Tan R, Teh S J, Ledbetter J A, Linsley P S, Teh H S
Department of Microbiology, University of British Columbia, Vancouver, Canada.
J Immunol. 1992 Nov 15;149(10):3217-24.
In addition to TCR-derived signals, costimulatory signals derived from stimulation of the CD28 molecule by its natural ligand, B7, have been shown to be required for CD4+8- T cell activation. We investigate the ability of B7 to provide costimulatory signals necessary to drive proliferation and differentiation of virgin CD4-8+ T-cells that express a transgenic TCR specific for the male (H-Y) Ag presented by H-2Db class I MHC molecules. Virgin male-specific CD4-8+ T cells can be activated either with B7 transfected chinese hamster ovary (CHO) cells and T3.70, a mAb specific for the transgenic TCR-alpha chain that is associated with male-reactivity, or by male dendritic cells (DC). Activated CD4-8+ T cells proliferated in the absence of exogenously added IL-2. IL-2 activity was detected in supernatants of CD4-8+T3.70+ cells that were stimulated with T3.70 and B7+CHO cells. The response of CD4-8+T3.70+ cells to T3.70/B7+CHO or to male DC stimulation were inhibited by CTLA4Ig, a fusion protein comprising the extracellular portion of CTLA4 and human IgG C gamma 1. It has been previously shown that CTLA4Ig binds B7 with high affinity. Staining with CTLA4Ig revealed that DC express about 50 times more B7 than CD4-8+ T cells. CTLA4Ig also specifically blocked the proliferation of male-reactive cells in vivo. We have also used an in vitro deletion assay whereby immature CD4+8+ thymocytes expressing the transgenic male-specific TCR are deleted by overnight incubation with either immobilized T3.70 or male DC to investigate the participation of the CD28/B7 pathway in the negative selection of immature thymocytes. Staining with B7Ig established that both immature murine CD4+8+ and mature CD4-8+ thymocytes express a high level of CD28. However, despite the high expression of CD28 on CD4+8+ thymocytes, it was found that deletion of CD4+8+ thymocytes expressing the male-specific TCR by the T3.70 mAb was not inhibited by B7+CHO cells. Furthermore, the deletion of these thymocytes by DC also was not inhibited by CTLA4Ig. These findings provide evidence that although signaling through CD28 can costimulate a primary anti-male response in mature CD4-8+ T cells, the CD28/B7 pathway does not appear to participate in the negative selection of immature CD4+8+ thymocytes.
除了TCR衍生的信号外,CD28分子被其天然配体B7刺激所产生的共刺激信号,已被证明是CD4+8-T细胞激活所必需的。我们研究了B7提供共刺激信号的能力,该信号是驱动初始CD4-8+T细胞增殖和分化所必需的,这些初始CD4-8+T细胞表达一种针对由H-2Db I类MHC分子呈递的雄性(H-Y)抗原的转基因TCR。初始雄性特异性CD4-8+T细胞可以用转染了B7的中国仓鼠卵巢(CHO)细胞和T3.70(一种针对与雄性反应性相关的转基因TCR-α链的单克隆抗体)激活,也可以用雄性树突状细胞(DC)激活。激活的CD4-8+T细胞在没有外源添加IL-2的情况下增殖。在用T3.70和B7+CHO细胞刺激的CD4-8+T3.70+细胞的上清液中检测到IL-2活性。CD4-8+T3.70+细胞对T3.70/B7+CHO或雄性DC刺激的反应被CTLA4Ig抑制,CTLA4Ig是一种由CTLA4的细胞外部分和人IgG Cγ1组成的融合蛋白。先前已表明CTLA4Ig与B7具有高亲和力结合。用CTLA4Ig染色显示,DC表达的B7比CD4-8+T细胞多约50倍。CTLA4Ig还特异性地阻断了体内雄性反应性细胞的增殖。我们还使用了一种体外缺失试验,通过将表达转基因雄性特异性TCR的未成熟CD4+8+胸腺细胞与固定化的T3.70或雄性DC过夜孵育来研究CD28/B7途径在未成熟胸腺细胞阴性选择中的参与情况。用B7Ig染色确定,未成熟的小鼠CD4+8+和成熟的CD4-8+胸腺细胞都高水平表达CD28。然而,尽管CD4+8+胸腺细胞上CD28表达水平很高,但发现用T3.70单克隆抗体删除表达雄性特异性TCR的CD4+8+胸腺细胞不受B7+CHO细胞的抑制。此外,DC对这些胸腺细胞的删除也不受CTLA4Ig的抑制。这些发现提供了证据,即尽管通过CD28发出的信号可以在成熟的CD4-8+T细胞中共刺激原发性抗雄性反应,但CD28/B7途径似乎不参与未成熟CD4+8+胸腺细胞 的阴性选择。
