Key pathways are frequently mutated in high-risk childhood acute lymphoblastic leukemia: a report from the Children's Oncology Group

J Zhang, CG Mullighan, RC Harvey… - Blood, The Journal …, 2011 - ashpublications.org
Blood, The Journal of the American Society of Hematology, 2011ashpublications.org
We sequenced 120 candidate genes in 187 high-risk childhood B-precursor acute
lymphoblastic leukemias, the largest pediatric cancer genome sequencing effort reported to
date. Integrated analysis of 179 validated somatic sequence mutations with genome-wide
copy number alterations and gene expression profiles revealed a high frequency of
recurrent somatic alterations in key signaling pathways, including B-cell development/
differentiation (68% of cases), the TP53/RB tumor suppressor pathway (54%), Ras signaling …
Abstract
We sequenced 120 candidate genes in 187 high-risk childhood B-precursor acute lymphoblastic leukemias, the largest pediatric cancer genome sequencing effort reported to date. Integrated analysis of 179 validated somatic sequence mutations with genome-wide copy number alterations and gene expression profiles revealed a high frequency of recurrent somatic alterations in key signaling pathways, including B-cell development/differentiation (68% of cases), the TP53/RB tumor suppressor pathway (54%), Ras signaling (50%), and Janus kinases (11%). Recurrent mutations were also found in ETV6 (6 cases), TBL1XR1 (3), CREBBP (3), MUC4 (2), ASMTL (2), and ADARB2 (2). The frequency of mutations within the 4 major pathways varied markedly across genetic subtypes. Among 23 leukemias expressing a BCR-ABL1-like gene expression profile, 96% had somatic alterations in B-cell development/differentiation, 57% in JAK, and 52% in both pathways, whereas only 9% had Ras pathway mutations. In contrast, 21 cases defined by a distinct gene expression profile coupled with focal ERG deletion rarely had B-cell development/differentiation or JAK kinase alterations but had a high frequency (62%) of Ras signaling pathway mutations. These data extend the range of genes that are recurrently mutated in high-risk childhood B-precursor acute lymphoblastic leukemia and highlight important new therapeutic targets for selected patient subsets.
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