Cease K B, Berkower I, York-Jolley J, Berzofsky J A
J Exp Med. 1986 Nov 1;164(5):1779-84. doi: 10.1084/jem.164.5.1779.
The T cell response to sperm whale myoglobin in the H-2d haplotype has been shown to be largely focused on a limited region around glutamic acid 109 recognized in association with I-Ad. T cell clones 9.27 and 1.2 have been previously (4, 5) shown to reflect this specificity and MHC restriction. In this study we have used a panel of synthetic peptides from the region 102-118 of myoglobin to characterize the specificities of these representative clones. The segment from 106-118 was found to represent a consensus region for recognition by both clones. However, we saw significant differences between clones in the hierarchy of responsiveness to peptides within the panel. In as much as the peptide and the I-Ad molecule remain constant, these differences derive from differences in how each T cell receptor interacts with the antigen. This peptide segment is an amphipathic alpha helix in native myoglobin, meaning that one side is hydrophobic and the other hydrophilic. It is one of the prototype cases that led us to find that amphipathic helices constitute the majority of immunodominant sites recognized by helper T cells (1). It is likely that the peptide will refold into an amphipathic helix stabilized by the interface at the surface of the presenting cell. When such secondary conformation is considered, these data are consistent with a model of multiple T cell specificities arising from multiple views of a single antigen conformation at a single Ia-binding site and do not require postulation of multiple conformations or binding sites. Additionally, the finding of distinct specificities suggests that the immunodominance of this site depends not on the dominance of a single clone, but on the focusing of a polyclonal response on a single region of the molecule in association with I-Ad. The immunodominance of this particular region of the protein may thus depend on intrinsic features of the site, such as potential to form an amphipathic helix, as well as extrinsic factors such as binding properties of the I-A molecule.
在H-2d单倍型中,T细胞对抹香鲸肌红蛋白的反应已被证明主要集中在与I-Ad相关的谷氨酸109周围的有限区域。T细胞克隆9.27和1.2先前已(4,5)被证明反映了这种特异性和MHC限制。在本研究中,我们使用了一组来自肌红蛋白102 - 118区域的合成肽来表征这些代表性克隆的特异性。发现106 - 118片段是两个克隆识别的共有区域。然而,我们发现克隆之间对该组内肽的反应性等级存在显著差异。由于肽和I-Ad分子保持不变,这些差异源于每个T细胞受体与抗原相互作用方式的不同。该肽段在天然肌红蛋白中是一个两亲性α螺旋,这意味着一侧是疏水的,另一侧是亲水的。这是导致我们发现两亲性螺旋构成辅助性T细胞识别的大多数免疫显性位点的典型案例之一(1)。该肽可能会重新折叠成由呈递细胞表面界面稳定的两亲性螺旋。当考虑这种二级构象时,这些数据与单个Ia结合位点上单个抗原构象的多个视图产生多种T细胞特异性的模型一致,并且不需要假设多种构象或结合位点。此外,不同特异性的发现表明该位点的免疫显性不取决于单个克隆的优势,而是取决于多克隆反应集中在与I-Ad相关的分子的单个区域上。因此,该蛋白质这一特定区域的免疫显性可能取决于该位点的内在特征,如形成两亲性螺旋的潜力,以及外在因素,如I-A分子的结合特性。