Abstract
Abstract Glioblastoma (GBM) has a poor prognosis despite intensive treatment by surgery, radiation, and chemotherapy, thus new treatment strategies are urgently needed. Various innovative cancer therapies targeting cancer-specific cell surface antigens, such as chimeric antigen receptor T cell therapy, are developed and more cell surface antigens that is highly specific for GBM cells are needed. Although extensive transcriptome analyses or proteomic analysis of GBM cells were performed, few transcripts specific for GBM cells have been identified. However, GBM cell-specific antigen epitopes formed by post-translational modifications of proteins may have been missed by transcriptome or proteomic analysis, and could still be discovered by thoroughly searching for cancer-specific monoclonal antibodies. In this study, we aimed to identify GBM-specific antigens using a monoclonal antibody library from patient-derived tumor spheres, create CAR-T cells against the antigen, and check antitumor efficiency of the CAR-T cells. Approximately 25,000 monoclonal antibody-producing hybridomas were establishment using BALB/c mice and patient derived tumor spheres. Among them, a antibodies that bind to plural glioblastomas and not to plural normal brain cells were selected and we identified the antigen as Prostaglandin F2 receptor negative regulator (PTGFRN) by the expression cloning method. PTGFRN witch is expressed in several cancers regulate migration, angiogenesis, and cell polarity and decreases the radiosensitivity of GBM cells. We created CAR-T cells against the antigen and co-cultured it with GBM cells, which significantly increased the production of IL-2 and INF-γ. Furthermore, the CAR-T cells injected intracranial in an orthotopic xenograft model with patient-derived GBM cells, significantly reduced tumor growth. PTGFRN CAR-T-cell therapy may be a potential novel therapeutic target for GBM.
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