Recurrent mutations in epigenetic regulators, RHOA
and FYN kinase in peripheral T cell lymphomas

Palomero, Teresa; Couronné, Lucile; Khiabanian, Hossein; Kim, Mi-Yeon; Ambesi-Impiombato, Alberto; Perez-Garcia, Arianne; Carpenter, Zachary; Abate, Francesco; Allegretta, Maddalena; Haydu, J. Erika; JIANG, XIAOYU; Lossos, Izidore S; Nicolas, Concha; Balbín, Milagros; Bastard, Christian; Bhagat, Govind; Piris, Miguel Angel; Campo, Elias; Bernard, Olivier; Rabadan, Raul; Ferrando, Adolfo

doi:10.1038/ng.2873

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Recurrent mutations in epigenetic regulators, RHOA and FYN kinase in peripheral T cell lymphomas

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Author(s): Teresa Palomero ¹ ^, ² ^, ¹⁷ , Lucile Couronné ¹ ^, ¹⁷ , Hossein Khiabanian ³ ^, ¹⁷ , Mi-Yeon Kim ¹ , Alberto Ambesi-Impiombato ¹ , Arianne Perez-Garcia ¹ , Zachary Carpenter ³ , Francesco Abate ³ ^, ⁴ , Maddalena Allegretta ¹ , J. Erika Haydu ¹ , Xiaoyu Jiang ⁵ , Izidore S. Lossos ⁵ ^, ⁶ , Concha Nicolas ⁷ , Milagros Balbin ⁸ , Christian Bastard ⁹ , Govind Bhagat ² , Miguel Angel Piris ¹⁰ , Elias Campo ¹¹ ^, ¹² , Olivier Bernard ¹³ ^, ¹⁴ ^, ¹⁵ , Raul Rabadan ³ , Adolfo Ferrando ¹ ^, ² ^, ¹⁶

Publication date (Electronic): 12 January 2014

Journal: Nature genetics

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Abstract

Peripheral T-cell lymphomas (PTCLs) are a heterogeneous and poorly understood group of non Hodgkin lymphomas ^{1,
2}. Here we combined whole exome sequencing of 12 tumor-normal DNA pairs, RNAseq analysis and targeted deep sequencing to identify new genetic alterations in PTCL transformation. These analyses identified highly recurrent epigenetic factor mutations in TET2, DNMT3A and IDH2 as well as a new highly prevalent RHOA p.Gly17Val (NM_001664) mutation present in 22/35 (67%) of angioimmunoblastic T-cell lymphomas (AITL) and in 8/44 (18%) not otherwise specified PTCL (PTCL NOS) samples. Mechanistically, the RHOA Gly17Val protein interferes with RHOA signaling in biochemical and cellular assays, an effect potentially mediated by the sequestration of activated Guanine Exchange Factor (GEF) proteins. In addition, we describe new and recurrent, albeit less frequent, genetic defects including mutations in FYN, ATM, B2M and CD58 implicating SRC signaling, impaired DNA damage response and escape from immune surveillance mechanisms in the pathogenesis of PTCL.

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Most cited references 21

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Function of the Src-family kinases, Lck and Fyn, in T-cell development and activation.

Emil Palacios, Arthur Weiss (2004)

The function of the Src-family kinases (SFKs) Lck and Fyn in T cells has been intensively studied over the past 15 years. Animal models and cell line studies both indicate a critical role for Lck and Fyn in proximal T-cell antigen receptor (TCR) signal transduction. Recruited SFKs phosphorylate TCR ITAMs (immunoreceptor tyrosine-based activation motifs) in the CD3 and zeta chains, which then serve as docking sites for Syk-family kinases. SFKs then phosphorylate and activate the recruited Syk-family kinase. Lck and Fyn are spatially segregated in cell membranes due to differential lipid raft localization, and may undergo sequential activation. In addition to the CD4 and CD8 coreceptors, a recently described adaptor, Unc119, may link SFKs to the TCR. CD45 and Csk provide positive and negative regulatory control of SFK functions, respectively, and Csk is constitutively bound to the transmembrane adapter protein, PAG/Cbp. TCR-based signaling is required at several stages of T-cell development, including at least pre-TCR signaling, positive selection, peripheral maintenance of naive T cells, and lymphopenia-induced proliferation. SFKs are required for each of these TCR-based signals, and Lck seems to be the major contributor.

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Author and article information

Journal

Journal ID (nlm-journal-id): 9216904

Journal ID (pubmed-jr-id): 2419

Journal ID (nlm-ta): Nat Genet

Journal ID (iso-abbrev): Nat. Genet.

Title: Nature genetics

ISSN (Print): 1061-4036

ISSN (Electronic): 1546-1718

Publication date Nihms-submitted: 29 January 2014

Publication date (Electronic): 12 January 2014

Publication date (Print): February 2014

Publication date PMC-release: 01 August 2014

Volume: 46

Issue: 2

Pages: 166-170

Affiliations

[1 ]Institute for Cancer Genetics, Columbia University, New York, NY, USA.

[2 ]Department of Pathology, Columbia University Medical Center, New York, NY, USA.

[3 ]Joint Centers for Systems Biology, Columbia University, New York, NY, USA.

[4 ]Department of Control and Computer Engineering, Politecnico di Torino, Torino, Italy

[5 ]Division of Hematology -Oncology, Sylvester Comprehensive Cancer Center, Miami, FL, USA.

[6 ]Department of Molecular and Cellular Pharmacology, University of Miami, Miami, FL, USA.

[7 ]Hematology Service, Hospital Central de Asturias, Oviedo, Spain.

[8 ]Molecular Oncology Laboratory, Instituto Universitario de Oncologia del Principado de Asturias, Hospital Universitario Central de Asturias, Oviedo, Spain.

[9 ]INSERM U918 Centre Henri Becquerel, Rouen, France.

[10 ]Pathology Department, Hospital Universitario Marques de Valdecilla, Santander, Spain.

[11 ]Hematopathology Section, Department of Pathology, Hospital Clinic, Barcelona, Spain.

[12 ]Institut d'Investigacions Biomèdiques August Pi i Sunyer, University of Barcelona, Barcelona, Spain.

[13 ]INSERM, U985; Villejuif 94805, France.

[14 ]Université Paris-Sud, Orsay 91400, France.

[15 ]Institut Gustave Roussy, Villejuif 94805, France.

[16 ]Department of Pediatrics, Columbia University Medical Center, New York, NY, USA.

[17 ]These authors contributed equally to this work

Author notes

Correspondence should be addressed to A.F. ( af2196@ 123456columbia.edu ), R.R. ( rabadan@ 123456dbmi.columbia.edu ) and T.P. ( tp2151@ 123456columbia.edu ).

Article

Manuscript ID: NIHMS549899

DOI: 10.1038/ng.2873

PMC ID: 3963408

PubMed ID: 24413734

SO-VID: 0720e6e4-e18c-4744-b2b7-4be89530131e

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