Abstract
Despite numerous therapeutic advances, the treatment of glioblastoma multiforme (GBM) remains a challenge, with current 5-year survival rates estimated at 4%. Multiple characteristic elements of GBM contribute to its treatment-resistance, including its low immunogenicity and its highly immunosuppressive microenvironment that can effectively disarm adaptive immune responses. Hence, therapeutic strategies that aim to boost T-lymphocyte mediated responses against GBM are of great therapeutic value. Herein, we present a therapeutic vaccination strategy that promotes the phagocytosis of tumor cells, enhances tumor antigen presentation, and induces a tumor-specific adaptive immune response. This strategy consists of vaccinations with irradiated whole tumor cells (rWTC) pulsed with phagocytic agonists (Mannan-BAM), TLR ligands [LTA, Poly (I:C), and R-848], and anti-CD40 antibody (collectively abbreviated as rWTC-MBTA). We evaluated the therapeutic efficacy of rWTC-MBTA strategy in a mouse syngeneic GL261 orthotopic GBM tumor model. rWTC-MBTA or vehicle control were administered subcutaneously over the right foreleg three days after intracranial injection of GL261 cells. Complete regression (CR) of intracranial tumors was achieved in 70% (7/10) of rWTC-MBTA treated animals while none survived in the control group. Immunophenotyping analyses of peripheral lymph nodes and brain tumors of rWTC-MBTA treated mice demonstrated: (1) increased mature dendritic cells and MHC II+ monocytes; (2) increased effector (CD62L-CD44+) CD4-T and CD8-T cells; (3) increased cytotoxic IFNγ-, TNFα-, and granzyme B-secreting CD4-T and CD8-T cells. Of note, the therapeutic efficacy of rWTC-MBTA disappeared in CD4-T and/or CD8-T lymphocyte depleted mice. Three mice that achieved CR were rechallenged with 50k GL261 cells intracranially 14 months after the last rWTC-MBTA treatment and all rechallenged animals resisted GL261 tumor development, confirming the establishment of long-term immunological memory against GL261 tumor cells. Collectively, our study demonstrated that rWTC-MBTA strategy can effectively activate antigen presenting cells and induce more favorable T-cell signatures in the GBM tumors.
Fgf10 is an oncogene activated by MMTV insertional mutagenesis in mouse mammary tumors and overexpressed in a subset of human breast carcinomas