Literature DB >> 31101622

Recurrent MSC E116K mutations in ALK-negative anaplastic large cell lymphoma.

Rebecca A Luchtel1, Michael T Zimmermann2, Guangzhen Hu1, Surendra Dasari2, Manli Jiang1, Naoki Oishi1,3, Hailey K Jacobs1, Yu Zeng1,4, Tanya Hundal1, Karen L Rech1, Rhett P Ketterling1, Jeong-Heon Lee1,5, Bruce W Eckloff6, Huihuang Yan2, Krutika S Gaonkar2, Shulan Tian2, Zhenqing Ye2, Marshall E Kadin7, Jagmohan Sidhu8, Liuyan Jiang9, Jesse Voss1, Brian K Link10, Sergei I Syrbu11, Fabio Facchetti12, N Nora Bennani13, Susan L Slager2, Tamas Ordog5, Jean-Pierre Kocher2, James R Cerhan2, Stephen M Ansell13, Andrew L Feldman1.   

Abstract

Anaplastic large cell lymphomas (ALCLs) represent a relatively common group of T-cell non-Hodgkin lymphomas (T-NHLs) that are unified by similar pathologic features but demonstrate marked genetic heterogeneity. ALCLs are broadly classified as being anaplastic lymphoma kinase (ALK)+ or ALK-, based on the presence or absence of ALK rearrangements. Exome sequencing of 62 T-NHLs identified a previously unreported recurrent mutation in the musculin gene, MSC E116K, exclusively in ALK- ALCLs. Additional sequencing for a total of 238 T-NHLs confirmed the specificity of MSC E116K for ALK- ALCL and further demonstrated that 14 of 15 mutated cases (93%) had coexisting DUSP22 rearrangements. Musculin is a basic helix-loop-helix (bHLH) transcription factor that heterodimerizes with other bHLH proteins to regulate lymphocyte development. The E116K mutation localized to the DNA binding domain of musculin and permitted formation of musculin-bHLH heterodimers but prevented their binding to authentic target sequence. Functional analysis showed MSCE116K acted in a dominant-negative fashion, reversing wild-type musculin-induced repression of MYC and cell cycle inhibition. Chromatin immunoprecipitation-sequencing and transcriptome analysis identified the cell cycle regulatory gene E2F2 as a direct transcriptional target of musculin. MSCE116K reversed E2F2-induced cell cycle arrest and promoted expression of the CD30-IRF4-MYC axis, whereas its expression was reciprocally induced by binding of IRF4 to the MSC promoter. Finally, ALCL cells expressing MSC E116K were preferentially targeted by the BET inhibitor JQ1. These findings identify a novel recurrent MSC mutation as a key driver of the CD30-IRF4-MYC axis and cell cycle progression in a unique subset of ALCLs.
© 2019 by The American Society of Hematology.

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Year:  2019        PMID: 31101622      PMCID: PMC6598380          DOI: 10.1182/blood.2019000626

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


  63 in total

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