Brückner T, Di Pauli R
Cell Immunol. 1986 Apr 15;99(1):182-95. doi: 10.1016/0008-8749(86)90227-3.
We evaluated the role of molecules of the major histocompatibility complex (MHC) involved in the cellular interactions of two T-cell clones by testing the effect of monoclonal antibodies on the responses of the clones in vitro. The two T-cell clones used in the study are specific for minor histocompatibility antigens and restricted to the H-2Kk. In the absence of exogenous IL-2 the clones require the presence of Ia+, Thy-1- accessory cells and of Thy-1+, Lyt-1+2- cells in the irradiated spleen cell suspension used as stimulator. It is also necessary that both the accessory cells and the T cells in the stimulator cell populations are recognized specifically by the clones. Monoclonal antibodies specific for the H-2K product inhibited the lytic effector function of the cytolytic clone. These antibodies when added to cultures of stimulator cells and clones inhibited also the proliferation of this clone and of a nonlytic clone. When antigen recognition was measured by the increase in sensitivity of the clones to IL-2 while confronted with uv-irradiated stimulator cells, both clones were blocked efficiently by anti-H-2K antibodies. Thus, these results suggest that the interaction of monoclonal antibodies with the restricting H-2K molecule is sufficient to block the recognition signal, a prerequisite for proliferation. In contrast, monoclonal antibodies specific for A alpha A beta and/or E alpha E beta had no effect on cytolysis or on restricted recognition. However, they inhibited the proliferative responses as efficiently as the H-2K specific antibodies. Inhibition by class II-specific antibodies was not abolished when stimulator cell populations were depleted of Lyt-2+ cells. The blocking effect, however, was reversed by the addition of IL-2. No inhibition was obtained with antibody specific for E alpha E beta when B10.A(4R) spleen cells, which do not express E alpha E beta, or when B10.A(4R) accessory cells, which were reconstituted with (BALB/c X B10.A(4R] F1 T cells, were used as stimulators. Stimulator cells heterozygous for H-2 could be inhibited by antibodies to the parental haplotype not encoded in the clones (H-2Kd). These and previous results suggest that H-2K-restricted minor histocompatibility antigen-specific recognition transmits an activating signal to the clones and to the stimulator cells. The clones probably are induced to express more IL-2 receptors. The stimulator T cells seem to interact through A alpha A beta and E alpha E beta molecules with syngeneic accessory cells.(ABSTRACT TRUNCATED AT 400 WORDS)
我们通过检测单克隆抗体对两个T细胞克隆体外反应的影响,评估了主要组织相容性复合体(MHC)分子在这两个T细胞克隆细胞间相互作用中的作用。本研究中使用的两个T细胞克隆对次要组织相容性抗原具有特异性,且受限于H-2Kk。在没有外源性白细胞介素-2(IL-2)的情况下,这些克隆需要在用作刺激物的经辐照脾细胞悬液中存在Ia+、Thy-1-辅助细胞以及Thy-1+、Lyt-1+2-细胞。刺激细胞群体中的辅助细胞和T细胞都必须被这些克隆特异性识别,这也是必要条件。针对H-2K产物的单克隆抗体抑制了溶细胞克隆的溶细胞效应功能。当将这些抗体添加到刺激细胞和克隆的培养物中时,也抑制了该克隆以及一个非溶细胞克隆的增殖。当通过克隆对IL-2敏感性的增加来测量抗原识别时,同时面对紫外线照射的刺激细胞,两种克隆都被抗H-2K抗体有效地阻断。因此,这些结果表明单克隆抗体与限制性H-2K分子的相互作用足以阻断识别信号,而识别信号是增殖的先决条件。相比之下,针对AαAβ和/或EαEβ的单克隆抗体对细胞溶解或限制性识别没有影响。然而,它们抑制增殖反应的效率与H-2K特异性抗体相同。当刺激细胞群体去除Lyt-2+细胞时,II类特异性抗体的抑制作用并未消除。然而,通过添加IL-2可逆转这种阻断作用。当使用不表达EαEβ的B10.A(4R)脾细胞或用(BALB/c×B10.A(4R)F1 T细胞重建的B10.A(4R)辅助细胞作为刺激物时,针对EαEβ的抗体未产生抑制作用。对于H-2杂合的刺激细胞,可被针对克隆中未编码的亲代单倍型(H-2Kd)的抗体所抑制。这些结果以及先前的结果表明,H-2K限制性次要组织相容性抗原特异性识别向克隆和刺激细胞传递了激活信号。克隆可能被诱导表达更多的IL-2受体。刺激T细胞似乎通过AαAβ和EαEβ分子与同基因辅助细胞相互作用。(摘要截取自400字)
