dc.description.abstract | Pancreatic ductal adenocarcinoma (PDAC) is a disease with dismal prognosis. With five-year survival rates of less than 11%, PDAC is set to become the second leading cause of cancer related deaths by 2040. The role of pancreatic stellate cells in pancreatic ductal adenocarcinoma has been well established. However, to date, little remains know about the interaction between these crucial stromal cells and the innate lymphocytes, natural killer (NK) cells, in PDAC. Herein we demonstrate that naïve NK cells possess the functional efficacy to target and kill both quiescent (qPSC) and activated (aPSC) pancreatic stellate cells. Furthermore, qPSC, but not aPSC education of NK cells resulted in decreased NK cell-mediated cancer cell cytotoxicity. NK-PSC direct co-culture was found to modulate both PSC and NK phenotype, as well as functional changes within NK cells, an effect not observed with TranswellTM separation. Multiplex Luminex ELISA further revealed upregulation of IFN-γ and related chemokines in NK cells co-cultured with PSC (activated/quiescent), suggesting that this pathway may be involved in phenotypic modulation. Through global proteomic analysis we demonstrate NK cell-induced differential protein changes in aPSC versus qPSC. Furthermore, we demonstrate changes in intracellular NK pathways as a result of direct contact with PSCs, indicating a dynamic, bidirectional interaction between these two key players. Using multiplex immunohistochemical analysis, we demonstrate that NK cell proximity to CAFs, and not total NK cell infiltrate is correlated with overall survival in PDAC. Consequently, we suggest that the spatial biology of NK/CAFs may play a prognostic role in PDAC and may potentially be used as a tool for patient stratification Taken together, our results demonstrate a significant bidirectional relationship between NK cells and PSC/CAFs in the context of PDAC, providing novel insight into this crucial cell-cell interaction. | en_US |