Abstract P6-12-08: Identifying FOXA1 Binding Partners using Proximity Labeling

Abstract

Abstract Approximately 75% of breast cancers are driven by the estrogen receptor alpha (ER), and despite the advent of endocrine therapy to block ER signaling pathways, a significant portion of women develop resistance to these drugs. The pioneer factor FOXA1 has been shown to facilitate nearly all DNA-binding events of ER in response to estrogen in ER+ breast cancer (ER+BC). Notably, up-regulation of FOXA1 is a hallmark of endocrine-resistant phenotypes and has been shown to reprogram enhancer elements, leading to an altered transcriptome. However, FOXA1 is a critical pioneer factor for multiple nuclear hormone receptors, aside from ER, and is implicated in regulation of important factors such as HER2 and the androgen receptor (AR). With the diverse array of breast cancer molecular subtypes displaying complex interplay between ER, HER2, AR, PR, and other hormone receptors, describing the complete ensemble of FOXA1 binding partners in various contexts, such as endocrine-resistant tumors, is of increasing importance. To define a comprehensive catalog of FOXA1 binding partners under basal conditions, we generated MCF-7 cell lines stably expressing constructs of FOXA1 fused at its N- or C-terminus to the biotin ligase miniTurbo. Using proximity labeling coupled with mass-spectrometry, we have comprehensively cataloged binding partners of FOXA1, including many expected proteins such as ER, AR, MLL3, YAP1, and GATA-3. Moreover, we have discovered more than 150 previously unidentified binding partners of FOXA1, which may exert profound effects on FOXA1 function. Importantly, high hazard ratios and significant dependencies are associated with several of these new binding partners, such as subunits of a previously described histone deacetylase (HDAC) complex containing genetic suppressor element 1 (GSE1) and lysine-specific histone demethylase 1A (KDM1A). Genomic approaches are currently underway to characterize where in the genome FOXA1 is interacting with these novel proteins and to guide future exploration into the physiological significance of these interactions. Integrating biochemical, molecular, and genomic approaches, we have potentially highlighted new mechanisms of FOXA1, which could have significant clinical impact in the future. Citation Format: Rosemary N. Plagens, Shen Li, Christine A. Mills, Laura Herring, Hector L. Franco. Identifying FOXA1 Binding Partners using Proximity Labeling [abstract]. In: Proceedings of the 2022 San Antonio Breast Cancer Symposium; 2022 Dec 6-10; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2023;83(5 Suppl):Abstract nr P6-12-08.