Abstract PD1-07: Mutant ESR1 receptors antagonize the tumor suppressor function of androgen receptors

• Published in: Cancer research (Chicago, Ill.) Vol. 82; no. 4_Supplement; p. PD1-07
• Main Authors: Grimm, Sandra L., Gu, Guowei, Herzog, Sarah K., Gonzalez, Thomas L., Lin, Hangqing, Beyer, Amanda R., Rechoum, Yassine, Bawa-Khalfe, Tasneem, Khan, Ashfia F., Du, Lili, Symmans, W. Fraser, Kittler, Ralf, Coarfa, Cristian, Fuqua, Suzanne A.W.
• Format: Journal Article
• Language: English
• Published: 15.02.2022
• ISSN: 0008-5472; 1538-7445
• DOI: 10.1158/1538-7445.SABCS21-PD1-07

Abstract Background: Acquired ESR1 mutations are a dominant driver of distant metastasis in metastatic breast cancer, inducing a basal-like phenotype that is relatively resistant to ER antagonists with decreased progression free survival. The majority of ER+ patients also express the androgen receptor (AR), and although AR expression is associated with better outcomes, high AR expression has also been associated with resistance to endocrine therapy (ET). Thus, there is currently a conundrum on how best to target AR, and to define when it is participating as a proliferative/metastatic driver, or when it may be a potential tumor suppressor associated with good prognosis. Methods: We generated ESR1 Y537S or D538G homozygous mutations in MCF-7 cells using CRISPR Cas-9 technology. ChIP-Seq, transcriptome analyses, and quantitative analysis of ER ChIP-Seq profiles from patient biopsies were integrated. Nuclear fractionation and immunoblot analyses were performed. Results: Correlation and gene set enrichment analyses demonstrated that the androgen response pathway was significantly reduced in ESR1 mutant, compared to wild-type (WT) ER cells. A dramatic redistribution in AR binding sites to heterochromatin was observed in ESR1 mutant cells. AR and ER co-occupied DNA binding sites were redistributed only to ERE motifs present in a restricted set of gene enhancer regions. Quantitative analysis of ER DNA binding profiles from ER+ patients showed that the highest recruitment of ER to AR/ER binding sites were in patients with metastatic breast cancer. Integration of AR/ER co-bound sites with the differentially-expressed mutant transcriptome identified a gene signature that predicted poor disease-free and overall survival in ER+ primary breast cancer patients from the METABRIC database. Elevated gene expression of these AR/ER co-regulated genes, including NCOA3, BMP7, N4BP3, and FOXA1, were validated in a cohort of metastatic tumors (N=97), compared to primary tumors (N=276). AR protein levels were elevated in ESR1 mutant tumors. Mechanistic studies demonstrated that elevated AR phosphorylation at specific sites (pS515, pS650) and decreased phosphorylation (pS308) occurs in mutant cells. These sites are known to affect AR transcriptional activity, protein stability, and nuclear export. Decreased K48-AR ubiquitination was observed, suggesting that elevated AR protein levels result from altered post-transcriptional modification of AR in mutant cells. Conclusions: We propose a two-prong genomic activation mechanism in ESR1 mutant tumors with AR redistribution to heterochromatin, and genomic co-activation of AR and ER. We hypothesize that the loss of AR tumor suppressor function may help drive metastasis in ESR1 mutant tumors via AR’s collaboration with ESR1 mutant oncogenic activity. Efficacious targeting of AR may require disruption of this driver AR/ER-regulated transcriptional program. Citation Format: Sandra L. Grimm, Guowei Gu, Sarah K. Herzog, Thomas L. Gonzalez, Hangqing Lin, Amanda R. Beyer, Yassine Rechoum, Tasneem Bawa-Khalfe, Ashfia F. Khan, Lili Du, W. Fraser Symmans, Ralf Kittler, Cristian Coarfa, Suzanne A.W. Fuqua. Mutant ESR1 receptors antagonize the tumor suppressor function of androgen receptors [abstract]. In: Proceedings of the 2021 San Antonio Breast Cancer Symposium; 2021 Dec 7-10; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2022;82(4 Suppl):Abstract nr PD1-07.