Liu Xinqi, Dai Shaodong, Crawford Frances, Fruge Rachel, Marrack Philippa, Kappler John
Integrated Department of Immunology, Zuckerman Family/Canyon Ranch Crystallography Laboratory, Howard Hughes Medical Institute, National Jewish Medical and Research Center, 1400 Jackson Street, Denver, CO 80206, USA.
Proc Natl Acad Sci U S A. 2002 Jun 25;99(13):8820-5. doi: 10.1073/pnas.132272099.
We have solved the crystal structure of the MHCII molecule, IA(b), containing an antigenic variant of the major IA(b)-binding peptide derived from the MHCII IEalpha chain. The four MHC pockets at p1, p4, p6, and p9 that usually bind peptide side chains are largely empty because of alanines in the peptide at these positions. The complex is nevertheless very stable, apparently because of unique alternate interactions between the IA(b) and peptide. In particular, there are multiple additional hydrogen bonds between the N-terminal end of the peptide and the IA(b) alpha chain and an extensive hydrogen bond network involving an asparagine at p7 position of the peptide and the IA(b) beta chain. By using knowledge of the shape and size of the traditional side chain binding pockets and the additional possible interactions, an IA(b) peptide-binding motif can be deduced that agrees well with the sequences of known IA(b)-binding peptides.
我们解析了MHCII分子IA(b)的晶体结构,该分子包含源自MHCII IEα链的主要IA(b)结合肽的一种抗原变体。由于肽在p1、p4、p6和p9位置为丙氨酸,通常结合肽侧链的四个MHC口袋在很大程度上是空的。然而,该复合物非常稳定,显然是因为IA(b)和肽之间存在独特的交替相互作用。特别是,肽的N末端与IA(b)α链之间存在多个额外的氢键,以及一个广泛的氢键网络,该网络涉及肽p7位置的天冬酰胺和IA(b)β链。通过了解传统侧链结合口袋的形状和大小以及其他可能的相互作用,可以推导出一个IA(b)肽结合基序,该基序与已知IA(b)结合肽的序列非常吻合。