Author
Listed:
- James D. Phelan
(National Institutes of Health)
- Ryan M. Young
(National Institutes of Health)
- Daniel E. Webster
(National Institutes of Health)
- Sandrine Roulland
(National Institutes of Health
Aix-Marseille University, CNRS, INSERM, Centre d’Immunologie de Marseille-Luminy)
- George W. Wright
(National Institutes of Health)
- Monica Kasbekar
(National Institutes of Health)
- Arthur L. Shaffer
(National Institutes of Health)
- Michele Ceribelli
(National Institutes of Health)
- James Q. Wang
(National Institutes of Health)
- Roland Schmitz
(National Institutes of Health)
- Masao Nakagawa
(National Institutes of Health)
- Emmanuel Bachy
(National Institutes of Health)
- Da Wei Huang
(National Institutes of Health)
- Yanlong Ji
(Goethe University)
- Lu Chen
(National Institutes of Health)
- Yandan Yang
(National Institutes of Health)
- Hong Zhao
(National Institutes of Health)
- Xin Yu
(National Institutes of Health)
- Weihong Xu
(National Institutes of Health)
- Maryknoll M. Palisoc
(National Institutes of Health)
- Racquel R. Valadez
(National Institutes of Health)
- Theresa Davies-Hill
(National Institutes of Health)
- Wyndham H. Wilson
(National Institutes of Health)
- Wing C. Chan
(City of Hope National Medical Center)
- Elaine S. Jaffe
(National Institutes of Health)
- Randy D. Gascoyne
(British Columbia Cancer Agency)
- Elias Campo
(University of Barcelona)
- Andreas Rosenwald
(University of Würzburg, and Comprehensive Cancer Center Mainfranken)
- German Ott
(Robert-Bosch-Krankenhaus, and Dr. Margarete Fischer-Bosch Institute for Clinical Pharmacology)
- Jan Delabie
(University Health Network, Laboratory Medicine Program, Toronto General Hospital and University of Toronto)
- Lisa M. Rimsza
(Mayo Clinic)
- Fausto J. Rodriguez
(Johns Hopkins University School of Medicine)
- Fayez Estephan
(Johns Hopkins University School of Medicine)
- Matthias Holdhoff
(Johns Hopkins University School of Medicine)
- Michael J. Kruhlak
(National Institutes of Health)
- Stephen M. Hewitt
(National Institutes of Health)
- Craig J. Thomas
(National Institutes of Health
National Institutes of Health)
- Stefania Pittaluga
(National Institutes of Health)
- Thomas Oellerich
(National Institutes of Health
Goethe University
German Cancer Research Center and German Cancer Consortium)
- Louis M. Staudt
(National Institutes of Health)
Abstract
B cell receptor (BCR) signalling has emerged as a therapeutic target in B cell lymphomas, but inhibiting this pathway in diffuse large B cell lymphoma (DLBCL) has benefited only a subset of patients1. Gene expression profiling identified two major subtypes of DLBCL, known as germinal centre B cell-like and activated B cell-like (ABC)2,3, that show poor outcomes after immunochemotherapy in ABC. Autoantigens drive BCR-dependent activation of NF-κB in ABC DLBCL through a kinase signalling cascade of SYK, BTK and PKCβ to promote the assembly of the CARD11–BCL10–MALT1 adaptor complex, which recruits and activates IκB kinase4–6. Genome sequencing revealed gain-of-function mutations that target the CD79A and CD79B BCR subunits and the Toll-like receptor signalling adaptor MYD885,7, with MYD88(L265P) being the most prevalent isoform. In a clinical trial, the BTK inhibitor ibrutinib produced responses in 37% of cases of ABC1. The most striking response rate (80%) was observed in tumours with both CD79B and MYD88(L265P) mutations, but how these mutations cooperate to promote dependence on BCR signalling remains unclear. Here we used genome-wide CRISPR–Cas9 screening and functional proteomics to determine the molecular basis of exceptional clinical responses to ibrutinib. We discovered a new mode of oncogenic BCR signalling in ibrutinib-responsive cell lines and biopsies, coordinated by a multiprotein supercomplex formed by MYD88, TLR9 and the BCR (hereafter termed the My-T-BCR supercomplex). The My-T-BCR supercomplex co-localizes with mTOR on endolysosomes, where it drives pro-survival NF-κB and mTOR signalling. Inhibitors of BCR and mTOR signalling cooperatively decreased the formation and function of the My-T-BCR supercomplex, providing mechanistic insight into their synergistic toxicity for My-T-BCR+ DLBCL cells. My-T-BCR supercomplexes characterized ibrutinib-responsive malignancies and distinguished ibrutinib responders from non-responders. Our data provide a framework for the rational design of oncogenic signalling inhibitors in molecularly defined subsets of DLBCL.
Suggested Citation
James D. Phelan & Ryan M. Young & Daniel E. Webster & Sandrine Roulland & George W. Wright & Monica Kasbekar & Arthur L. Shaffer & Michele Ceribelli & James Q. Wang & Roland Schmitz & Masao Nakagawa &, 2018.
"A multiprotein supercomplex controlling oncogenic signalling in lymphoma,"
Nature, Nature, vol. 560(7718), pages 387-391, August.
Handle:
RePEc:nat:nature:v:560:y:2018:i:7718:d:10.1038_s41586-018-0290-0
DOI: 10.1038/s41586-018-0290-0
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Cited by:
- Jonathan H. Lam & Nicole Baumgarth, 2023.
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- Senyu Yao & Xiaoyue Wei & Wenrui Deng & Boyan Wang & Jianye Cai & Yinong Huang & Xiaofan Lai & Yuan Qiu & Yi Wang & Yuanjun Guan & Jiancheng Wang, 2022.
"Nestin-dependent mitochondria-ER contacts define stem Leydig cell differentiation to attenuate male reproductive ageing,"
Nature Communications, Nature, vol. 13(1), pages 1-18, December.
- Bonnie Huang & James D. Phelan & Silvia Preite & Julio Gomez-Rodriguez & Kristoffer H. Johansen & Hirofumi Shibata & Arthur L. Shaffer & Qin Xu & Brendan Jeffrey & Martha Kirby & Stacie Anderson & Yan, 2022.
"In vivo CRISPR screens reveal a HIF-1α-mTOR-network regulates T follicular helper versus Th1 cells,"
Nature Communications, Nature, vol. 13(1), pages 1-16, December.
- Yandan Yang & Arnold Bolomsky & Thomas Oellerich & Ping Chen & Michele Ceribelli & Björn Häupl & George W. Wright & James D. Phelan & Da Wei Huang & James W. Lord & Callie K. Winkle & Xin Yu & Jan Wis, 2022.
"Oncogenic RAS commandeers amino acid sensing machinery to aberrantly activate mTORC1 in multiple myeloma,"
Nature Communications, Nature, vol. 13(1), pages 1-19, December.
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