Rich S, Carpino M R, Arhelger C
J Exp Med. 1984 May 1;159(5):1473-90. doi: 10.1084/jem.159.5.1473.
This report describes a Ts costimulator assay and its use to analyze cofactors required for the expression of suppressor T cell function. Activation of primed MLR-Ts (alloantigen-activated suppressor T cells suppressive of mixed leukocyte reaction) to suppressor T cell factor (TsF) production typically fails in the presence of glutaraldehyde-fixed rather than irradiated allogeneic stimulator cells. However, MLR-TsF production was restored by the addition of 48-h primary MLR supernates; MLR-derived Ts costimulator neither activated primed MLR-Ts in the absence of fixed allogeneic stimulators nor directly suppressed assay MLR. Lack of antigen specificity or genetic restriction and failure to activate unprimed MLR-Ts precursors suggested that Ts costimulator activity differed from previously described Ts inducer functions and was more closely aligned with the lymphocyte- or monocyte-derived interleukins (IL). Three findings distinguished Ts costimulator from IL-2. Depletion of IL-2 activity from MLR supernates by HT2 adsorption failed to affect Ts costimulator function. In addition, MLR supernates prepared in the presence of cyclosporin A contained no IL-2 but expressed Ts costimulator activity. Finally, gel chromatography demonstrated Ts costimulator in peaks of 21,000 and 43,000 mol wt that were largely distinct from the IL-2-containing fractions. Ts costimulator activity was also identified in phorbol myristate acetate (PMA)-induced EL4 supernates and was retained in those supernates after IL-2 depletion by HT2 adsorption. In preliminary functional characterization, MLR supernate-derived Ts costimulator triggered MLR-TsF production from irradiated MLR-Ts in the absence of proliferation. Thus a differentiative rather than proliferative stimulus required for primed MLR-Ts function appears to be provided by this Ts costimulator and has been provisionally termed Ts differentiative factor ( TsDF ). This initial characterization may thus identify one of a possibly distinctive family of interleukins required in the alloantigen-driven activation of suppressor T cells to effector function.
本报告描述了一种Ts共刺激因子测定法及其用于分析抑制性T细胞功能表达所需的辅助因子。在存在戊二醛固定而非辐照的同种异体刺激细胞的情况下,引发的MLR - Ts(抑制混合淋巴细胞反应的同种异体抗原激活的抑制性T细胞)向抑制性T细胞因子(TsF)产生的激活通常会失败。然而,通过添加48小时的初次MLR上清液可恢复MLR - TsF的产生;MLR衍生的Ts共刺激因子在不存在固定同种异体刺激物的情况下既不激活引发的MLR - Ts,也不直接抑制测定的MLR。缺乏抗原特异性或遗传限制以及无法激活未引发的MLR - Ts前体表明,Ts共刺激因子活性不同于先前描述的Ts诱导功能,并且与淋巴细胞或单核细胞衍生的白细胞介素(IL)更为相似。有三项发现将Ts共刺激因子与IL - 2区分开来。通过HT2吸附从MLR上清液中去除IL - 2活性未能影响Ts共刺激因子功能。此外,在环孢菌素A存在下制备的MLR上清液不含IL - 2,但具有Ts共刺激因子活性。最后,凝胶色谱法在21,000和43,000摩尔重量的峰中显示出Ts共刺激因子,这些峰与含IL - 2的组分在很大程度上不同。在佛波酯肉豆蔻酸酯(PMA)诱导的EL4上清液中也鉴定出Ts共刺激因子活性,并且在通过HT2吸附去除IL - 2后,该活性保留在上清液中。在初步功能表征中,MLR上清液衍生的Ts共刺激因子在无增殖的情况下触发辐照的MLR - Ts产生MLR - TsF。因此,这种Ts共刺激因子似乎为引发的MLR - Ts功能提供了一种分化而非增殖刺激,并且已被临时称为Ts分化因子(TsDF)。因此,这一初步表征可能鉴定出在同种异体抗原驱动的抑制性T细胞激活至效应器功能过程中所需的一个可能独特的白细胞介素家族中的一员。