Runnels H A, Moore J C, Jensen P E
Department of Pathology, Emory University School of Medicine, Atlanta, Georgia 30322, USA.
J Exp Med. 1996 Jan 1;183(1):127-36. doi: 10.1084/jem.183.1.127.
Peptide binding by class II major histocompatibility complex proteins is generally enhanced at low pH in the range of hydrogen ion concentrations found in the endosomal compartments of antigen-presenting cells. We and others have proposed that class II molecules undergo a reversible conformational change at low pH that is associated with enhanced peptide loading. However, no one has previously provided direct evidence for a structural change in class II proteins in the mildly acidic pH conditions in which enhanced peptide binding is observed. In this study, susceptibility to denaturation induced by sodium dodecyl sulfate (SDS) detergent or heat was used to probe the conformation of class II at different hydrogen ion concentrations. Class II molecules became sensitive to denaturation at pH 5.5-6.5 depending on the allele and experimental conditions. The observed structural transition was fully reversible if acidic pH was neutralized before exposure to SDS or heat. Experiments with the environment-sensitive fluorescent probe ANS (8-anilino-1-naphthalene-sulfonic acid) provided further evidence for a reversible structural transition at mildly acidic pH associated with an increase in exposed hydrophobicity in class II molecules. IAd conformation was found to change at a higher pH than IEd, IEk, or IAk, which correlates with the different pH optimal for peptide binding by these molecules. We conclude that pH regulates peptide binding by influencing the structure of class II molecules.
II类主要组织相容性复合体蛋白与肽的结合通常在抗原呈递细胞内体区室中发现的氢离子浓度范围内的低pH值下增强。我们和其他人提出,II类分子在低pH值下会发生可逆的构象变化,这与增强的肽负载有关。然而,以前没有人在观察到增强肽结合的微酸性pH条件下为II类蛋白的结构变化提供直接证据。在本研究中,利用十二烷基硫酸钠(SDS)去污剂或热诱导的变性敏感性来探测不同氢离子浓度下II类分子的构象。根据等位基因和实验条件,II类分子在pH 5.5 - 6.5时对变性变得敏感。如果在暴露于SDS或热之前将酸性pH中和,则观察到的结构转变是完全可逆的。使用对环境敏感的荧光探针ANS(8-苯胺基-1-萘磺酸)的实验进一步证明了在微酸性pH下存在可逆的结构转变,这与II类分子中暴露的疏水性增加有关。发现IAd构象在比IEd、IEk或IAk更高的pH值下发生变化,这与这些分子结合肽的不同最佳pH值相关。我们得出结论,pH通过影响II类分子的结构来调节肽的结合。