Abstract
Fusion genes and fusion gene products are widely employed as biomarkers and therapeutic targets in hematopoietic cancers, but their applications have yet to be appreciated in solid tumors. Here, we report the use of SnowShoes-FTD, a powerful new analytic pipeline that can identify fusion transcripts and assess their redundancy and tumor subtype-specific distribution in primary tumors. In a study of primary breast tumors, SnowShoes-FTD was used to analyze paired-end mRNA-Seq data from a panel of estrogen receptor (ER)(+), HER2(+), and triple-negative primary breast tumors, identifying tumor-specific fusion transcripts by comparison with mRNA-Seq data from nontransformed human mammary epithelial cell cultures plus the Illumina Body Map data from normal tissues. We found that every primary breast tumor that was analyzed expressed one or more fusion transcripts. Of the 131 tumor-specific fusion transcripts identified, 86 were "private" (restricted to a single tumor) and 45 were "redundant" (distributed among multiple tumors). Among the redundant fusion transcripts, 7 were unique to ER(+) tumors and 8 were unique to triple-negative tumors. In contrast, none of the redundant fusion transcripts were unique to HER2(+) tumors. Both private and redundant fusion transcripts were widely expressed in primary breast tumors, with many mapping to genomic loci implicated in breast carcinogenesis and/or risk. Our finding that some fusion transcripts are tumor subtype-specific suggests that these entities may be critical determinants in the etiology of breast cancer subtypes, useful as biomarkers for tumor stratification, or exploitable as cancer-specific therapeutic targets.
Highlights
Used as both biomarkers and therapeutic targets in hematopoietic malignancies, genomic rearrangements and resultant fusion gene products have only recently begun to be appreciated in solid tumors [1, 2]
Our results suggest that fusion transcripts may be potentially useful as biomarkers to stratify breast cancer subtypes, may mark regions of localized chromosomal instability that are linked to the natural history of ERþ, HER2þ, or triple negative (TN) breast cancer, and may emerge as therapeutic targets in breast cancer
Depth of sequence analysis is likely to contribute to fusion transcript detection, and significantly greater depth of sequencing was obtained with the ERþ tumors (40–50M) than with the TN (20–28M) or HER2þ (17–20M) tumors
Summary
Used as both biomarkers and therapeutic targets in hematopoietic malignancies, genomic rearrangements and resultant fusion gene products have only recently begun to be appreciated in solid tumors [1, 2]. The corresponding RPSK6KB!VMPI fusion gene was not detected by Stephens and colleagues [9], who used paired-end genomic sequencing to survey genomic rearrangements in 15 primary breast tumors, of which 5 were further analyzed for fusion transcripts. We developed a novel analytic pipeline, SnowShoes-FTD, which facilitates identification of high confidence fusion transcripts from paired-end mRNA-Seq data [6] This pipeline has been applied to detection of fusion transcripts in RNA sequence data from a panel of 8 each estrogen receptor alpha (ESR1) positive (ERþ), HER2-enriched (HER2þ), and triple negative (TN) primary breast tumors (24 tumors total). Our results suggest that fusion transcripts may be potentially useful as biomarkers to stratify breast cancer subtypes, may mark regions of localized chromosomal instability that are linked to the natural history of ERþ, HER2þ, or TN breast cancer, and may emerge as therapeutic targets in breast cancer
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