Abstract 399: The glucocorticoid receptor and β-catenin interact in prostate cancer cells and their co-inhibition attenuates stemness and docetaxel resistance

Abstract The efficacy of anti-androgen receptor (AR) therapies and taxane-based chemotherapy for the treatment of advanced prostate cancer (PCa) is hindered by the development of therapy resistance. Our previous studies demonstrated that docetaxel (DTX)-resistant PCa cells activates a transcriptomic program associated with stemness and display cancer stem cell (CSC) properties, consistent with the notion that CSCs within prostate tumors contribute to chemoresistance. Glucocorticoid receptor (GR) signaling is a critical mediator of resistance to AR-targeted therapy, and has been recently implicated in the development of PCa cell tumorsphere formation and chemoresistance. Like GR, β-catenin is overexpressed in metastatic and therapy-resistant tumors, and is considered a key regulator of cancer stemness and androgen-targeted therapy resistance. Given the structural and functional overlap between GR and AR, a known interacting partner of β-catenin, we hypothesized that GR also interacts with β-catenin to support stemness and chemoresistance in PCa cells. We observed that treatment with the glucocorticoid dexamethasone induces enhanced nuclear accumulation of both GR and β-catenin in DTX-resistant PCa cells compared to their DTX-sensitive counterparts. Knockdown studies revealed that GR and β-catenin do no regulate each other at the protein level. However, using whole cell and nuclear co-immunoprecipitation, we demonstrated the interaction between GR and β-catenin in both DTX-resistant and DTX-sensitive PC3, DU145, and 22RV1 cells. Pharmacological inhibition and RNA interference-mediated silencing of GR with concomitant inhibition of β-catenin enhanced DTX cytotoxicity in resistant PCa cells grown in both adherent and spheroid cultures, and decreased CD44+/CD24- cell populations in tumorspheres. These results indicate that both GR and β-catenin interact and influence stemness, and may be promising therapeutic targets to overcome PCa chemoresistance. Citation Format: Shannalee R. Martinez, Catherine C. Elix, Pedro T. Ochoa, Evelyn S. Sanchez-Hernandez, Hossam R. Alkashgari, Greisha L. Ortiz-Hernandez, Lubo Zhang, Carlos A. Casiano. The glucocorticoid receptor and β-catenin interact in prostate cancer cells and their co-inhibition attenuates stemness and docetaxel resistance [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 399.