Concurrent <i>CIC</i> mutations, <i>IDH</i> mutations, and 1p/19q loss distinguish oligodendrogliomas from other cancers

Stephen Yip(BC Cancer Agency), Yaron S.N. Butterfield(BC Cancer Agency), Olena Morozova(BC Cancer Agency), Suganthi Chittaranjan(BC Cancer Agency), Michael Blough(University of Calgary), Jianghong An(BC Cancer Agency), İnanç Birol(BC Cancer Agency), Charles Chesnelong(University of Calgary), Readman Chiu(BC Cancer Agency), Eric Chuah(BC Cancer Agency), Richard Corbett(BC Cancer Agency), Roderick Docking(BC Cancer Agency), Marlo Firme(BC Cancer Agency), Martin Hirst(BC Cancer Agency), Shaun D. Jackman(BC Cancer Agency), Aly Karsan(BC Cancer Agency), Haiyan Li(BC Cancer Agency), David N. Louis(Harvard University), Alexandra Maslova(BC Cancer Agency), Richard A. Moore(BC Cancer Agency), Annie Moradian(BC Cancer Agency), Karen Mungall(BC Cancer Agency), Marco Perizzolo(University of Calgary), Jenny Q. Qian(BC Cancer Agency), Glòria Roldán(University of Calgary), Eric E. Smith(University of Calgary), Jessica Tamura‐Wells(BC Cancer Agency), Nina Thiessen(BC Cancer Agency), Richard Varhol(BC Cancer Agency), Samuel Weiss(University of Calgary), Wei Wu(University of Calgary), Sean Young(BC Cancer Agency), Yongjun Zhao(BC Cancer Agency), Andrew J. Mungall(BC Cancer Agency), Steven J.M. Jones(BC Cancer Agency), Gregg B. Morin(BC Cancer Agency), Jennifer A. Chan(University of Calgary), J. Gregory Cairncross(University of Calgary), Marco A. Marra(BC Cancer Agency)
The Journal of Pathology
September 7, 2011
10.1002/path.2995
Cited by 310Open Access
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Abstract

Oligodendroglioma is characterized by unique clinical, pathological, and genetic features. Recurrent losses of chromosomes 1p and 19q are strongly associated with this brain cancer but knowledge of the identity and function of the genes affected by these alterations is limited. We performed exome sequencing on a discovery set of 16 oligodendrogliomas with 1p/19q co-deletion to identify new molecular features at base-pair resolution. As anticipated, there was a high rate of IDH mutations: all cases had mutations in either IDH1 (14/16) or IDH2 (2/16). In addition, we discovered somatic mutations and insertions/deletions in the CIC gene on chromosome 19q13.2 in 13/16 tumours. These discovery set mutations were validated by deep sequencing of 13 additional tumours, which revealed seven others with CIC mutations, thus bringing the overall mutation rate in oligodendrogliomas in this study to 20/29 (69%). In contrast, deep sequencing of astrocytomas and oligoastrocytomas without 1p/19q loss revealed that CIC alterations were otherwise rare (1/60; 2%). Of the 21 non-synonymous somatic mutations in 20 CIC-mutant oligodendrogliomas, nine were in exon 5 within an annotated DNA-interacting domain and three were in exon 20 within an annotated protein-interacting domain. The remaining nine were found in other exons and frequently included truncations. CIC mutations were highly associated with oligodendroglioma histology, 1p/19q co-deletion, and IDH1/2 mutation (p < 0.001). Although we observed no differences in the clinical outcomes of CIC mutant versus wild-type tumours, in a background of 1p/19q co-deletion, hemizygous CIC mutations are likely important. We hypothesize that the mutant CIC on the single retained 19q allele is linked to the pathogenesis of oligodendrogliomas with IDH mutation. Our detailed study of genetic aberrations in oligodendroglioma suggests a functional interaction between CIC mutation, IDH1/2 mutation, and 1p/19q co-deletion.

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