Sadegh-Nasseri S, Stern L J, Wiley D C, Germain R N
Laboratory of Immunology, NIAID, National Institutes of Health, Bethesda, Maryland 20892.
Nature. 1994 Aug 25;370(6491):647-50. doi: 10.1038/370647a0.
Major histocompatibility complex class II molecules and their peptide ligands show unusual interaction kinetics, with slow association and dissociation rates that yield an apparent equilibrium constant of approximately 10(-6)-10(-8) M (refs 1-5). However, there is evidence for a specific, rapidly formed, short-lived complex. The altered migration on SDS-polyacrylamide gel electrophoresis of class II molecules upon stable peptide binding has led to the hypothesis that the two kinetically distinguishable types of class II-peptide complexes correspond to different structures. In accord with this model, we demonstrate here that insect cell-derived HLA-DR1 class II molecules show fast, almost stoichiometric occupancy with rapidly dissociating peptide while remaining sensitive to SDS-induced chain dissociation. The same DR1 molecules slowly and quantitatively form long-lived complexes resistant to SDS-induced denaturation. Surprisingly, low-affinity interaction with peptide protects class II from denaturation at physiological temperature, a finding that has implications for understanding the role of invariant chain in the intracellular behaviour of class II molecules.
主要组织相容性复合体II类分子及其肽配体表现出不同寻常的相互作用动力学,其结合和解离速率缓慢,产生的表观平衡常数约为10^(-6)-10^(-8) M(参考文献1-5)。然而,有证据表明存在一种特异性的、快速形成的、寿命短暂的复合物。II类分子在稳定结合肽后在SDS-聚丙烯酰胺凝胶电泳上迁移的改变导致了这样一种假说,即两种动力学上可区分的II类-肽复合物类型对应于不同的结构。与该模型一致,我们在此证明昆虫细胞衍生的HLA-DR1 II类分子表现出快速、几乎化学计量的占据,肽快速解离,同时对SDS诱导的链解离保持敏感。相同的DR1分子缓慢且定量地形成对SDS诱导变性具有抗性的长寿命复合物。令人惊讶的是,与肽的低亲和力相互作用可保护II类分子在生理温度下不发生变性,这一发现对于理解恒定链在II类分子细胞内行为中的作用具有重要意义。
