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, SYNCRIP (encoding hnRNP-Q) and SNHG5 (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 Tal1/Lmo1/Notch1-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 SYNCRIP and SNHG5. 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.This article is highlighted in the In This Issue feature, p. 1494.
Highlights
The identification of somatic genome aberrations in cancer cells has been a highly fruitful strategy to identify cancer genes, especially in hematopoietic malignancies
Del6q was associated with the T-cell acute lymphoblastic leukemia (T-ALL) subtype that is characterized by aberrant expression of the TAL1 oncogene (P = 0.032), suggesting oncogenic cooperation (Fig. 1A)
We focused on this subtype and analyzed a total of 107 TAL1-related (TAL-R) cases from three patient cohorts [4, 5, 15], in which del6q was detected in 34 cases (32%)
Summary
The identification of somatic genome aberrations in cancer cells has been a highly fruitful strategy to identify cancer genes, especially in hematopoietic malignancies. With the availability of massive sequencing tools, it is relatively easy to identify cancer genes from translocations, point mutations, or short insertion/deletions [1]. The molecular targets of large chromosomal losses or gains can remain difficult to elucidate, and these types of abnormalities are. Note: Supplementary data for this article are available at Cancer Discovery Online (http://cancerdiscovery.aacrjournals.org/).
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