Abstract 3071: Differential susceptibility of breast cancer cells to mitochondrial dysfunction induced by Wnt inhibitors

Abstract

Abstract Advances in research have shown that cancer cells have distinctive bioenergetic alterations to meet their energy requirements. It has been established that certain cancers are significantly reliant on mitochondrial respiration, suggesting that modulation of mitochondrial function may have therapeutic value. The Wnt signaling pathway is a potential therapeutic target of cancer, including breast and colorectal cancers. Recent findings suggest that bi-directional crosstalk between Wnt signaling and mitochondrial function plays a crucial role in tumorigenesis, as well as differentiation and self-renewal of stem cells. In this study, 71 agents known to alter Wnt signaling were screened for effects on mitochondrial function in BT474 and Hs578T breast cancer cell lines, which have highly oxidative and highly glycolytic bioenergetic phenotypes, respectively. This screen was performed using the Agilent Seahorse XF Mito Tox assay, which enables sensitive detection and characterization of mitochondrial modulators via a standardized, quantitative parameter, the Mito Tox Index (MTI). The MTI facilitates the comparison of drug efficacy by detecting modes of mitochondrial toxicity, inhibition, and uncoupling. The MTI-based screening of the Wnt modulators identified one inhibitor and two uncouplers as potent agents inducing mitochondrial dysfunction for both BT474 and Hs578T. Despite their distinctive bioenergetic phenotypes, MTI-based dose-response assays revealed no significant differences in the efficacy of these modulators between BT474 and Hs578T cell types. In contrast, significant differential effects on ATP production rates were detected, showing cellular energy depletion induced by these agents. Using the Agilent Seahorse XF Real-Time ATP Rate assay, BT474 cells showed significant metabolic energy crisis in the presence of all 3 compounds, whereas Hs578T cells maintained stable total ATP production. This differential impact on ATP production rate corresponds directly to differences in cell viability, with BT474 showing higher susceptibility to these compounds. These results suggest that the anti-cancer efficacy of mitochondrial modulators can be different depending on the metabolic phenotype of the target cell and should be considered in therapeutic design. Citation Format: Yoonseok Kam, Lisa Winer, George W. Rogers, Natalia Romero. Differential susceptibility of breast cancer cells to mitochondrial dysfunction induced by Wnt inhibitors [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 3071.