PO.ET06.04 · 实验与分子治疗

Integrative pathway analysis of I-SPY2 HER2+ breast cancers reveals drug-repurposing opportunities

海报缩略图:Integrative pathway analysis of I-SPY2 HER2+ breast cancers reveals drug-repurposing opportunities
编号 2994 展板 16 时间 4/20 02:00–05:00 区域 Section 13 主讲 Kingsley Chow, BS
分会场 Molecular Targets 1
查看完整资料 下载 PDF 登录后可访问当前开放资料 AACR 官方页面 ↗

作者与单位

Kingsley V. Chow1, Tam Binh Bui1, Denise M. Wolf2, Annuska Glas3, Zheyun Xu4, Gillian L. Hirst5, I-SPY2 investigators, Amy Clark6, Julia Wulfkhule7, Angie DeMichele8, Emanuel Frank Petricoin7, Laura J. Esserman5, Jennifer Rosenbluth9, Laura van 't Veer1, Rosalyn W. Sayaman1

1UCSF - University of California San Francisco, San Francisco, CA,2UCSF - University of California San Francisco, Berkeley, CA,3Quantum Leap Healthcare Collaborative, San Francisco, CA,4Yale University, New Haven, CT,5UCSF Helen Diller Family Comprehensive Cancer Ctr., San Francisco, CA,6University of Pennsylvania-Penn Presbyterian, Philadelphia, PA,7George Mason University, Manassas, VA,8University of Pennsylvania, Philadelphia, PA,9UCSF - University of California San Francisco, Boston, MA

摘要 Abstract

Background: HER2-positive breast cancer (HER2+) accounts for approximately 20% of all breast cancers. Major advances in HER2-targeted therapy have improved outcomes; however, substantial room for response improvement remains. Molecular subtyping by BluePrint (BP) stratifies HER2+ disease into HER2 and Luminal types. While BP-HER2 tumors achieve up to 78% pathologic complete response (pCR) with standard therapy, BP-Luminal tumors exhibit persistently low pCR rates (<15%). To address this unmet need, we profiled pretreatment molecular features distinguishing responders from non-responders across all HER2+ tumors and within BP subtypes to identify druggable pathways for rational combination or repurposing strategies. Methods: Baseline microarray profiles from 305 pretreatment HER2+ tumors (87 BP-Luminal, 218 BP-HER2) enrolled across five investigational agents or standard of care in the I-SPY2 trial were analyzed using Gene Set Variation Analysis (GSVA) across 2,265 canonical pathway gene sets. Differential pathway enrichment was assessed using linear models adjusting for treatment arm and false-discovery rate. Two comparisons were performed: (1) pCR vs. no pCR overall and within subtypes, and (2) BP-HER2 vs. BP-Luminal. Shared response- and subtype-specific pathways were grouped by functional similarity and cross-referenced with drug-target databases to identify FDA-approved or investigational compounds. Results: Across HER2+ tumors and within BP-HER2, we identified 42 pathways enriched in non-responders that were also elevated in BP-Luminal relative to BP-HER2, suggesting a luminal-linked resistance program even in non-luminal tumors. These pathways converged into eight metabolic and signaling themes. Growth-factor/RTK bypass (PI3K/AKT) and DNA repair & oxidative stress defense were strongly upregulated in non-responders within BP-HER2, revealing actionable nodes involving PI3K/AKT (alpelisib, capivasertib), IGF1R (linsitinib), MET (crizotinib, capmatinib), and DNA repair (PARP inhibitors). Notably, metabolic rewiring and lipid homeostasis-targetable by vismodegib and sonidegib-were upregulated in non-responders across both BP subtypes, reflecting a shared metabolic vulnerability. Conclusions: Luminal biology-linked transcriptional programs may persist within the HER2+ BP-HER2 subtype and contribute to resistance. BP-HER2 non-responders exhibit coordinated activation of RTK-bypass and DNA repair pathways, exposing therapeutic vulnerabilities targetable by existing agents. Furthermore, targeting lipid metabolic reprogramming alongside anti-HER2 therapy may enhance efficacy and overcome resistance across both BP subtypes. Our future directions include testing these drug combinations in patient-derived HER2+ organoid models.
利益披露 Disclosure
K. V. Chow, None.. T. Bui, None.. A. Glas, None.. Z. Xu, None.. J. Wulfkhule, None.. A. DeMichele, None.. J. Rosenbluth, None.. L. van 't Veer, None.. R. W. Sayaman, None.

在会议检索中打开