Hein Zeynep, Uchtenhagen Hannes, Abualrous Esam Tolba, Saini Sunil Kumar, Janßen Linda, Van Hateren Andy, Wiek Constanze, Hanenberg Helmut, Momburg Frank, Achour Adnane, Elliott Tim, Springer Sebastian, Boulanger Denise
Molecular Life Science Center, Jacobs University Bremen, 28759 Bremen, Germany.
Science for Life Laboratory, Department of Medicine Solna, Karolinska Institutet, SE-171 77 Stockholm, Sweden.
J Cell Sci. 2014 Jul 1;127(Pt 13):2885-97. doi: 10.1242/jcs.145334. Epub 2014 May 7.
The intracellular trafficking of major histocompatibility complex class I (MHC-I) proteins is directed by three quality control mechanisms that test for their structural integrity, which is correlated to the binding of high-affinity antigenic peptide ligands. To investigate which molecular features of MHC-I these quality control mechanisms detect, we have followed the hypothesis that suboptimally loaded MHC-I molecules are characterized by their conformational mobility in the F-pocket region of the peptide-binding site. We have created a novel variant of an MHC-I protein, K(b)-Y84C, in which two α-helices in this region are linked by a disulfide bond that mimics the conformational and dynamic effects of bound high-affinity peptide. K(b)-Y84C shows a remarkable increase in the binding affinity to its light chain, beta-2 microglobulin (β2m), and bypasses all three cellular quality control steps. Our data demonstrate (1) that coupling between peptide and β2m binding to the MHC-I heavy chain is mediated by conformational dynamics; (2) that the folded conformation of MHC-I, supported by β2m, plays a decisive role in passing the ER-to-cell-surface transport quality controls; and (3) that β2m association is also tested by the cell surface quality control that leads to MHC-I endocytosis.
主要组织相容性复合体I类(MHC-I)蛋白的细胞内运输由三种质量控制机制指导,这些机制检测其结构完整性,而结构完整性与高亲和力抗原肽配体的结合相关。为了研究这些质量控制机制检测到的MHC-I的哪些分子特征,我们遵循了这样的假设,即负载欠佳的MHC-I分子的特征在于其在肽结合位点的F口袋区域的构象流动性。我们创建了一种新型的MHC-I蛋白变体K(b)-Y84C,其中该区域的两个α螺旋通过二硫键相连,模拟了结合的高亲和力肽的构象和动态效应。K(b)-Y84C对其轻链β2微球蛋白(β2m)的结合亲和力显著增加,并绕过了所有三个细胞质量控制步骤。我们的数据表明:(1)肽与β2m结合到MHC-I重链之间的偶联是由构象动力学介导的;(2)由β2m支持的MHC-I折叠构象在通过内质网到细胞表面的运输质量控制中起决定性作用;(3)β2m缔合也受到导致MHC-I内吞作用的细胞表面质量控制的检测。
