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A Multiplexed Amplicon Approach for Detecting Gene Fusions by Next-Generation Sequencing

https://doi.org/10.1016/j.jmoldx.2015.10.002Get rights and content
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Chromosomal rearrangements that result in oncogenic gene fusions are clinically important drivers of many cancer types. Rapid and sensitive methods are therefore needed to detect a broad range of gene fusions in clinical specimens that are often of limited quantity and quality. We describe a next-generation sequencing approach that uses a multiplex PCR-based amplicon panel to interrogate fusion transcripts that involve 19 driver genes and 94 partners implicated in solid tumors. The panel also includes control assays that evaluate the 3′/5′ expression ratios of 12 oncogenic kinases, which might be used to infer gene fusion events when the partner is unknown or not included on the panel. There was good concordance between the solid tumor fusion gene panel and other methods, including fluorescence in situ hybridization, real-time PCR, Sanger sequencing, and other next-generation sequencing panels, because 40 specimens known to harbor gene fusions were correctly identified. No specific fusion reads were observed in 59 fusion-negative specimens. The 3′/5′ expression ratio was informative for fusions that involved ALK, RET, and NTRK1 but not for BRAF or ROS1 fusions. However, among 37 ALK or RET fusion-negative specimens, four exhibited elevated 3′/5′ expression ratios, indicating that fusions predicted solely by 3′/5′ read ratios require confirmatory testing.

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Supported by research funds from the Knight Cancer Institute, Oregon Health & Science University.

Preliminary data were presented at the 2014 Association for Molecular Pathology Meeting; November 12-15, 2014; Washington, DC.

Disclosures: C.L.C. has received honoraria and travel support from Thermo Fisher Scientific. Multiplex amplicon panel primers were provided by Thermo Fisher Scientific.