Abstract P3-11-15: A novel phytoalexin, glyceollins, trigger anti-proliferative effects in aromatase inhibitor resistant breast cancer cells

Aromatase inhibitors (AIs) are currently the standard treatment for postmenopausal women with estrogen-dependent metastatic breast cancer. While effective, patients develop resistance leading to tumor relapse, metastasis, and more aggressive phenotypes. Previous research suggested that AI resistance is due to upregulation of growth factor pathways (i.e., HER2 and EGFR) and increased cellular motility. Our lab previously demonstrated that a novel phytoalexin, glyceollins, inhibits proliferation, survival, and migration of hormone independent letrozole-resistant breast cancer cells (LTLT-Ca). However, many postmenopausal women with AI-resistance tumors remain hormone dependent. Therefore, there is a need to understand distinctions between estrogen receptor (ER+) positive and ER negative (ER-) AI resistant tumors and their response to therapy. We hypothesize that treating ER+ letrozole-resistant breast cancer using a combination approach of glyceollin and lapatinib (a dual EGFR/HER2 inhibitor) will reduce growth factor signaling, inhibit proliferation and motility. To test this hypothesis, T47Darom cells (T47D cells which stably overexpress aromatase) and T47DaromLR cells (T47Darom cells that are letrozole resistant) were treated with lapatinib, glyceollin, or the combination. To evaluate viability, resazurin assays were performed and results demonstrated that glyceollin and/or lapatinib had no effect on proliferation in the T47Darom cells. However, glyceollin alone and glyceollin + lapatinib inhibited proliferation of T47DaromLR cells by 46% and 59%, respectively. Cell survival was assessed by colony formation assays and glyceollin caused a 33% reduction in cell survival and glyceollin + lapatinib caused a 60% reduction in the colony formation of T47Darom cells. Interestingly, in T47DaromLR cells glyceollin and the combination significantly inhibited cell survival by 94% alone and 96%. To further evaluate changes that occur as AI sensitive cells transition to AI resistance, a quantitative proteomic analysis of the whole cell lysates of T47DaromLR (AI-resistant) versus T47Darom cells (AI-sensitive) was performed to identify significant protein expression changes. Results demonstrated a 3.195-fold-increase (p Citation Format: Rashidra R Walker, Jankiben Patel, A. Michael Davidson, Karen Gallegos, Syreeta L Tilghman. A novel phytoalexin, glyceollins, trigger anti-proliferative effects in aromatase inhibitor resistant breast cancer cells [abstract]. In: Proceedings of the 2019 San Antonio Breast Cancer Symposium; 2019 Dec 10-14; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2020;80(4 Suppl):Abstract nr P3-11-15.