Abstract 1379: INCB059872, a novel FAD-directed LSD1 Inhibitor, is active in prostate cancer models and impacts prostate cancer stem-like cells

Cancer of the prostate is one of the most common malignancies and the second leading cause of cancer death in men in developed countries. There is increasing evidence that cancer stem-like cells (CSCs) are implicated in CRPC disease progression and treatment resistance. Transcriptional, epigenetic and metabolic reprogramming are key features for the acquisition and maintenance of stem-like properties. Understanding the factors regulating self-renewal and survival of prostate CSCs may offer novel targets for innovative therapeutic strategies. LSD1/KDM1A is a lysine demethylase for histone and non-histone proteins and functions as transcriptional corepressor or coactivator depending on the binding partners and substrates. LSD1 is a key epigenetic modifier controlling the fate of pluripotent stem cells in several tissues. Overexpression of LSD1 is found in many human cancers and has been linked to tumorigenic and CSC-like features. The involvement of LSD1 in stem cell pluripotency and differentiation suggests that LSD1 inhibitors, such as INCB059872, might be useful to target the prostate CSC subpopulation. Here, we examined the effects of INCB059872 on the growth properties, self-renewal and tumorigenic capability of prostate CSCs derived from human cell lines and the Pb-Cre4;Ptenflox/flox;Rosa26ERG/ERG (ERG/PTEN) mice, which develop highly invasive prostate adenocarcinomas. In ex vivo tumor-sphere assays, INCB059872 significantly suppressed the growth of tumor-initiating stem-like cells isolated from prostatic tumors generated in ERG/PTEN mice. Furthermore, treatment with INCB059872 inhibited colony and tumor-sphere formation by human prostate cancer cells. Conversely, the effects on proliferation and viability of bulk tumor cells were limited and required long-term exposure to the drug. These effects were observed in multiple prostate cancer cell lines, irrespective of the distinctive genetic features and AR status. Importantly, genetic knockdown of LSD1 by siRNAs and shRNAs recapitulated the effects of INCB059872. Both transient and stable knockdown of LSD1 had limited effects on proliferation and viability of bulk tumor cells, whereas they significantly reduced growth of colony and tumor-sphere forming stem-like cancer cells. Furthermore, LSD1 knockdown drastically reduced tumor growth and tumorigenic stem-like cells in subcutaneous xenografts of human prostate cancer cells in nude mice. These results support the hypothesis that LSD1 has a major role in sustaining the stem-like and tumorigenic subpopulation in prostate tumors and its inhibition by chemical or genetic approaches prevents survival and self-renewal capability of prostate CSCs. These data suggest that INCB059872 could be a valid addition to the current treatment strategies for prostate cancer. INCB059872 is currently in phase1/2 clinical studies Citation Format: Gianluca Civenni, Giada Zoppi, Ramiro Vazquez, Dhreeraj Shinde, Alyssa Paganoni, Aleksandra Kokanovic, Sang Hyun Lee, Bruce Ruggeri, Giuseppina M. Carbone, Carlo V. Catapano. INCB059872, a novel FAD-directed LSD1 Inhibitor, is active in prostate cancer models and impacts prostate cancer stem-like cells [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 1379.