Abstract 1844: Genome wide analysis of AR-cell cycle interplay reveals novel functions in cancer

Proceedings: AACR 106th Annual Meeting 2015; April 18-22, 2015; Philadelphia, PA The androgen receptor (AR) plays a vital role in prostate cancer (PCa) due in part to its ability to interact with cell cycle components in order to drive cell cycle transition. Numerous points of cross-talk have been identified, wherein specific components of the cell cycle machinery “feed back” to modulate AR function, and these interactions are thought to be altered in human malignancies. Despite these observations, the majority of genome wide analyses for AR have been performed in cells that have exited cell cycle (G0). Here, the cell cycle dependent AR transcriptome and cistrome was identified, revealing new and unexpected functions for AR in cycling tumor cells. In studies to be discussed, cells were arrested in 5 distinct phases of the cell cycle, stimulated with androgen, and AR activity assessed through gene expression and ChIP-Seq analyses. In AR binding analyses, significant overlap was seen with previously identified sites, but were accompanied by novel binding events that could be segregated into those that are specific to cycling cells and occur in all phases (“cell cycle common”) or show cell cycle stage specific binding (“phase exclusive”). Over 50% of the cell cycle common sites, and up to 95% of the phases exclusive sites were novel AR occupied sites. Additionally, using a “guilty by association” approach to determine potentially AR regulated genes from this novel cistromic data, it was determined that close to 50% of cell cycle common, and 70% of phase exclusive binding uncover novel candidates for AR regulation. Cistrome data was therefore overlaid with microarray data, to prioritize discovery of meaningful, cell cycle specific AR binding events. Analyses to be discussed reveal striking new insight into disease relevant AR function. In sum, these data rigorously demonstrate that AR acts in a cell cycle dependent manner, and that these functions of AR have a major impact on tumor cell phenotypes. Citation Format: Christopher McNair, Jonathan Goodwin, Michael Augello, Alfonso Urbanucci, Matthew Schiewer, Clay Comstock, Adam Ertel, Liguo Wang, Qianben Wang, Ian Mills, Wei Li, Jason Carroll, Karen Knudsen. Genome wide analysis of AR-cell cycle interplay reveals novel functions in cancer. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 1844. doi:10.1158/1538-7445.AM2015-1844