Abstract
Estrogen receptor positive (ER+) breast cancer is a leading cause of cancer-related death globally. Resistance to standard of care endocrine treatment occurs in at least 30% of ER+ breast cancer patients resulting in ~40,000 deaths every year in the US alone. Preclinical studies strongly implicate activation of growth factor receptor, HER2 in endocrine treatment resistance of ER+ breast cancer that is HER2- at diagnosis1,2. However, clinical trials of pan-HER inhibitors in ER+/HER2- patients have disappointed, likely due to a lack of predictive biomarkers3-6. Here we demonstrate that loss of MLH1, a principal mismatch repair gene, causally activates HER2 in ER+/HER2- breast cancer upon endocrine treatment. Additionally, we show that HER2 activation is indispensable for endocrine treatment resistant growth of MLH1- cells in vitro and in vivo. Consequently, inhibiting HER2 restores sensitivity to endocrine treatment in multiple experimental models including patient-derived xenograft tumors. Patient data from multiple clinical datasets (TCGA, METABRIC, Alliance (Z1031) and E-GEOD-28826) supports an association between MLH1 loss, HER2 upregulation, and sensitivity to trastuzumab in endocrine treatment-resistant ER+/HER2- patients. These results provide strong rationale that MLH1 could serve as a first-in-class predictive marker of sensitivity to combinatorial treatment with endocrine drugs and HER inhibitors in endocrine treatment-resistant ER+/HER2- breast cancer patients. Implications of this study extend beyond breast cancer to Lynch Syndrome cancers.
One Sentence Summary Defective mismatch repair activates HER2 in HER2-negative breast cancer cells and renders them susceptible to HER2 inhibitors.
Competing Interest Statement
MJE has intellectual property ownership and received royalties for the PAM50-based breast cancer test Prosigna. In the last 5 years he has received ad hoc consulting fees and meals (less than $5000 per year) from Abbvie, Novartis, AstraZenica, Pfizer, Sermonix, and Puma. MJE is a McNair Foundation Fellow and Susan G. Komen Scholar. SMK is a stakeholder in NeoZenome Therapeutics Inc.