Background & objective: Live tumor vaccines could achieve better immunotherapeutic effects than irradiated tumor vaccines; however, the tumorigenicity is the crucial drawback incurred by the current procedures for vaccine preparation. This study was to explore the application of herpes simplex virus type 1 thymidine kinase/ganciclovir (HSV1-TK/GCV) system as "in vivo death switch" to control the survival status of cancer vaccines under certain circumstances.
Methods: Suicide gene HSV(1)-TK was transferred into ovarian cancer cell line NuTu-19 with a retrovirus vector, followed by G418 selection to obtain HSV(1)-TK-transfected NuTu-19 cells (NuTu-19/TK). Dendritic cells (DCs) derived from Fischer344 rat bone marrow were fused with NuTu-19/TK cells to construct live tumor vaccine FC/TK. The expression of HSV(1)-TK in FC/TK cells was determined by reverse transcription-polymerase chain reaction (RT-PCR) and Western blot. The cytotoxic efficacy of GCV on FC/TK cells was evaluated by XTT assay. The apoptosis of FC/TK cells was analyzed by flow cytometry and Hoechst33258 staining after GCV treatment. Rats were vaccinated with FC/TK cells and divided into 2 groups: GCV group (5 rats) were intraperitoneally treated with GCV for 7 days, control group (5 rats) were treated with normal saline. The tumorigenesis and tumor metastasis in the rats were observed 90 days after inoculation.
Results: HSV1-TK was specifically expressed in FC/TK cells. GCV showed in vitro cytotoxicity to FC/TK cells in a dose-dependent manner, and 86.25% of the FC/TK cells were killed by GCV at a concentration of 100 microg/ml; the apoptosis rate of FC/TK cells was over 80%, and apoptotic morphology, including cell shrinkage, chromatin condensation, was observed. In the rat models, the tumor was developed at the injection site in 3 rats of control group, while no tumor was observed in the rats of GCV group.
Conclusion: HSV(1)-TK/GCV could act as the "death switch" of tumor vaccines by triggering apoptosis of tumor vaccines both in vitro and in vivo.