Abstract B21: the Effect of Mutant Kras Associated Changes in Redox Signaling in Pancreatic Neoplasia.

Abstract Recent studies have suggested that mutant Kras associated activation of the Nrf2 pathway may have a significant role in pancreatic cancer (PaCa) tumorigenesis. Nrf2 regulates a battery of antioxidant genes, including peroxiredoxin-1 (Prdx-1), that are responsible for maintaining redox homeostasis in the cell. While ROS detoxification may have significant roles in cancer, several non-classical mechanisms of redox signaling associated with protein oxidation and phosphorylation are also important in tumorigenesis. Prdx-1 can regulate transcription as a cofactor in multiple oxidation states, represses tumorigenesis in its reduced state, and can act as a nuclear chaperone in elevated states of oxidation and when phosphorylated. We are therefore investigating the role of Prdx-1 and its oxidation states in oncogenic signaling pathways in mutant Kras models of pancreatic tumorigenesis and neoplasia. Our data suggests that throughout tumor progression, Prdx-1 is differentially regulated and that its localization changes. In vitro, neoplastic and tumorigenic pancreatic cell lines have more total prdx-1 expression and oxidized Prdx-1 expression than non-tumorigenic cell lines. Moreover, cells that have mutant Kras were associated with higher levels of protein oxidation than those with wildtype Kras expression. Interestingly, mutant Kras was also associated with differences in pERK interaction with Prdx-1, which was also differentially regulated by NOX inhibitors and fatty acids that control pancreatic neoplasia. In addition, AKT, ERK , and FOXO3a phosphorylation were also differntially modified by DPI treatment and fatty acid treatment in wildtype and mutant Kras normal, neoplastic, and tumorigenic cell lines. We therefore conclude that mutant Kras is associated with elevated levels of Prdx-1 oxidation and that Kras mediated activation of ERK could be associated with changes in Prdx-1 signaling in pancreatic neoplasia. Citation Format: Michelle A. Schultz, Rital Shah, Brian DeCant, Windel E. Mascarinas, David Bentrem, Paul Grippo. The effect of mutant Kras associated changes in redox signaling in pancreatic neoplasia.. [abstract]. In: Proceedings of the Thirteenth Annual AACR International Conference on Frontiers in Cancer Prevention Research; 2014 Sep 27-Oct 1; New Orleans, LA. Philadelphia (PA): AACR; Can Prev Res 2015;8(10 Suppl): Abstract nr B21.