Abstract
Despite significant advances in understanding the biology of glioblastoma (GBM), the disease remains fatal within 15 months of diagnosis. Emerging immunotherapies including vaccines targeting somatic alterations hold promise but need to address challenges including the highly immunosuppressive GBM tumour microenvironment which causes lymphocyte dysfunction. Here, we evaluated whether an EGFRvIII-targeting mRNA LNP vaccine could favorably reprogram the tumour microenvironment of a syngeneic EGFRvIII-driven GBM mouse model (EGFRvIII-OE/CDKN2A-KO/PTEN-KO) which recapitulates histopathological features of GBM including necrosis, diffuse infiltration, and microvascular proliferation. This syngeneic model is sensitive to but not cured by temozolomide and is resistant to immune checkpoint blockade (anti-PD-1 and anti-CTLA4) therapy, demonstrating responses similar to the human disease. After orthotopic implantation of tumour cells and intramuscular vaccinations (10ug) on days 20, 23, 26, 29, and 32 post-tumour cell implant, tumour was harvested at day 35 for analysis. Spectral flow analyses showed that vaccination remodels the tumour’s CD45 compartment, decreasing myeloid infiltration (*p=0.0365) and increasing T cell infiltration (p=0.1203). Furthermore, activated/antigen-experienced CD8 T cells are more frequent in vaccinated tumours compared to controls. We analyzed cytokines and chemokines in the tumour interstitial fluid of tumours and found an increased in inflammatory cytokines and chemokines related to lymphocyte recruitment and Th1 phenotype polarization and a decrease in immunosuppressive cytokines in vaccinated tumours compared to control. Based on the vaccine-induced shift in the immune phenotype of tumours, we hypothesize the vaccine’s effect was CD8 T cell mediated. Currently, our work is focused on understanding the immune cell subsets responsible for vaccine mediated tumour clearance. Our proof-of-principle work demonstrates that this mRNA LNP neoantigen vaccine powerfully re-shapes the tumour microenvironment towards anti-tumour immunity.