Holm G, Perlmann P
J Exp Med. 1967 Apr 1;125(4):721-36. doi: 10.1084/jem.125.4.721.
Viable and immunologically competent lymphocytes from unsensitized donors damage allogeneic tissue culture cells in the presence of phytohemagglutinin (PHA). This cytotoxicity is specific since syngeneic tissue culture cells are not at all or only slightly damaged under similar experimental conditions. In this investigation, the relation between the stimulation of human lymphocytes and their cytotoxicity was studied. Chang cells (human liver) served as target cells in all experiments. Cell damage was quantitated by measuring the release of isotope from target cells labeled with chromate-(51)Cr. The cytotoxicity of the lymphocytes was dependent on the concentration of PHA in the incubation medium. Cell damage was maximal at concentrations of 4-8 microl PHA/ml. Higher concentrations were inhibitory although aggregation was increased and no injury of the lymphocytes was noted. Stimulation of DNA and RNA synthesis in PHA-treated lymphocytes each followed dose response curves which were similar to that of cytotoxicity. In order to establish whether stimulation without mixed aggregation of lymphocytes and target cells would suffice for cytotoxicity, a series of nonagglutinating stimulants were investigated. Lymphocytes pretreated with a crude filtrate of Staphylococcus aureus for periods of 0.5-72 hr damaged Chang cells even in the absence of PHA. Lymphocytes from a tuberculin-positive donor were strongly cytotoxic after prestimulation with PPD while those from a negative donor were inactive. Moreover, strong cytotoxic effects were also obtained with lymphocytes which had been stimulated by preincubation with allogeneic lymphocytes in mixed culture. When two stimulants were applied at the same time, additive cytotoxic effects were seen. Addition of PHA to the lymphocyte/Chang cell mixtures potentiated the cytotoxicity of prestimulated lymphocytes. The cytotoxic potential of the lymphocytes was in all cases correlated to the degree of stimulation recorded as transformation into blast cells, and was independent both of the degree of aggregation and of the stimulating factor. These findings are compatible with the assumption that injury of the Chang cells reflected an immunologically nonspecific activity of lymphocytes enhanced by stimulation. The possible importance of this activity for a number of tissue-damaging immune reactions in vivo is pointed out.
来自未致敏供体的有活力且具有免疫活性的淋巴细胞在植物血凝素(PHA)存在的情况下会损伤同种异体组织培养细胞。这种细胞毒性具有特异性,因为在相似的实验条件下,同基因组织培养细胞根本不会或只会受到轻微损伤。在本研究中,对人类淋巴细胞的刺激与其细胞毒性之间的关系进行了研究。在所有实验中,Chang细胞(人肝脏细胞)用作靶细胞。通过测量用铬酸盐 -(⁵¹)Cr标记的靶细胞中同位素的释放来定量细胞损伤。淋巴细胞的细胞毒性取决于孵育培养基中PHA的浓度。当PHA浓度为4 - 8微升/毫升时,细胞损伤最大。更高的浓度具有抑制作用,尽管聚集增加,但未观察到淋巴细胞受损。PHA处理的淋巴细胞中DNA和RNA合成的刺激均遵循与细胞毒性相似的剂量反应曲线。为了确定在淋巴细胞和靶细胞无混合聚集的情况下刺激是否足以产生细胞毒性,研究了一系列非凝集性刺激物。用金黄色葡萄球菌粗滤液预处理0.5 - 72小时的淋巴细胞即使在没有PHA的情况下也会损伤Chang细胞。来自结核菌素阳性供体的淋巴细胞在用PPD预刺激后具有强烈的细胞毒性,而来自阴性供体的淋巴细胞则无活性。此外,通过在混合培养中与同种异体淋巴细胞预孵育刺激的淋巴细胞也获得了强烈的细胞毒性作用。当同时应用两种刺激物时,观察到相加的细胞毒性作用。向淋巴细胞/Chang细胞混合物中添加PHA可增强预刺激淋巴细胞的细胞毒性。在所有情况下,淋巴细胞的细胞毒性潜力与记录为转化为母细胞的刺激程度相关,并且与聚集程度和刺激因子均无关。这些发现与以下假设相符,即Chang细胞的损伤反映了刺激增强的淋巴细胞的免疫非特异性活性。指出了这种活性在体内一些组织损伤性免疫反应中的可能重要性。