Objective: The aim of this study was to study the effect of human papilloma virus (HPV) type 16 E7 protein ex- pression on growth of RMA cells in vitro and in vivo. Methods: The recombination vector pcDNA3.1-E7 ca...Objective: The aim of this study was to study the effect of human papilloma virus (HPV) type 16 E7 protein ex- pression on growth of RMA cells in vitro and in vivo. Methods: The recombination vector pcDNA3.1-E7 carrying wild type HPV 16 E7 was identified by sequencing. The recombination vector pcDNA3.1-E7 was transfected into mouse lymphadenoma cell line RMA by liposome, and the monoclonal cells transfected stably were obtained by antibiotics G418 sieving and limiting dilution assay. RT-PCR method was used to detect the expression of HPV 16 E7 mRNA in RMA-E7 cells. The growth of RMA cells and RMA-E7 cells cultured in vitro was tested by Cell Count Kit-8. RMA-E7 cells and RMA cells were subcutaneously inoculated in syngeneic mice respectively, the tumor size was measured by sliding caliper twice a week, and the E7 protein expression in tumor tissue of mice was detected by Western blot after tumor formation. The kinetics of cytolytic activity of E7 specific T cells in tumor-bearing mice was measured by LDH kit. Results: Sequencing of recombination vector showed the target gene which was inserted into the recombinant was correct, and RMA-E7 cells expressing E7 protein stably were obtained by limited dilution assay. There were no obvious differences in morphous and growth velocity between RMA cells and RMA-E7 cells in vitro. RMA-E7 cells grew in syngeneic mice were significantly slower than RMA cells. The E7 protein was ex- pressed stronger in RMA-E7 cells in vivo than in vitro. The cytolytic ability of ET-specific CTL was activated at the early stage, reached the maximum at the middle stage, and lost at the end stage. RMA-E7 cells isolated from the tumor-bearing mice were more resistant to E7-specific CTL killing than RMA-E7 cells cultured in vitro. Conclusion: The E7 protein expression has no obvious influence on growth of RMA-E7 cells in vitro, and can suppress growth of RMA-E7 cells in vivo. The activity curve of E7 specific CTL approximately presents "bell" shape. The RMA-E7 cells grew in vivo had a high expression levels of E7 protein, and more resistant to E7-specific CTL killing than those cultured in vitro. The E7 protein expression in vivo not only initiates immune activation, but also induces immune tolerance.展开更多
文摘Objective: The aim of this study was to study the effect of human papilloma virus (HPV) type 16 E7 protein ex- pression on growth of RMA cells in vitro and in vivo. Methods: The recombination vector pcDNA3.1-E7 carrying wild type HPV 16 E7 was identified by sequencing. The recombination vector pcDNA3.1-E7 was transfected into mouse lymphadenoma cell line RMA by liposome, and the monoclonal cells transfected stably were obtained by antibiotics G418 sieving and limiting dilution assay. RT-PCR method was used to detect the expression of HPV 16 E7 mRNA in RMA-E7 cells. The growth of RMA cells and RMA-E7 cells cultured in vitro was tested by Cell Count Kit-8. RMA-E7 cells and RMA cells were subcutaneously inoculated in syngeneic mice respectively, the tumor size was measured by sliding caliper twice a week, and the E7 protein expression in tumor tissue of mice was detected by Western blot after tumor formation. The kinetics of cytolytic activity of E7 specific T cells in tumor-bearing mice was measured by LDH kit. Results: Sequencing of recombination vector showed the target gene which was inserted into the recombinant was correct, and RMA-E7 cells expressing E7 protein stably were obtained by limited dilution assay. There were no obvious differences in morphous and growth velocity between RMA cells and RMA-E7 cells in vitro. RMA-E7 cells grew in syngeneic mice were significantly slower than RMA cells. The E7 protein was ex- pressed stronger in RMA-E7 cells in vivo than in vitro. The cytolytic ability of ET-specific CTL was activated at the early stage, reached the maximum at the middle stage, and lost at the end stage. RMA-E7 cells isolated from the tumor-bearing mice were more resistant to E7-specific CTL killing than RMA-E7 cells cultured in vitro. Conclusion: The E7 protein expression has no obvious influence on growth of RMA-E7 cells in vitro, and can suppress growth of RMA-E7 cells in vivo. The activity curve of E7 specific CTL approximately presents "bell" shape. The RMA-E7 cells grew in vivo had a high expression levels of E7 protein, and more resistant to E7-specific CTL killing than those cultured in vitro. The E7 protein expression in vivo not only initiates immune activation, but also induces immune tolerance.
