Picker L J, Singh M K, Zdraveski Z, Treer J R, Waldrop S L, Bergstresser P R, Maino V C
Department of Pathology, University of Texas Southwestern Medical Center, Dallas 75235-9072, USA.
Blood. 1995 Aug 15;86(4):1408-19.
The array of cytokines produced by T cells in effector sites is a primary means by which these cells mediate host defense. It is well recognized that cloned T cells are heterogeneous with regard to cytokine synthesis and, thus, in their ability to mediate specific immune responses, but the extent to which the patterns of cytokine secretion observed in cloned cells reflect actual populations of memory/effector T cells existing in vivo is largely unknown. Here, we report our findings using a multiparameter flow cytometric assay that allows simultaneous determination of an individual T-cell's ability to produce multiple cytokines and its phenotype after only short (4 to 8 hours) in vitro incubation with an activating stimulus and the secretion inhibitor Brefeldin A. This assay shows a rapid accumulation of interleukin-2 (IL-2), IL-4, and gamma-interferon (gamma-IFN) in the cytoplasm of CD4+ cells after stimulation with either accessory cell-independent (phorbol 12-myristate 13-acetate [PMA] + ionomycin [I]) or accessory cell-dependent (staphylococcal enterotoxins [SE] A and B) T-cell-activating stimuli. Further analysis showed that production of gamma-IFN and IL-4 is predominantly, if not exclusively, restricted to the CD45ROhigh memory/effector T-cell subset, whereas IL-2 may be produced by both the CD45ROhigh and CD45ROlow subsets. Simultaneous determination of IL-2 and gamma-IFN production among CD45ROhigh/CD4+ T cells showed distinct subsets that produce each of these cytokines alone (an average of 30% for IL-2 alone, 8% for gamma-IFN alone), both (16%), or neither (46%). Similar analyses with the small IL-4-producing memory/effector T-cell subset (only 4.3% of total CD4+/CD45ROhigh T cells) showed that an average of 51% of these IL-4-producing cells also synthesize average of 51% of these IL-4-producing cells also synthesize IL-2, 23% synthesize only IL-4, 16% synthesize all three cytokines, and 9.6% synthesize IL-4 and gamma-IFN. These patterns of cytokine synthesis were found to be similar with both PMA + I and SEA/SEB stimulation and were observed in both peripheral blood memory/effector CD4+ T cells and in T cells of similar phenotype obtained from cutaneous delayed-type hypersensitivity sites. Taken together, these data strongly support the in vivo existence of human memory/effector T-cell subsets with "preprogrammed" cytokine synthesis potential, although they suggest that these subsets may be more complex than originally proposed in the TH1/TH2 hypothesis.
效应部位的T细胞产生的细胞因子阵列是这些细胞介导宿主防御的主要方式。人们已经充分认识到,克隆的T细胞在细胞因子合成方面是异质性的,因此在介导特异性免疫反应的能力方面也是异质性的,但是在克隆细胞中观察到的细胞因子分泌模式在多大程度上反映了体内存在的记忆/效应T细胞的实际群体,在很大程度上尚不清楚。在这里,我们报告了我们使用多参数流式细胞术检测的结果,该检测允许在仅与激活刺激物和分泌抑制剂布雷菲德菌素A进行短时间(4至8小时)体外孵育后,同时测定单个T细胞产生多种细胞因子的能力及其表型。该检测显示,在用不依赖辅助细胞的(佛波醇12-肉豆蔻酸酯13-乙酸酯[PMA]+离子霉素[I])或依赖辅助细胞的(葡萄球菌肠毒素[SE]A和B)T细胞激活刺激物刺激后,白细胞介素-2(IL-2)、IL-4和γ-干扰素(γ-IFN)在CD4+细胞的细胞质中迅速积累。进一步分析表明,γ-IFN和IL-4的产生主要(如果不是唯一)限于CD45RO高记忆/效应T细胞亚群,而IL-2可能由CD45RO高和CD45RO低亚群产生。同时测定CD45RO高/CD4+T细胞中IL-2和γ-IFN的产生情况,发现有不同亚群分别单独产生这些细胞因子中的每一种(单独产生IL-2的平均为30%,单独产生γ-IFN的为8%)、两者都产生(16%)或两者都不产生(46%)。对产生IL-4的小记忆/效应T细胞亚群(仅占总CD4+/CD45RO高T细胞的4.3%)进行的类似分析表明,这些产生IL-4的细胞中平均有51%也合成IL-2,23%仅合成IL-4,16%合成所有三种细胞因子,9.6%合成IL-4和γ-IFN。发现这些细胞因子合成模式在PMA+I和SEA/SEB刺激下相似,并且在外周血记忆/效应CD4+T细胞以及从皮肤迟发型超敏反应部位获得的类似表型的T细胞中均观察到。综上所述,这些数据有力地支持了具有“预编程”细胞因子合成潜力的人类记忆/效应T细胞亚群在体内的存在,尽管它们表明这些亚群可能比TH1/TH2假说中最初提出的更为复杂。
