Segal S, Tzehoval E, Feldman M
Proc Natl Acad Sci U S A. 1979 May;76(5):2405-9. doi: 10.1073/pnas.76.5.2405.
Studies were carried out to characterize the target cell for the activity of suppressor cells induced in highzone tolerance to deaggregated human gamma globulin (HGG). We applied an in vitro system for the initiation of an immune response, consisting of culturing spleen lymphocytes on HGG-fed macrophages, in which initiator T cells are generated. These cells, when injected into the foot pads of syngeneic mice, recruit specific anti-HGG effector T lymphocytes. We found that HGG-fed macrophages were incapable of signaling spleen cells from HGG-tolerant animals to generate initiator cells. Spleen cells from tolerant animals, when mixed with spleen cells from normal donors, inhibited the capacity of the normal population to give rise to initiator cells after culture on HGG-fed macrophages. Thus, suppressor T cells, which inhibit education of T cells by antigen-fed macrophages, exist in the tolerant spleen. Spleen cells from HGG-tolerant animals, when seeded on macrophages fed simultaneously with HGG and keyhole limpet hemocyanin (KLH), also prevented the macrophages from signaling an anti-KLH response. Spleen cells from HGG-tolerant animals from which the suppressor cells were depleted by "affinity chromatography" on histamine columns, when seeded on macrophages fed with HGG and KLH, generated initiators to both antigens. It appears, therefore, that suppressor cells act at the level of antigen-presenting macrophages, affecting macrophages fed with the tolerogen, and therefore affecting also the immunogenic effect of other antigens presented by the same macrophages. By testing the mode of action of suppressor cells on the tolerogen-fed macrophage, we found that the suppressors manifest a cytotoxic effect on such macrophages. We propose that the suppressor cell is, in fact, an anti modified-self killer, acting on macrophages possessing surface self-antigens "modified" by the tolerogen. The similarity in cell-surface markers between suppressors and anti modified-self killers supports this concept.
开展了多项研究,以明确在高剂量耐受去聚合人丙种球蛋白(HGG)时诱导产生的抑制细胞活性的靶细胞。我们应用了一种体外免疫应答启动系统,该系统由在喂食HGG的巨噬细胞上培养脾淋巴细胞组成,在此过程中会产生启动T细胞。将这些细胞注射到同基因小鼠的足垫中,会募集特异性抗HGG效应T淋巴细胞。我们发现,喂食HGG的巨噬细胞无法向来自HGG耐受动物的脾细胞发出信号以产生启动细胞。耐受动物的脾细胞与正常供体的脾细胞混合后,会抑制正常群体在喂食HGG的巨噬细胞上培养后产生启动细胞的能力。因此,耐受脾中存在抑制T细胞,其可抑制抗原喂食的巨噬细胞对T细胞的致敏作用。来自HGG耐受动物的脾细胞,接种到同时喂食HGG和钥孔戚血蓝蛋白(KLH)的巨噬细胞上时,也会阻止巨噬细胞发出抗KLH应答的信号。通过“亲和层析”在组胺柱上去除抑制细胞的HGG耐受动物的脾细胞,接种到喂食HGG和KLH的巨噬细胞上时,会产生针对两种抗原的启动细胞。因此,似乎抑制细胞在抗原呈递巨噬细胞水平发挥作用,影响喂食耐受原的巨噬细胞,进而也影响同一巨噬细胞呈递的其他抗原的免疫原性效应。通过测试抑制细胞对喂食耐受原的巨噬细胞的作用方式,我们发现抑制细胞对这类巨噬细胞表现出细胞毒性作用。我们提出,抑制细胞实际上是一种抗修饰自身杀手,作用于具有被耐受原“修饰”的表面自身抗原的巨噬细胞。抑制细胞与抗修饰自身杀手在细胞表面标志物上的相似性支持了这一概念。