Zivny J, Kurane I, Tacket C O, Edelman R, Ennis F A
Department of Medicine, University of Massachusetts Medical Center, Worcester.
Viral Immunol. 1993 Summer;6(2):143-51. doi: 10.1089/vim.1993.6.143.
We previously reported cytotoxic activity of dengue virus-specific CD4+ CD8- T cell clones established in long-term in vitro culture. In the present experiments we tried to determine whether dengue virus-specific CD4+ CD8- CTL3 are present in short-term bulk cultures. Peripheral blood mononuclear cells (PBMC)3 from a donor who had been immunized with an experimental live attenuated dengue 1 vaccine 8 months earlier were used. PBMC were incubated with noninfectious dengue 1 antigen (Ag)3 for 7 days, and were examined for dengue 1-specific cytotoxic activity. PBMC cultured with dengue 1 Ag lysed autologous lymphoblastoid cell line (LCL)3 pulsed with noninfectious dengue 1 Ag, but did not lyse LCL pulsed with Ag of other dengue serotype, West Nile virus, or yellow fever virus, or control Ag. Treatment of cultured PBMC with monoclonal antibody to CD3 or CD4 and complement abrogated the cytotoxic activity but treatment with a monoclonal antibody to CD8 and complement did not. A time course study showed that dengue 1 Ag-specific CTL were first detected in 5 day cultures. Lysis of target cells by these CD4+ CTL were restricted by HLA class II, and HLA DQw1 and HLA DRw52 were determined to be the restriction molecules. These results indicate that dengue virus-specific CD4+ CD8- CTL are generated in short-term bulk cultures as well as in long-term-cultured cell lines, and support the concept that CD4+ CTL may be generated in vivo during infection.
我们之前报道了在长期体外培养中建立的登革病毒特异性CD4 + CD8 - T细胞克隆的细胞毒性活性。在本实验中,我们试图确定在短期大量培养物中是否存在登革病毒特异性CD4 + CD8 - CTL3。使用了一名8个月前用实验性减毒活登革1疫苗免疫的供体的外周血单个核细胞(PBMC)3。将PBMC与无感染性的登革1抗原(Ag)3孵育7天,并检测其对登革1的特异性细胞毒性活性。用登革1 Ag培养的PBMC裂解了用无感染性登革1 Ag脉冲处理的自体淋巴母细胞系(LCL)3,但未裂解用其他登革血清型、西尼罗河病毒或黄热病病毒的Ag或对照Ag脉冲处理的LCL。用抗CD3或抗CD4单克隆抗体和补体处理培养的PBMC可消除细胞毒性活性,但用抗CD8单克隆抗体和补体处理则不能。一项时间进程研究表明,在5天的培养物中首次检测到登革1 Ag特异性CTL。这些CD4 + CTL对靶细胞的裂解受HLA II类分子限制,并且确定HLA DQw1和HLA DRw52为限制分子。这些结果表明,登革病毒特异性CD4 + CD8 - CTL在短期大量培养物以及长期培养的细胞系中均有产生,并支持CD4 + CTL可能在感染期间在体内产生的概念。
