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Multiomic integration reveals subtype-specific predictors of neoadjuvant treatment response in breast cancer

Zongchao Mo, Mei Yang, Zhihan Zhu, M. Wang, Haoyu Wang, Zhanye Zhang, Shanshan Lyu, Fangping Xu, Haixia Shang, Huan Lin, Zeyan Xu, Suyun Li, Xiaobo Chen, Kun Wang, Changhong Liang, Jiguang Wang, Zaiyi Liu

2025Science Advances9 citationsDOIOpen Access PDF

Abstract

Neoadjuvant therapy has been widely used in breast cancer, but treatment response varies among individuals. We conducted multiomic profiling on tumor samples from 149 Chinese patients with breast cancer across ER − HER2 + , ER + HER2 + , and ER − HER2 − subtypes, categorizing outcomes as pathologic complete response (pCR; n = 81) or residual disease (RD; n = 68). We identified distinct molecular features linked to pCR in each subtype: elevated cell proliferation in patients with ER − HER2 − pCR, higher CDKN2A methylation in patients with ER − HER2 − RD, increased KIT methylation in patients with ER − HER2 + RD, and MAP4K1 hypermethylation in patients with ER + HER2 + RD. These findings were subsequently validated in independent datasets. By integrating clinical and multiomic data, we developed MOPCR, a subtype-specific machine learning model that outperformed single-omic approaches in predicting treatment response. MOPCR demonstrated potential generalizability across cohorts and provided preliminary stratification of patient subgroups with higher pCR probability, offering valuable insights for precision cancer management.

Topics & Concepts

Breast cancerOncologyMedicineCDKN2AInternal medicineGeneralizability theoryNeoadjuvant therapyCancerStatisticsMathematicsBreast Cancer Treatment StudiesCancer Genomics and DiagnosticsGene expression and cancer classification