Résumé
@#[Abstract] Objective:To prepare the third generation CAR-T cells targeting EGFRvⅢ (EGFRvⅢCAR-T) and to detect its specific killing effect against EGFRvⅢ+ U87 cells in vitro and in vivo. Methods: Human CD3+ T cells were transfected with lentiviral EGFRv Ⅲ/3CAR, which was generated by calcium phosphate co-precipitation of three plasmids. The expression of EGFRvⅢ/3CAR in T cells was detected by Western blotting and flow cytometry. In vitro killing effect of EGFRvⅢ/3CAR-T cells on EGFRvⅢ+ U87 cells was detected by 51Cr release assay. The secretion of cytokine IFN-γ of EGFRvⅢ/3CAR-T cells was detected by ELISA. Nude mouse xenograft model was constructed to detect the in vivo cytotoxicity of EGFRvⅢ/3CAR-T cells on xenograft tumor. Results: The EGFRvⅢ/3CAR lentivirus was successfully packaged with an average titer of 5×106 TU/ml. Western blotting showed that a protein band of approximate 58 000 molecular weight was observed in EGFRvⅢ/3CAR-T cells but absent in untransfected T cells. Flow cytometry indicated the average transduction efficiency of EGFRvⅢ/3CAR was 52.3%. 51Cr release assay showed that the specific killing effect of EGFRvⅢ/ 3CAR-T cells was positively correlated with E/T ratio (E∶T=4∶1, 8∶1, 16∶1, 32∶1). ELISA showed that cytokine IFN-γ secretion was (1 836±148.2) pg/ml, which was significantly different from that of NTT and GFP+ T cells (P<0.01). The specific killing activity of EGFRvⅢ/3CAR-T cells and IFN-γ secretion were both dependent on the expression level of EGFRvⅢ in U87 cells. The tumor growth monitoring results showed that the tumor volume of EGFRvⅢ/3CAR-T cell group was significantly different from that of GFP+ T cell group and PBS group around 3 weeks after injection (P<0.01). Conclusion: EGFRvⅢ/3CAR-T cells demonstrated specific antitumor effectagainstEGFRvⅢ+U87cellsbothinvitro and in vivo, providing basis for immunotherapyofgliomainfuture clinical use.