Deletion 6q Drives T-cell Leukemia Progression by Ribosome Modulation

Overview

Journal Cancer Discov

Specialty Oncology

Date 2018 Sep 30

PMID 30266814

Citations 23

Authors

Stephanie Gachet

Tiama El-Chaar

David Avran

Eulalia Genesca

Frederic Catez

Samuel Quentin

Marc Delord

Gabriel Therizols

Delphine Briot

Godelieve Meunier

Lucie Hernandez

Marika Pla

Willem K Smits

Jessica G Buijs-Gladdines

Wouter Van Loocke

Gerben Menschaert

Isabelle Andre-Schmutz

Tom Taghon

Pieter Van Vlierberghe

Jules P Meijerink

Andre Baruchel

Herve Dombret

Emmanuelle Clappier

Jean-Jacques Diaz

Claude Gazin

Hugues de The

Francois Sigaux

Jean Soulier

Affiliations

Soon will be listed here.

Abstract

Deletion of chromosome 6q is a well-recognized abnormality found in poor-prognosis T-cell acute lymphoblastic leukemia (T-ALL). Using integrated genomic approaches, we identified two candidate haploinsufficient genes contiguous at 6q14, (encoding hnRNP-Q) and (that hosts snoRNAs), both involved in regulating RNA maturation and translation. Combined silencing of both genes, but not of either gene alone, accelerated leukemogeneis in a -driven mouse model, demonstrating the tumor-suppressive nature of the two-gene region. Proteomic and translational profiling of cells in which we engineered a short 6q deletion by CRISPR/Cas9 genome editing indicated decreased ribosome and mitochondrial activities, suggesting that the resulting metabolic changes may regulate tumor progression. Indeed, xenograft experiments showed an increased leukemia-initiating cell activity of primary human leukemic cells upon coextinction of and Our findings not only elucidate the nature of 6q deletion but also highlight the role of ribosomes and mitochondria in T-ALL tumor progression. SIGNIFICANCE: The oncogenic role of 6q deletion in T-ALL has remained elusive since this chromosomal abnormality was first identified more than 40 years ago. We combined genomic analysis and functional models to show that the codeletion of two contiguous genes at 6q14 enhances malignancy through deregulation of a ribosome-mitochondria axis, suggesting the potential for therapeutic intervention..

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