ABSTRACT
Pancreatic cancer is characterized by an extensive fibroinflammatory microenvironment. During carcinogenesis, normal stromal cells are converted to cytokine-high cancer associated fibroblasts (CAFs). The mechanisms underlying this conversion, including regulation and function of fibroblast-derived cytokines, are poorly understood. Thus, efforts to target CAFs therapeutically have so far failed. Here, we show that signals from epithelial cells expressing oncogenic KRAS -a hallmark pancreatic cancer mutation- activate fibroblast autocrine signaling, which drives expression of the cytokine interleukin-33 (IL-33). Stromal IL-33 expression remains high and dependent on epithelial KRAS throughout carcinogenesis; in turn, environmental stress induces IL-33 secretion. Using compartment-specific IL-33 knockout mice, we observed that lack of stromal IL-33 leads to profound reprogramming of multiple components of the pancreatic tumor microenvironment, including CAFs, myeloid cells and lymphocytes. Notably, loss of stromal IL-33 leads to an increase in CD8+ T cell infiltration and activation, and, ultimately, reduced tumor growth.
ABSTRACT
PURPOSE: Pancreatic ductal adenocarcinoma (PDAC) is generally divided in two subtypes, classical and basal. Recently, single cell RNA sequencing has uncovered the co-existence of basal and classical cancer cells, as well as intermediary cancer cells, in individual tumors. The latter remains poorly understood; here, we sought to characterize them using a multimodal approach. EXPERIMENTAL DESIGN: We performed subtyping on a single cell RNA sequencing dataset containing 18 human PDAC samples to identify multiple intermediary subtypes. We generated patient-derived PDAC organoids for functional studies. We compared single cell profiling of matched blood and tumor samples to measure changes in the local and systemic immune microenvironment. We then leveraged longitudinally patient-matched blood to follow individual patients over the course of chemotherapy. RESULTS: We identified a cluster of KRT17-high intermediary cancer cells that uniquely express high levels of CXCL8 and other cytokines. The proportion of KRT17High/CXCL8+ cells in patient tumors correlated with intra-tumoral myeloid abundance, and, interestingly, high pro-tumor peripheral blood granulocytes, implicating local and systemic roles. Patient-derived organoids maintained KRT17High/CXCL8+cells and induced myeloid cell migration in an CXCL8-dependent manner. In our longitudinal studies, plasma CXCL8 decreased following chemotherapy in responsive patients, while CXCL8 persistence portended worse prognosis. CONCLUSIONS: Through single cell analysis of PDAC samples we identified KRT17High/CXCL8+ cancer cells as an intermediary subtype, marked by a unique cytokine profile and capable of influencing myeloid cells in the tumor microenvironment and systemically. The abundance of this cell population should be considered for patient stratification in precision immunotherapy.
