Morkowski S, Goldrath A W, Eastman S, Ramachandra L, Freed D C, Whiteley P
Department of Immunology, University of Washington, Seattle 98195, USA.
J Exp Med. 1995 Nov 1;182(5):1403-13. doi: 10.1084/jem.182.5.1403.
Peptides from the lumenal portion of invariant chain (Ii) spanning residues 80-106 (class II-associated Ii peptide [CLIP]) are found in association with several mouse and human major histocompatibility complex (MHC) class II allelic variants in wild-type and presentation-deficient mutant cells. The ready detection of these complexes suggests that such an intermediate is essential to the MHC class II processing pathway. In this study, we demonstrate that T cells recognize CLIP/MHC class II complexes on the surface of normal and mutant cells in a manner indistinguishable from that of nominal antigenic peptides. Surprisingly, T cell hybrids specific for human CLIP bound to murine MHC class II molecule I-Ab and a new monoclonal antibody 30-2 with the same specificity, recognize two independent epitopes expressed on this peptide/class II complex. T cell recognition is dependent on a Gln residue (position 100) in CLIP, whereas the 30-2 antibody recognizes a Lys residue-at position 90. These two residues flank the 91-99 sequence that is conserved among human, mouse, and rat Ii, potentially representing an MHC class II-binding site. Our results suggest that the COOH-terminal portion of CLIP that includes TCR contact residue Gln 100 binds in the groove of I-Ab molecule. Moreover, both T cells and the antibody recognize I-Ab complexed with larger Ii processing intermediates such as the approximately 12-kD small leupeptin-induced protein (SLIP) fragments. Thus, SLIP fragments contain a CLIP region bound to MHC class II molecule in a conformation identical to that of a free CLIP peptide. Finally, our data suggest that SLIP/MHC class II complexes are precursors of CLIP/MHC class II complexes.
在野生型和呈递缺陷型突变细胞中,发现来自恒定链(Ii)腔部分、跨越第80 - 106位残基的肽段(II类相关Ii肽[CLIP])与多种小鼠和人类主要组织相容性复合体(MHC)II类等位基因变体相关联。这些复合体易于检测,表明这样一种中间体对于MHC II类加工途径至关重要。在本研究中,我们证明T细胞以与名义抗原肽难以区分的方式识别正常细胞和突变细胞表面的CLIP/MHC II类复合体。令人惊讶的是,对人CLIP特异的T细胞杂交瘤与鼠MHC II类分子I - Ab以及具有相同特异性的新单克隆抗体30 - 2结合,识别在该肽段/II类复合体上表达的两个独立表位。T细胞识别依赖于CLIP中的一个谷氨酰胺残基(第100位),而30 - 2抗体识别第90位的一个赖氨酸残基。这两个残基位于人、小鼠和大鼠Ii中保守的91 - 99序列两侧,可能代表一个MHC II类结合位点。我们的结果表明,包含TCR接触残基谷氨酰胺100的CLIP羧基末端部分结合在I - Ab分子的凹槽中。此外,T细胞和抗体都识别与较大的Ii加工中间体如约12 - kD的小亮抑酶肽诱导蛋白(SLIP)片段复合的I - Ab。因此,SLIP片段包含一个以与游离CLIP肽相同构象结合到MHC II类分子的CLIP区域。最后,我们的数据表明SLIP/MHC II类复合体是CLIP/MHC II类复合体的前体。