LaSalle J M, Toneguzzo F, Saadeh M, Golan D E, Taber R, Hafler D A
Center for Neurologic Diseases, Brigham and Women's Hospital, Boston, MA 02115.
J Immunol. 1993 Jul 15;151(2):649-57.
MHC class II+ human T-cell clones are able to simultaneously present and respond to peptide Ag and superantigen resulting in both proliferation and subsequent anergy. A major question remains as to whether a single T cell can present to itself or whether T-T cell interactions are required. We have employed a novel technique for inhibiting cell-to-cell contact that encapsulates individual T cells in agarose gel microdrops. Myelin basic protein-reactive individual CD4+ T-cell clones entrapped within these microdrops neither proliferated nor became anergized to either peptide Ag or Staphylococcal enterotoxin B (SEB), suggesting that cell-to-cell contact was required for T-cell presentation of Ag leading to proliferation and anergy. PMA treatment induced T-cell migration out of gel microdrops, restoring cell-to-cell contact and resulting in proliferation and anergy after T-cell coculture with peptide or superantigen. However, analysis of [Ca+2]i release revealed differences in T-cell responses to SEB versus peptide Ag. The addition of SEB, but not peptide Ag, induced a calcium flux in solitary T cells. Additionally, alpha HLA-DR mAb blocked peptide but not SEB-induced proliferation and anergy induction. Thus, SEB generated an early signal in solitary T cells that may not be a result of self stimulation via MHC class II. However, subsequent cell-to-cell contact was required for proliferation and anergy induction by SEB. These results indicate that peptide Ag requires a MHC class II-dependent cell-to-cell interaction for calcium flux, proliferation, and anergy induction, whereas SEB requires a MHC class II independent cell-to-cell interaction for proliferation and anergy induction after a TCR-generated calcium flux.
MHC II类阳性的人T细胞克隆能够同时呈递并响应肽抗原和超抗原,从而导致增殖及随后的无反应性。一个主要问题仍然存在,即单个T细胞是否能够自我呈递,或者是否需要T细胞与T细胞之间的相互作用。我们采用了一种抑制细胞间接触的新技术,即将单个T细胞包裹在琼脂糖凝胶微滴中。包裹在这些微滴中的髓鞘碱性蛋白反应性单个CD4 + T细胞克隆既不增殖,也不对肽抗原或葡萄球菌肠毒素B(SEB)产生无反应性,这表明细胞间接触是T细胞呈递抗原导致增殖和无反应性所必需的。佛波酯(PMA)处理诱导T细胞从凝胶微滴中迁移出来,恢复细胞间接触,并在T细胞与肽或超抗原共培养后导致增殖和无反应性。然而,对[Ca +2]i释放的分析揭示了T细胞对SEB与肽抗原反应的差异。添加SEB而非肽抗原可诱导单个T细胞中的钙流。此外,αHLA - DR单克隆抗体可阻断肽诱导的增殖和无反应性诱导,但不能阻断SEB诱导的这些反应。因此,SEB在单个T细胞中产生了一个早期信号,这可能不是通过MHC II类进行自我刺激的结果。然而,SEB诱导的增殖和无反应性诱导需要随后的细胞间接触。这些结果表明,肽抗原在钙流、增殖和无反应性诱导方面需要MHC II类依赖性的细胞间相互作用,而SEB在TCR产生钙流后,在增殖和无反应性诱导方面需要MHC II类非依赖性的细胞间相互作用。
