Genome sequencing enhances the diagnostic yield and expands the genetic landscape of male breast cancer

Genetics in Medicine Open Pub Date : 2025-01-01 DOI:10.1016/j.gimo.2024.101899

Wen Wen , Sen Zhao , Yiwen Jiang , Chengzhu Ou , Changyuan Guo , Ziqi Jia , Jiayi Li , Yansong Huang , Hengyi Xu , Pengming Pu , Tongxuan Shang , Lin Cong , Xiang Wang , Nan Wu , Jiaqi Liu

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Abstract

Purpose

To understand the broader genetic landscape of male breast cancer (MBC), focusing on the utility of genome sequencing (GS) beyond BRCA1/2 (HGNC: 1100, 1101) variants.

Methods

Twenty-four patients with MBC underwent a multistep genetic analysis. Initial screening targeted BRCA1/2 variants followed by GS to identify pathogenic/likely pathogenic germline variants through a 3-tiered classification. Polygenic risk score analysis was further incorporated using a model for female breast cancer with 2666 noncancer controls. Exome sequencing was used to transition from germline to somatic investigations, assessing second-hit variant and mutational signatures.

Results

The GS analysis unveiled previously unrecognized pathogenic/likely pathogenic germline variants in BARD1, ATR, BRIP1, and CHEK2 (HGNC: 952, 882, 20473, 16627) among 21 BRCA1/2-negative patients with MBC, elevating the diagnostic yield from 12.5% to 33.0% in all MBC. Elevated average polygenic risk score was noted compared with controls, with a significant correlation to early-onset MBC when combined with high-penetrance germline pathogenic variants (P = 1.10 × 10⁻⁴). Exome sequencing analysis further identified significant somatic oncogenic drivers and revealed a dominant mutational signature SBS3 across BRCA1/2-negative samples, reinforcing the contribution of omologous recombination deficiency underlying the MBC development.

Conclusion

Our findings extended the MBC genetic spectrum beyond BRCA1/2 and highlighted the intricate interplay of monogenic and polygenic predispositions, presenting a comprehensive MBC genomic profile.

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Genetics in Medicine Open

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