Abstract A22: Kras drives changes in acinar-specific gene regulatory networks in early pancreatic neoplasia in conjunction with Bmi1

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Abstract The initial stages of pancreatic ductal adenocarcinoma (PDA) involve an oncogenic Kras-driven metaplastic transition of acinar cells to a more duct-like phenotype referred to as acinar to ductal metaplasia (ADM). The exact mechanism by which Kras reprograms acinar cells to a more duct-like cell at the genomic level is not completely understood. Developmental transcription factor (TF) networks regulate and maintain the fate of cells in other contexts and rely on appropriate chromatin context for their activity. Deletion of Bmi1, a component of the Polycomb Repressor Complex 1, completely represses Kras-driven ADM and neoplasia in genetically engineered mouse models of PDA. Thus, we hypothesized that Kras reprograms the acinar fate TF network to promote PDA in a Bmi1-dependent epigenetic context. We used a genetically engineered mouse model of early pancreatic neoplasia bearing an acinar cell-specific tamoxifen inducible Cre-recombinase under the elastase promoter (Ela-CreER) combined with the Kras G12D oncogenic allele (Kras−LSL-G12D/+). We added the conditional Bmi1 knockout allele (Bmi1−fl) and the Rosa26 tdTomato reporter to generate Ela-CreER, Kras−LSL-G12D/+, Bmi1−fl/fl, R26 tdTomato mice and their litter mate controls with and without KrasG12D and Bmi1. We activated the Cre-recombinase in 6- to 8-week-old mice with 5 daily tamoxifen gavages (4mg/day) prior to induction of acute pancreatitis by intraperitoneal caerulein administration (eight doses per day for two days) one week after the first tamoxifen dose. We used FACS to sort tdTomato+ cells one week after pancreatitis induction and analyzed RNA expression levels of 26 TFs, previously reported to play a role in pancreatic development, homeostasis and neoplasia. Expression levels of three lineage markers (amylase, elastase and cytokeratin 19) were also measured by quantitative RT-PCR. Tamoxifen gavage induced high tdTomato expression in the acinar compartment of Ela-CreER+ mice. RT-qPCR of tdTomato+ cells indicated a loss of acinar specific TFs in mice expressing mutant Kras one week after induction of pancreatitis. This is consistent with cells undergoing ADM. Genetic ablation of Bmi1 in the presence of mutant Kras restored elastase and amylase expression at the mRNA level. At the morphologic level, loss of Bmi1 also led to recovery of acinar cells from ADM and correlated with an increase in expression of three key acinar-specific fate TFs, Mist1, Hnf1a and Nr5a2. The mRNA expression levels of other acinar TFs like Pdx1 and Ptf1a/p48 did not recover with loss of Bmi1 and mutant Kras expression. Together, our data suggest that oncogenic Kras-driven ADM is controlled by changes in master TF gene regulatory networks. Bmi1 deletion leads to partial reprogramming of these networks to allow acinar cells to resist Kras-driven oncogenesis. Citation Format: Joyce K. Thompson, Jack Blumberg, Osama Alkahili, Howard C. Crawford, Marina Pasca di Magliano, Filip Bednar. Kras drives changes in acinar-specific gene regulatory networks in early pancreatic neoplasia in conjunction with Bmi1 [abstract]. In: Proceedings of the AACR Special Conference on Targeting RAS-Driven Cancers; 2018 Dec 9-12; San Diego, CA. Philadelphia (PA): AACR; Mol Cancer Res 2020;18(5_Suppl):Abstract nr A22.