Abstract 3584: Context matters: Genomic profiling of PR isoform-specific actions in breast cancer stem cells reveals novel therapeutic insights for ER+ breast cancer

Abstract

Abstract Exposure to progesterone is a recognized risk factor for breast cancer, and PGR polymorphisms are associated with various malignancies. The two progesterone receptor (PR) isoforms, full length PR-B and truncated PR-A, are expressed from the PGR gene in breast tissue and play crucial roles in normal physiology. An imbalance in the expression ratio of these isoforms, favoring increased levels of PR-A, is common in breast cancer and is associated with resistance to tamoxifen in Luminal A-type tumors. Notably, PRs have recently been implicated in promoting endocrine resistance and driving the expansion of cancer stem-like cell (CSC) populations implicated in early dissemination and maintenance of metastatic populations. Because prior gene expression studies were primarily conducted in 2D culture conditions, the isoform-specific molecular and epigenetic mechanisms underlying PR actions in advanced ER+ breast cancer remain elusive. Our goal was to define progesterone-driven gene expression in CSC cells by employing transcriptomic profiling of T47D cells cultivated in spheroid-culture conditions (3D) expressing exclusively PR-A or PR-B. Utilizing CUT&RUN, we have mapped the genomic binding sites unique to each PR isoform and identified shared sites. This genomic data has been integrated with phenotypic studies in cells expressing a single PR isoform. Our findings indicate that PR-A acts as a regulator of the cell cycle and senescence, while PR-B plays a pivotal role in cell metabolism and intracellular signaling. We find little overlap between PR-regulated gene sets derived from the same hormone-treated cells harvested from 2D relative to 3D conditions. Our genomic profiling of PRs in this 3D model system has unveiled novel strategies to combat CSC outgrowth and late recurrence in luminal breast cancer patients. This work has shifted our prior understanding of the role of PRs in gene regulation within the CSC population, and offers potential insights for therapeutic interventions in ER+ breast cancer. Citation Format: Noelle E. Gillis, Thu H. Truong, Jessica Finlay-Schultz, Carol A. Sartorius, Carol A. Lange. Context matters: Genomic profiling of PR isoform-specific actions in breast cancer stem cells reveals novel therapeutic insights for ER+ breast cancer [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 3584.