Abstract

Abstract Introduction Aplicon based next generation sequencing (NGS) assays have the potential to incorporate simultaneous assessment of somatic mutations and copy number variation into a single platform. Although not specifically designed for this purpose, we noted numerous examples of apparent HER-2/neu gene amplification in analyzing results from our mutation profiling 46-gene cancer NGS panel (Life Technologies, South San Francisco, CA). Material and Methods Existing amplicon coverage data from the TorrentSuite 2.0 (Life Technologies) pipeline was accessed and used to generate a HER-2/neu coverage proportion (ratio between all HER-2/neu amplicon reads and all other amplicon reads). This ratio was calculated for 170 unique cases of breast carcinoma. A total of 4 cases were eliminated from analysis due to indeterminate IHC/FISH results. Using a total of 166 cases, we performed ROC curve analysis to determine the sensitivity and specificity of NGS based HER-2/neu amplification compared to that of traditional IHC and FISH testing (MedCalc v8.0). Results The NGS based HER-2/neu coverage proportions in the 166 cases showed a clearly non-normal distribution with an outlier cluster of cases with an elevated NGS HER-2/neu ratio (6 cases with ratios >0.045). The distribution of NGS based HER-2/neu ratios for the entire population ranged from 0.01 to a maximum of 0.34. ROC curve analysis of NGS HER-2/neu proportions compared to IHC/FISH data showed a maximal sensitivity of 75.0% and specificity of 100% at an NGS ratio cut off of ≥0.045. In the 166 cases, 6 showed a HER-2/neu coverage proportion of > 0.045 (range 0.045-0.34). Utilizing the 0.045 NGS ratio cut off value, the population frequency of cases positive for HER2 expression was 3.4%. Of the 160 samples with NGS coverage proportion < 0.045, only two cases were positive by IHC/FISH testing. The correlation between NGS HER-2/neu coverage proportion and IHC/FISH testing was highly significant (Spearman rank correlation r = 0.67, p < 0.0001 CI: 0.58-0.75). Conclusions Even utilizing a limited somatic cancer panel that includes less than 200 amplicons in 46 genes, clinically significant HER-2/neu amplification can be readily identified. This is the first study to describe the functional utility of HER-2/neu amplification detection using a NGS based amplicon assay. This study shows that in addition to mutation analysis, amplification data can be simultaneously obtained, which has striking implications for potential clinical utility and HER-2/neu amplification detection outside of traditional IHC and HER2 testing modalities. Furthermore, utilizing this assay as a primary screening modality could limit the additional expense of multiple single gene testing. Citation Information: Cancer Res 2013;73(24 Suppl): Abstract nr P1-02-05.

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