Rohren E M, Pease L R, Ploegh H L, Schumacher T N
Department of Immunology, Mayo Clinic, Rochester, Minnesota 55905.
J Exp Med. 1993 Jun 1;177(6):1713-21. doi: 10.1084/jem.177.6.1713.
The set of peptides that is bound by a given major histocompatibility complex class I product can be described by one or two properly spaced anchor residues, and two properly spaced peptide termini, approximately 8-10 residues apart. Using radiolabeled peptide libraries, we examined whether mutations in those "pockets" in class I Kb molecules that do not seem critically involved in the interaction with the peptide anchor residues, do exert an effect on the set of preferred peptides. We find that mutations in all the pockets found in the structure of Kb have a significant effect on the peptide preference of the molecule, and their recognition by cytotoxic T cells. Alterations in substrate specificity are also observed for mutations involving residues that interact with main chain atoms in both peptide termini. These findings challenge a static view of the interaction of peptide termini with their respective pockets in the class I molecule, and imply a role for the minor pockets in peptide selectivity.
由给定的主要组织相容性复合体I类产物所结合的一组肽段,可以通过一个或两个间距合适的锚定残基以及两个间距合适的肽段末端(相距约8 - 10个残基)来描述。利用放射性标记的肽库,我们研究了I类Kb分子中那些看似与肽锚定残基相互作用无关紧要的“口袋”中的突变,是否会对偏好肽段的集合产生影响。我们发现,Kb结构中所有口袋中的突变对该分子的肽段偏好性及其被细胞毒性T细胞识别均有显著影响。对于涉及与两个肽段末端主链原子相互作用的残基的突变,也观察到底物特异性的改变。这些发现挑战了肽段末端与I类分子中各自口袋相互作用的静态观点,并暗示了小口袋在肽段选择性中的作用。