Abstract

Epithelial ovarian cancer (EOC) is one of the deadliest gynecological cancers currently diagnosed in women with approximately 20,000 new cases and 15,000 deaths per year. Ovarian cancer can be stratified into distinct subtypes of which high-grade serous ovarian cancer (HGSOC) comprises 90% of all cases and has the highest mortality rate. Reducing the high mortality rate associated with HGSOC currently has two primary barriers: 1) most HGSOCs are diagnosed at a post-metastatic stage and 2) up to 70% of patients recur within 5 years. Both of these limitations are due to the fact that the drivers of tumor initiation are poorly understood. In order to change the status quo of the last 30 years, a new approach that focuses on understanding the origins of HGSOC is required. Our lab has recently discovered that miR-181a promotes key hallmarks of HGSOC progression in fallopian tube secretory epithelial cells (FTSECs) which are precursor cells of HGSOC. We show that enhanced expression of miR-181a in FTSECs results in increased proliferation, survival, and anchorage independent growth in vitro . Furthermore, FTSECs with miR-181a overexpression are able to form tumors in vivo whereas FTSECs that overexpress a control scramble miRNA cannot. Using cell cycle analysis, dynamic live-cell imaging, and SNP array analysis, we also found that miR-181a overexpression increases aneuploidy and genomic instability in FTSECs. We show that miR-181a promotes defects in nuclear structure, ruptures in the nuclear envelope, as well as mitotic and cytokinetic defects affecting proper chromosome segregation. A combination of global mRNA expression profiling and target prediction software identified the tumor suppressor retinoblastoma (RB1) as a target for miR-181a mediated FTSEC tumorigenesis. Using an RB1 3’UTR luciferase assay, along with stable expression of an shRNA against RB1 in FTSECs, we are able to show that miR-181a directly targets RB1 and that knockdown of RB1 phenocopies miR-181a mediated tumorigenesis. Taken together, our data shed light on a novel mechanism that promotes genomic instability and tumorigenesis in the early phases of HGSOC development. Our results suggest miR-181a as a promising early detection biomarker as well as a prognostic tool to guide patient treatment. Citation Format: Matthew Knarr, Lily Kwiatkowski, Anil Nagaraj, Ronny Drapkin, Analisa DiFeo. miR-181a is a key driver of genomic instability and ovarian cancer tumorigenesis through the regulation of RB1 [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 3557.

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