Faculty, Staff and Student Publications

Publication Date

1-7-2026

Journal

Cancer Research

DOI

10.1158/0008-5472.CAN-24-3891

PMID

41499130

PMCID

PMC12898867

PubMedCentral® Posted Date

2-13-2026

PubMedCentral® Full Text Version

Author MSS

Abstract

ESR1 mutations are the leading cause of endocrine therapy resistance and progression in ER-positive metastatic breast cancer. ESR1 mutations are detected in ~50% of metastatic breast cancer patients, and identification of effective targeted therapeutics are critically needed. Here, we identified enrichment of dysregulated replication stress and DNA damage responses in multiple ESR1 mutant models. Targeting the replication stress response utilizing checkpoint inhibition in combination with PARP inhibition synergistically suppressed growth, induced cell cycle arrest, and attenuated DNA replication. PARP inhibition blocked metastatic dissemination in vivo and reduced both PARP1 and ER-regulated protein expression. PARP trapping by olaparib treatment with or without endocrine therapy resulted in a significant increase of co-localized DNA-bound PARP1 and ER protein in ESR1 mutant cells, indicating ER-PARP1 co-regulation in ESR1 mutant breast cancer. Long-term treatment with endocrine therapy plus the CDK4/6 inhibitor abemaciclib led to the emergence of a Y537S ESR1 mutation in a cell line, which exhibited dysregulation of replication stress response, enhanced DNA damage response, and synergistic responses to inhibitors of these pathways. PARP inhibition also synergized with clinically relevant endocrine therapy in ESR1 mutant models, reducing tumor growth both ex vivo and in vivo. Together, these results identify replication stress and DNA damage responses as key dysregulated pathways in ESR1 mutant breast cancer with significant clinical potential for PARP inhibition in this metastatic breast cancer subset.

Published Open-Access

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