Abstract A048: Novel murine models of ARID1A and PBRM1-deficient cholangiocarcinoma for preclinical discovery and development

Abstract

Abstract Genes encoding SWI/SNF chromatin remodeling complex subunits are recurrently mutated across human cancers. In cholangiocarcinoma (CCA), AT-rich interaction domain-1A (ARID1A) and polybromo-1 (PBRM1) loss of function mutations occur in approximately 18 and 10% of cases respectively. Yet our mechanistic understanding and ability to therapeutically exploit ARID1A and PBRM1 deficiency are immature. Genetically accurate preclinical models are needed to define the role of ARID1A and PBRM1 and test therapeutic approaches in CCA. Analysis of human CCA tumors showed that loss of function mutations in ARID1A and PBRM1 frequently co-occur with each other and with PI3K/AKT pathway activation. Therefore, we developed novel murine models of cholangiocarcinoma initiated by Arid1a knockout or dual Arid1a/Pbrm1 knockout in the context of AKT activation, employing a surgical biliary transfection method for somatic gene editing with CRISPR/Cas9. Mice with cholangiocyte Arid1a knockout and AKT activation (AAC) or dual Arid1a/Pbrm1 knockout and AKT activation (APAC) formed numerous liver tumors within 8 months. Histologically, tumors were predominantly CCA and mixed HCC/CCA, with a similar spectrum of tumors across AAC and APAC mice. Gene editing with CRISPR/Cas9 was confirmed at the DNA level, and loss of protein expression was confirmed in tumor cells by immunohistochemistry. Similar to human CCA, many tumors were densely infiltrated with cancer-associated fibroblasts and a variable degree of CD45+ immune cells. To generate scalable models for preclinical testing, tumors from AAC and APAC mice were dissociated to create cell lines for in vitro studies and propagated by orthotopic transplantation for in vivo studies. Cell lines and orthotopic tumors were validated and retained the genetic features and histologic characteristics of the parental tumors. Collectively these studies have produced a suite of novel, well-characterized, genetically relevant mouse models of epigenetic dysregulation in CCA due to ARID1A and PBRM1 deficiency, which can be used broadly for discovery research and preclinical testing of novel treatment approaches. Citation Format: Caitlin B. Conboy, Jennifer L. Tomlinson, Ryan D. Watkins, Jayla T. Millender, Danielle M. Carlson, Rory L. Smoot, Keith D. Robertson, Greg J. Gores. Novel murine models of ARID1A and PBRM1-deficient cholangiocarcinoma for preclinical discovery and development [abstract]. In: Proceedings of the AACR-NCI-EORTC Virtual International Conference on Molecular Targets and Cancer Therapeutics; 2023 Oct 11-15; Boston, MA. Philadelphia (PA): AACR; Mol Cancer Ther 2023;22(12 Suppl):Abstract nr A048.