THU570 Isoform Specific Gene Regulation By Progesterone Receptors Drives Expansion Of Breast Cancer Stem Cell Expansion In 3D Cell Culture Models

Abstract Disclosure: N.E. Gillis: None. T.H. Truong: None. C.A. Lange: None. Exposure to progesterone is a risk factor for breast cancer, and numerous PGR polymorphisms are linked to breast, endometrial, and ovarian cancer. Two progesterone receptor (PR) isoforms are expressed from PGR in breast tissues: full-length PR-B and truncated PR-A. In normal breast epithelia, PR isoforms are equally expressed and mostly function as A:B heterodimers. An imbalance of this ratio, and thus a predominance of homodimers, is frequent in ER+ breast cancer. Luminal A-type estrogen receptor positive (ER+) tumors often exhibit an elevated PR-A:PR-B ratio that predicts resistance to tamoxifen. It has recently been shown that PRs promote endocrine resistance and drive expansion of breast cancer stem-like cell (CSC) populations. However, the isoform-specific molecular mechanisms of PR action in ER+ breast cancers remain undefined. The goal of our current work is to map the progesterone-driven gene expression in CSC cells through transcriptomic profiling of T47D cells grown in spheroid-culture conditions that express exclusively PR-A or PR-B. This transcriptomic data has been integrated with phenotypic studies of T47D and MCF7 cells that express a single isoform of PR. Our data shows PR-A is a regulator of the cell cycle and of senescence, while PR-B mediates cell metabolism and intracellular signaling. We further integrated our cell line data with transcriptomes from patient tumors that have been classified based on their PR-A:PR-B ratio and their response to treatment with anti-progestins. Our results are a first step towards re-defining the role of PRs in gene regulation within the CSC population. Presentation Date: Thursday, June 15, 2023