Abstract A02: PKCι in pancreatic cancer development: A possible role for autophagy

Abstract

Abstract Pancreatic cancer is the fourth leading cause of cancer death in the United States with current 5-year survival rates at 6%. Greater than 90% of all pancreatic cancers harbor an activating mutation in codon 12 of the Kras gene (KrasG12D). Protein Kinase C iota (PKCι) has been shown to mediate KrasG12D downstream signaling and acinar-to-ductal metaplasia in an explant model of pancreatic cancer initiation. Additionally, inhibition of PKCι in human pancreatic cancer cells leads to decreased tumor size, angiogenesis, and metastasis in an orthotopic tumor model, suggesting that PKCι plays a role in maintaining the oncogenic phenotype of pancreatic cancer cells. We sought to test the hypothesis that PKCι plays a role development and maintenance of pancreatic cancer using a mouse model of KrasG12D-induced pancreatic cancer. Purpose: To identify the effect of PKCι loss on pancreas function and development of KrasG12D-induced pancreatic cancer. Procedures: Pancreata from mice with pancreas-specific deletion of PKCι, with and without pancreas-specific KrasG12D expression, were analyzed for histological and protein expression alterations. Acinar cells isolated from these transgenic mouse models were subjected to in vitro analyses to determine the role of PKCι in pancreatic cell homeostasis. Results: Mice lacking pancreatic PKCι survived and developed normally. Pancreatic knockout of PKCι expression resulted in a phenotype consistent with a defect in autophagic flux. In vitro analyses of isolated acinar cells supported the hypothesis that PKCι promotes autophagy in pancreatic cells. Autophagy exhibits a dual functionality in pancreatic cancer, acting as a tumor suppressor in normal cells and a tumor promoter in established tumor cells. We sought to determine the effect of PKCι knock-out on both of these cell types in a mouse model of pancreatic cancer. Using the LSL mouse model of K-ras induced pancreatic cancer, we demonstrated that pancreatic loss of PKCι lead to an increase in the number of Pancreatic Intraepithelial (PanIN) lesions formed in young mice. However, these lesions were protected from progressing past the early PanIN1/2 stage such that no mice lacking PKCι developed cancer, even after 1.5 years of age. By contrast, over 50% of mice with wild-type PKCι developed cancer; of those without cancer, many had progressed to the PanIN-3 stage, a stage representative of carcinoma in-situ. These data are similar to that seen in mouse models of pancreatic cancer with genetic inhibition of autophagy. Analysis of PanINs in these mice revealed that those lacking PKCι expressed significantly more P62 protein, a selective autophagy substrate, compared to PanINs with wild-type PKCι, supporting a block in the autophagic flux. These data suggest that PKCι plays an important role in both the initiation and progression of pancreatic cancer, possibly by regulating autophagic flux. Impact: Inhibition of pancreatic PKCι expression prevented progression of PanIN lesions past the early PanIN1/2 stage, resulting in a complete block in cancer development in mouse models of pancreatic cancer. Our preliminary data suggests that PKCι promotes cancer progression by regulating autophagic flux, a process that has been shown to be essential for KrasG12D-mediated pancreatic cancers. Pancreatic cancer is characterized by resistance to current therapies. Novel targets for new and more effective therapies are critical to improve outcomes for patients with this deadly disease. Inhibitors of PKCι are currently in clinical trials for ovarian and lung cancers. Our data supports the feasibility of using PKCι inhibitors for therapy in pancreatic cancer. Citation Format: Kristin S. Inman, Amanda A. Francis, Nicole R. Murray. PKCι in pancreatic cancer development: A possible role for autophagy. [abstract]. In: Proceedings of the AACR Special Conference on Pancreatic Cancer: Innovations in Research and Treatment; May 18-21, 2014; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2015;75(13 Suppl):Abstract nr A02.