Function of IL35+ B cells in pancreatic cancer

Pancreatic ductal adenocarcinoma (PDAC) is notoriously resistant to therapy and has a dismal 5-year survival rate. Development of PDAC is accompanied by changes in stromal responses and immune surveillance programs, which are now recognized as major drivers of PDAC tumor evolution and contribute to therapeutic

resistance. We have recently demonstrated that B cells expressing the immunomodulatory cytokine IL35 are necessary to support the growth of PDAC in murine models. The overarching goals of this proposal are to elucidate mechanisms underlying the tumor-promoting effect of IL35 expression in B cells, and to investigate the

translational potential of targeting the IL35 pathway as a novel means to augment immunotherapy for this disease. In Aim 1, we will define essential role for IL35 expressing B cells in establishing an immunosuppressive microenvironment in PDAC using B cell specific knockout of IL35 and chimeric bone marrow reconstitution. In

Aim 2, we will clarify how B cell receptor (BCR) and CD40 signaling contribute to induction of IL35 expression in tumor-reactive B cells. To accomplish this task, we will analyze mouse models expressing a fixed BCR with or without antigen exposure, as well as mouse models lacking CD40 signaling in B cells. We will also perform

signaling pathway analysis in primary B cells and B cell lines. In Aim 3, we will assess the translational potential of targeting pathogenic B cells in PDAC. Specifically, we will quantify, functionally characterize and study gene expression signature of IL35+ B cell subset in blood and surgically resected tissues from patients with PDAC.

Additionally, we will evaluate anti-IL35 therapy in combination with immune checkpoint blockade as a novel therapeutic strategy in syngeneic murine PDAC models. Our proposed research will provide an understanding of a previously uncharacterized facet of B cell-mediated function in PDAC, use state-of-the-art PDAC murine

models to test strategies that block immune suppressive pathways in TME to enhance the impact of T cell- reinvigorating therapies, and provide a quantitative and qualitative assessment of IL35+ B cells in human PDAC. This project will expand our understanding of how IL35 shapes the immunosuppressive tumor microenvironment

and may inform the optimal design of B cell-directed immunotherapy strategies against pancreatic cancer.