Abstract
Breast cancer is the most common female malignancy in Taiwan, while conventional clinical and pathological factors fail to provide full explanation for prognostic heterogeneity. The aim of the study was to evaluate the feasibility of targeted sequencing combined with concurrent genes signature to identify somatic mutations with clinical significance. The extended concurrent genes signature was based on the coherent patterns between genomic and transcriptional alterations. Targeted sequencing of 61 Taiwanese breast cancers revealed 1036 variants, including 76 pathogenic and 545 likely pathogenic variants based on the ACMG classification. The most frequently mutated genes were NOTCH, BRCA1, AR, ERBB2, FANCA, ATM, and BRCA2 and the most common pathogenic deletions were FGFR1, ATM, and WT1, while BRCA1 (rs1799965), FGFR2 (missense), and BRCA1 (rs1799949) were recurrent pathogenic SNPs. In addition, 38 breast cancers were predicted into 12 high-risk and 26 low-risk cases based on the extended concurrent genes signature, while the pathogenic PIK3CA variant (rs121913279) was significantly mutated between groups. Two deleterious SH3GLB2 mutations were further revealed by multivariate Cox’s regression (hazard ratios: 29.4 and 16.1). In addition, we identified several significantly mutated or pathogenic variants associated with differentially expressed signature genes. The feasibility of targeted sequencing in combination with concurrent genes risk stratification was ascertained. Future study to validate clinical applicability and evaluate potential actionability for Taiwanese breast cancers should be initiated.
Highlights
Breast cancer is the most common female malignancy in Taiwan
The original application targeted a set of genes found to be associated with a broad range of cancer types, functionally annotated with dbSNP, as well as therapeutic options with the COSMIC database as the primary reference [20]
We evaluated the feasibility of targeted sequencing combined with gene expression signature for Taiwanese breast cancers
Summary
Breast cancer is the most common female malignancy in Taiwan. Treatment outcomes have improved enormously in the past decade, mainly with the wide spread of screening mammography and efficient systemic therapies [1,2,3]. Adjuvant therapies for breast cancer are determined based on staging and pathological factors such as estrogen receptor (ER) and human epidermal growth factor receptor II (HER2) status. These factors guide treatment selection and predict therapeutic responsiveness. These clinical and pathological factors, do not provide full explanation of prognostic heterogeneity within each breast cancer subgroup [4]. Gene expression (GE), and single-nucleotide polymorphism (SNP) microarrays have surveyed cancer genomes, including sequence variants, DNA copy number variation (CNV), loss of heterozygosity (LOH), and whole transcriptome, leading to the discovery of several molecular taxonomies, many of which have shown prognostic ability [6,7]. Amplified regions contain dominant oncogenes, whereas deleted regions harbor tumor suppressor genes
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