Abstract 2406: LSD1 promotes castration-resistant prostate cancer cell survival independently of the androgen receptor and of histone demethylation

Background: Androgen deprivation therapy (ADT) or interference with androgen receptor (AR) function is the principal treatment for advanced prostate cancer. However, progression is universal, and therapies following the emergence of castration resistance do not offer durable control of the disease. Lysine specific demethylase 1 (LSD1) is a histone demethylase and a key regulator of gene expression in cancer. Prior work demonstrates that LSD1 may act as a cofactor of the AR in androgen-dependent prostate cancer cells. In this report, we describe a distinct role of LSD1 as a driver of proliferation and survival of castration-resistant prostate cancer (CRPC) cells independently of the AR and independently of histone demethylation. Methods: We used gain and loss of function studies to determine the importance of LSD1 for survival of prostate cancer cells. To identify transcriptional networks that contribute to cell survival, we suppressed LSD1 with RNAi and measured gene expression changes with microarrays. To determine the importance of histone demethylation in regulation of these gene networks, we suppressed LSD1 and measured levels of LSD1 canonical histone substrates (H3K4me2 and H3K9me2) genome-wide with chromatin immunoprecipitation-sequencing. Results: Cell viability assays demonstrated that LSD1 is important for proliferation and survival of CRPC cells independently of the AR. Microarray studies demonstrated that LSD1 activates androgen-independent genes that comprise cell cycle and embryonic stem cell maintenance gene sets that are enriched in lethal human tumors. Importantly, our global epigenomic studies after LSD1 suppression demonstrated that LSD1 activates these gene sets independently of demethylation of its canonical histone substrates. Conclusions: Our results demonstrate that LSD1 promotes CRPC cell survival independently of the AR and suggest that LSD1 regulates key pathways in CRPC through demethylation of non-histone substrates or via a scaffold function―mechanisms we are currently investigating. In summary, LSD1 contributes to CRPC cell survival through non-canonical mechanisms and represents an attractive therapeutic target in lethal prostate cancer. Citation Format: Archana Sehrawat, Lina Gao, Junior Tayou, Armand Bankhead, Laura M. Heiser, Carly J. King, Yuliang Wang, Jacob Schwartzman, Joshua Urrutia, Daniel J. Coleman, Sheila Weinmann, Bhaskar V. Kallakury, Deborah L. Berry, Reina Haque, Stephen K. Van Den Eeden, Tomasz M. Beer, Geor