Abstract 3733: Combined targeting of estrogen receptor alpha and nuclear transport pathways remodel metabolic pathways to induce autophagy and overcome endocrine resistance

Abstract

Abstract Majority of breast cancer specific deaths in women with ERα (+) tumor occur due to metastases that are resistant to endocrine therapy. There is a critical need for novel therapeutic approaches to resensitize recurrent ERα (+) tumors to endocrine therapies. The objective of this study was to elucidate mechanisms of improved effectiveness of combined targeting of ERα and XPO1, a nuclear transport protein in overcoming endocrine resistance. Selinexor (SXR), an XPO1 antagonist, has been evaluated in multiple later stage clinical trials in patients with relapsed and /or refractory hematological and solid tumor malignancies. Using Cignalfinder to profile kinase signaling pathways, we found that 4-OH-Tam, SXR or their combination induced differential Akt phosphorylation profiles, changing the localization and activity of the kinase. Since we observed dramatic changes in Akt activity we hypothesized that metabolic profile of breast cancer cells would change in the presence of 4-OH-Tam and SXR. Using Seahorse metabolic profiler and cell viability experiments in limited media conditions we showed that tamoxifen resistant cells were more dependent on mitochondria for energy production. Their glucose and fatty acid dependency decreased in the presence of SXR and cells were more dependent on glutamine as the mitochondrial fuel source. In order to examine metabolic pathways that might result in the observed phenotype we performed transcriptomics and GC/MS whole metabolite profiling and identified aminoacid metabolism pathways to be upregulated when cells were treated with SXR+4-OH-Tam. We demonstrated that combined targeting of XPO1 and ERα rewires metabolic pathways and shuts down both glycolytic and mitochondrial pathways that would eventually lead to autophagy. Remodelling metabolic pathways to regenerate new vulnerabilities in endocrine resistant breast tumors is novel, and given the need for better strategies for improving therapy response of relapsed ERα(+) tumors, our findings show great promise for uncovering the role ERα-XPO1 crosstalk plays in reducing cancer recurrences. Citation Format: Zeynep Madak Erdogan, Eylem Cotul-Kulkoyluoglu, Kinga Wrobel, Sunati Sahoo, Barbara Haley, Yosef Landesman. Combined targeting of estrogen receptor alpha and nuclear transport pathways remodel metabolic pathways to induce autophagy and overcome endocrine resistance [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 3733.