Identification of a novel BET bromodomain inhibitor‐sensitive, gene regulatory circuit that controls Rituximab response and tumour growth in aggressive lymphoid cancers

Anouk Emadali; Sophie Rousseaux; Juliana Bruder‐Costa; Claire Rome; Samuel Duley; Sieme Hamaidia; Patricia Betton; Alexandra Debernardi; Dominique Leroux; Benoit Bernay; Sylvie Kieffer‐Jaquinod; Florence Combes; Elena Ferri; Charles E. McKenna; Carlo Petosa; Christophe Bruley; Jérôme Garin; Myriam Ferro; Rémy Gressin; Mary B. Callanan; Saadi Khochbin

doi:10.1002/emmm.201202034

EMBO Molecular Medicine (Jul 2013)

Identification of a novel BET bromodomain inhibitor‐sensitive, gene regulatory circuit that controls Rituximab response and tumour growth in aggressive lymphoid cancers

Anouk Emadali,
Sophie Rousseaux,
Juliana Bruder‐Costa,
Claire Rome,
Samuel Duley,
Sieme Hamaidia,
Patricia Betton,
Alexandra Debernardi,
Dominique Leroux,
Benoit Bernay,
Sylvie Kieffer‐Jaquinod,
Florence Combes,
Elena Ferri,
Charles E. McKenna,
Carlo Petosa,
Christophe Bruley,
Jérôme Garin,
Myriam Ferro,
Rémy Gressin,
Mary B. Callanan,
Saadi Khochbin

Affiliations

Anouk Emadali: CEA, iRTSV, Biologie à Grande Echelle
Sophie Rousseaux: Joseph Fourier University
Juliana Bruder‐Costa: Joseph Fourier University
Claire Rome: Joseph Fourier University
Samuel Duley: Joseph Fourier University
Sieme Hamaidia: Joseph Fourier University
Patricia Betton: Joseph Fourier University
Alexandra Debernardi: Joseph Fourier University
Dominique Leroux: Joseph Fourier University
Benoit Bernay: CEA, iRTSV, Biologie à Grande Echelle
Sylvie Kieffer‐Jaquinod: CEA, iRTSV, Biologie à Grande Echelle
Florence Combes: CEA, iRTSV, Biologie à Grande Echelle
Elena Ferri: Department of Chemistry, University of Southern California
Charles E. McKenna: Department of Chemistry, University of Southern California
Carlo Petosa: Institut de Biologie Structurale Jean‐Pierre Ebel, UMR 5075 CEA‐CNRS‐Université de Grenoble
Christophe Bruley: CEA, iRTSV, Biologie à Grande Echelle
Jérôme Garin: CEA, iRTSV, Biologie à Grande Echelle
Myriam Ferro: CEA, iRTSV, Biologie à Grande Echelle
Rémy Gressin: Joseph Fourier University
Mary B. Callanan: Joseph Fourier University
Saadi Khochbin: Joseph Fourier University

DOI: https://doi.org/10.1002/emmm.201202034
Journal volume & issue: Vol. 5, no. 8
pp. 1180 – 1195

Abstract

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Abstract Immuno‐chemotherapy elicit high response rates in B‐cell non‐Hodgkin lymphoma but heterogeneity in response duration is observed, with some patients achieving cure and others showing refractory disease or relapse. Using a transcriptome‐powered targeted proteomics screen, we discovered a gene regulatory circuit involving the nuclear factor CYCLON which characterizes aggressive disease and resistance to the anti‐CD20 monoclonal antibody, Rituximab, in high‐risk B‐cell lymphoma. CYCLON knockdown was found to inhibit the aggressivity of MYC‐overexpressing tumours in mice and to modulate gene expression programs of biological relevance to lymphoma. Furthermore, CYCLON knockdown increased the sensitivity of human lymphoma B cells to Rituximab in vitro and in vivo. Strikingly, this effect could be mimicked by in vitro treatment of lymphoma B cells with a small molecule inhibitor for BET bromodomain proteins (JQ1). In summary, this work has identified CYCLON as a new MYC cooperating factor that autonomously drives aggressive tumour growth and Rituximab resistance in lymphoma. This resistance mechanism is amenable to next‐generation epigenetic therapy by BET bromodomain inhibition, thereby providing a new combination therapy rationale for high‐risk lymphoma.

Published in EMBO Molecular Medicine

ISSN: 1757-4676 (Print); 1757-4684 (Online)
Publisher: Springer Nature
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General); Science: Biology (General): Genetics
Website: https://www.embopress.org/journal/17574684

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