| Literature DB >> 25892415 |
Oumou Goundiam1,2,3, Pierre Gestraud4,5,6, Tatiana Popova7, Thibault De la Motte Rouge8, Virginie Fourchotte9, David Gentien3, Philippe Hupé4,5,6,10, Véronique Becette1, Claude Houdayer1,7,11, Sergio Roman-Roman3, Marc-Henri Stern1,7, Xavier Sastre-Garau1,2.
Abstract
The treatment of epithelial ovarian cancer (EOC) is narrowly focused despite the heterogeneity of this disease in which outcomes remain poor. To stratify EOC patients for targeted therapy, we developed an approach integrating expression and genomic analyses including the BRCAness status. Gene expression and genomic profiling were used to identify genes recurrently (>5%) amplified and overexpressed in 105 EOC. The LST (Large-scale State Transition) genomic signature of BRCAness was applied to define molecular subgroups of EOC. Amplified/overexpressed genes clustered mainly in 3q, 8q, 19p and 19q. These changes were generally found mutually exclusive. In the 85 patients for which the genomic signature could be determined, genomic BRCAness was found in 52 cases (61.1%) and non-BRCAness in 33 (38.8%). A striking mutual exclusivity was observed between BRCAness and amplification/overexpression data. Whereas 3q and 8q alterations were preferentially observed in BRCAness EOC, most alterations on chromosome 19 were in non-BRCAness cases. CCNE1 (19q12) and BRD4 (19p13.1) amplification/overexpression was found in 19/33 (57.5%) of non-BRCAness cases. Such disequilibrium was also found in the TCGA EOC data set used for validation. Potential target genes are frequently amplified/overexpressed in non-BRCAness EOC. We report that BRD4, already identified as a target in several tumor models, is a new potential target in high grade non-BRCAness ovarian carcinoma.Entities:
Keywords: BRCAness; BRD4; CCNE1; genomics; ovarian cancer
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Year: 2015 PMID: 25892415 DOI: 10.1002/ijc.29568
Source DB: PubMed Journal: Int J Cancer ISSN: 0020-7136 Impact factor: 7.396