Suz12 inactivation, our integrated analysis identified the PI3K/mTOR, VEGF/VEGF receptor, and HDAC6/HSP90 pathways as specific vulnerabilities in T-ALL cells with combined JAK3 and SUZ12 mutations.
© 2019 by The American Society of Hematology.

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Year:  2019        PMID: 31492675      PMCID: PMC6888143          DOI: 10.1182/blood.2019000015

Source DB:  PubMed          Journal:  Blood        ISSN: 0006-4971            Impact factor:   22.113


  40 in total

1.  Polycomb repressive complex 2 component Suz12 is required for hematopoietic stem cell function and lymphopoiesis.

Authors:  Stanley C W Lee; Sarah Miller; Craig Hyland; Maria Kauppi; Marion Lebois; Ladina Di Rago; Donald Metcalf; Sarah A Kinkel; Emma C Josefsson; Marnie E Blewitt; Ian J Majewski; Warren S Alexander
Journal:  Blood       Date:  2015-06-02       Impact factor: 22.113

2.  A stromal cell free culture system generates mouse pro-T cells that can reconstitute T-cell compartments in vivo.

Authors:  Nadine Gehre; Anja Nusser; Lilly von Muenchow; Roxane Tussiwand; Corinne Engdahl; Giuseppina Capoferri; Nabil Bosco; Rhodri Ceredig; Antonius G Rolink
Journal:  Eur J Immunol       Date:  2014-12-16       Impact factor: 5.532

3.  Somatic mutations of the histone methyltransferase gene EZH2 in myelodysplastic syndromes.

Authors:  Gorica Nikoloski; Saskia M C Langemeijer; Roland P Kuiper; Ruth Knops; Marion Massop; Evelyn R L T M Tönnissen; Adrian van der Heijden; Theresia N Scheele; Peter Vandenberghe; Theo de Witte; Bert A van der Reijden; Joop H Jansen
Journal:  Nat Genet       Date:  2010-07-04       Impact factor: 38.330

4.  JAK3 mutants transform hematopoietic cells through JAK1 activation, causing T-cell acute lymphoblastic leukemia in a mouse model.

Authors:  Sandrine Degryse; Charles E de Bock; Luk Cox; Sofie Demeyer; Olga Gielen; Nicole Mentens; Kris Jacobs; Ellen Geerdens; Valentina Gianfelici; Gert Hulselmans; Mark Fiers; Stein Aerts; Jules P Meijerink; Thomas Tousseyn; Jan Cools
Journal:  Blood       Date:  2014-09-05       Impact factor: 22.113

5.  Polycomb Repressive Complex 2 Is a Barrier to KRAS-Driven Inflammation and Epithelial-Mesenchymal Transition in Non-Small-Cell Lung Cancer.

Authors:  Michela Serresi; Gaetano Gargiulo; Natalie Proost; Bjorn Siteur; Matteo Cesaroni; Martijn Koppens; Huafeng Xie; Kate D Sutherland; Danielle Hulsman; Elisabetta Citterio; Stuart Orkin; Anton Berns; Maarten van Lohuizen
Journal:  Cancer Cell       Date:  2016-01-11       Impact factor: 31.743

6.  Targeted sequencing identifies associations between IL7R-JAK mutations and epigenetic modulators in T-cell acute lymphoblastic leukemia.

Authors:  Carmen Vicente; Claire Schwab; Michaël Broux; Ellen Geerdens; Sandrine Degryse; Sofie Demeyer; Idoya Lahortiga; Alannah Elliott; Lucy Chilton; Roberta La Starza; Cristina Mecucci; Peter Vandenberghe; Nicholas Goulden; Ajay Vora; Anthony V Moorman; Jean Soulier; Christine J Harrison; Emmanuelle Clappier; Jan Cools
Journal:  Haematologica       Date:  2015-07-23       Impact factor: 9.941

7.  Ezh2 Controls an Early Hematopoietic Program and Growth and Survival Signaling in Early T Cell Precursor Acute Lymphoblastic Leukemia.

Authors:  Etienne Danis; Taylor Yamauchi; Kristen Echanique; Xi Zhang; Jessica N Haladyna; Simone S Riedel; Nan Zhu; Huafeng Xie; Stuart H Orkin; Scott A Armstrong; Kathrin M Bernt; Tobias Neff
Journal:  Cell Rep       Date:  2016-02-18       Impact factor: 9.423

8.  The genomic landscape of pediatric and young adult T-lineage acute lymphoblastic leukemia.

Authors:  Yu Liu; John Easton; Ying Shao; Jamie Maciaszek; Zhaoming Wang; Mark R Wilkinson; Kelly McCastlain; Michael Edmonson; Stanley B Pounds; Lei Shi; Xin Zhou; Xiaotu Ma; Edgar Sioson; Yongjin Li; Michael Rusch; Pankaj Gupta; Deqing Pei; Cheng Cheng; Malcolm A Smith; Jaime Guidry Auvil; Daniela S Gerhard; Mary V Relling; Naomi J Winick; Andrew J Carroll; Nyla A Heerema; Elizabeth Raetz; Meenakshi Devidas; Cheryl L Willman; Richard C Harvey; William L Carroll; Kimberly P Dunsmore; Stuart S Winter; Brent L Wood; Brian P Sorrentino; James R Downing; Mignon L Loh; Stephen P Hunger; Jinghui Zhang; Charles G Mullighan
Journal:  Nat Genet       Date:  2017-07-03       Impact factor: 38.330

9.  Cooperative Enhancer Activation by TLX1 and STAT5 Drives Development of NUP214-ABL1/TLX1-Positive T Cell Acute Lymphoblastic Leukemia.

Authors:  Marlies Vanden Bempt; Sofie Demeyer; Michaël Broux; Jolien De Bie; Simon Bornschein; Nicole Mentens; Roel Vandepoel; Ellen Geerdens; Enrico Radaelli; Beat C Bornhauser; Andreas E Kulozik; Jules P Meijerink; Jean-Pierre Bourquin; Charles E de Bock; Jan Cools
Journal:  Cancer Cell       Date:  2018-08-13       Impact factor: 31.743

10.  EZH1 mediates methylation on histone H3 lysine 27 and complements EZH2 in maintaining stem cell identity and executing pluripotency.

Authors:  Xiaohua Shen; Yingchun Liu; Yu-Jung Hsu; Yuko Fujiwara; Jonghwan Kim; Xiaohong Mao; Guo-Cheng Yuan; Stuart H Orkin
Journal:  Mol Cell       Date:  2008-11-21       Impact factor: 17.970
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  13 in total

1.  In vivo impact of JAK3 A573V mutation revealed using zebrafish.

Authors:  Faiza Basheer; Vilasha Bulleeraz; Viet Q T Ngo; Clifford Liongue; Alister C Ward
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2.  Polycomb-like 2 regulates PRC2 components to affect proliferation in glioma cells.

Authors:  Fei Wang; Yongying Gao; Ye Lv; Yanwei Wu; Yongzhen Guo; Fang Du; Shixiong Wang; Jiaxiang Yu; Xiangmei Cao; P Andy Li
Journal:  J Neurooncol       Date:  2020-05-21       Impact factor: 4.130

3.  Polycomb and Trithorax Group Proteins: The Long Road from Mutations in Drosophila to Use in Medicine.

Authors:  D A Chetverina; D V Lomaev; M M Erokhin
Journal:  Acta Naturae       Date:  2020 Oct-Dec       Impact factor: 1.845

Review 4.  T-Cell Acute Lymphoblastic Leukemia: Biomarkers and Their Clinical Usefulness.

Authors:  Valentina Bardelli; Silvia Arniani; Valentina Pierini; Danika Di Giacomo; Tiziana Pierini; Paolo Gorello; Cristina Mecucci; Roberta La Starza
Journal:  Genes (Basel)       Date:  2021-07-23       Impact factor: 4.096

5.  A comprehensive genome-wide analysis of long non-coding RNA and mRNA expression profiles of JAK2V617F-positive classical myeloproliferative neoplasms.

Authors:  Jie Zhou; Hao Wu; Cheng Guo; Bing Li; Li-Li Zhou; Ai-Bin Liang; Jian-Fei Fu
Journal:  Bioengineered       Date:  2021-12       Impact factor: 3.269

6.  MARCKSL1-2 reverses docetaxel-resistance of lung adenocarcinoma cells by recruiting SUZ12 to suppress HDAC1 and elevate miR-200b.

Authors:  Min Jiang; Feng Qi; Kai Zhang; Xiaofei Zhang; Jingjing Ma; Suhua Xia; Longbang Chen; Zhengyuan Yu; Jing Chen; Dongqin Chen
Journal:  Mol Cancer       Date:  2022-07-21       Impact factor: 41.444

7.  Oncogenic cooperation between TCF7-SPI1 and NRAS(G12D) requires β-catenin activity to drive T-cell acute lymphoblastic leukemia.

Authors:  Quentin Van Thillo; Jolien De Bie; Janith A Seneviratne; Sofie Demeyer; Sofia Omari; Anushree Balachandran; Vicki Zhai; Wai L Tam; Bram Sweron; Ellen Geerdens; Olga Gielen; Sarah Provost; Heidi Segers; Nancy Boeckx; Glenn M Marshall; Belamy B Cheung; Kiyotaka Isobe; Itaru Kato; Junko Takita; Timothy G Amos; Ira W Deveson; Hannah McCalmont; Richard B Lock; Ethan P Oxley; Maximilian M Garwood; Ross A Dickins; Anne Uyttebroeck; Daniel R Carter; Jan Cools; Charles E de Bock
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Review 8.  Wnt Signaling in Leukemia and Its Bone Marrow Microenvironment.

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Review 9.  Mechanisms of Polycomb group protein function in cancer.

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Review 10.  Genetic and Epigenetic Targeting Therapy for Pediatric Acute Lymphoblastic Leukemia.

Authors:  Huan Xu; Hui Yu; Runming Jin; Xiaoyan Wu; Hongbo Chen
Journal:  Cells       Date:  2021-11-29       Impact factor: 6.600
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