Ruppert J, Sidney J, Celis E, Kubo R T, Grey H M, Sette A
Cytel Corporation, San Diego, California 92121.
Cell. 1993 Sep 10;74(5):929-37. doi: 10.1016/0092-8674(93)90472-3.
The functional determinants of histocompatibility leukocyte antigen (HLA)-A2.1-peptide interactions have been detailed by the use of quantitative molecular binding assays and a chemically synthesized library of naturally occurring epitopes. The importance of hydrophobic anchor residues in position 2 and the C-terminus was confirmed. These anchors are necessary, but not sufficient, for high affinity binding, as the predictions based solely on these anchors are only about 30% accurate. Prominent roles for several other positions (1, 3, and 7) were also demonstrated. The location of these residues within the peptides matches secondary A2.1 pockets previously demonstrated by X-ray crystallography. From a functional standpoint, similar dominant negative effects on binding were observed for charged residues in both nonamers and decamers, while positive effects differed between nonamers and decamers. An extended motif taking into account secondary anchors increased the predictability of A2.1-binding epitopes to a level of 70%, underscoring the practical usefulness of extended motifs.
通过使用定量分子结合测定法和天然存在表位的化学合成文库,已经详细阐述了组织相容性白细胞抗原(HLA)-A2.1-肽相互作用的功能决定因素。证实了第2位和C末端疏水锚定残基的重要性。这些锚对于高亲和力结合是必要的,但不是充分的,因为仅基于这些锚的预测只有约30%的准确率。还证明了其他几个位置(1、3和7)的重要作用。这些残基在肽中的位置与先前通过X射线晶体学证明的二级A2.1口袋相匹配。从功能角度来看,在九聚体和十聚体中,带电荷残基对结合均观察到类似的显性负效应,而九聚体和十聚体中的正效应有所不同。考虑到二级锚的扩展基序将A2.1结合表位的可预测性提高到70%的水平,突出了扩展基序的实际实用性。
