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在两种晶格中精修的来自人类CD4的HIV与MHC结合片段的结构。

Structures of an HIV and MHC binding fragment from human CD4 as refined in two crystal lattices.

作者信息

Ryu S E, Truneh A, Sweet R W, Hendrickson W A

机构信息

Department of Biochemistry and Molecular Biophysics, Columbia University, New York, NY 10032.

出版信息

Structure. 1994 Jan 15;2(1):59-74. doi: 10.1016/S0969-2126(00)00008-3.

DOI:10.1016/S0969-2126(00)00008-3
PMID:8075984
Abstract

BACKGROUND

The T-cell surface glycoprotein CD4 interacts with class II molecules of the major histocompatibility complex (MHC) enhancing the signal for T-cell activation. Human CD4 also interacts, at high affinity, with the HIV envelope glycoprotein, gp120, to mediate T-cell infection by HIV. Crystal structures of amino-terminal two-domain (D1D2) fragments of human CD4, which contain the residues implicated in HIV and MHC interactions, have been reported earlier.

RESULTS

We have determined the crystal structure of a new D1D2 construct by molecular replacement from a previously described crystal structure of D1D2. This structure has more uniform lattice contacts than are in the first. This gives an improved image of domain D2, which in turn has permitted further refinement of the initial structure at 2.3 A resolution against a more complete data set. The structure of the second crystal form was also refined at 2.9 A resolution. In both models, all residues from 1 to 178 are now well defined, including the loop regions in D2.

CONCLUSIONS

Similarities of the molecular structure in the two lattices suggest that the D1D2 fragment works as a unit, with segmental flexibility largely restricted to the junction between domains D2 and D3. Variability of conformation in loops, including those implicated in MHC and HIV binding, requires an 'induced fit' in these interactions. Well defined density for the exposed side chain of Phe43 in both crystals confirms a prominent role for this residue in gp120 binding.

摘要

背景

T细胞表面糖蛋白CD4与主要组织相容性复合体(MHC)的II类分子相互作用,增强T细胞激活信号。人CD4还以高亲和力与HIV包膜糖蛋白gp120相互作用,介导HIV对T细胞的感染。此前已报道了人CD4氨基末端两结构域(D1D2)片段的晶体结构,该片段包含与HIV和MHC相互作用相关的残基。

结果

我们通过分子置换,利用先前描述的D1D2晶体结构确定了一种新的D1D2构建体的晶体结构。该结构具有比第一个结构更均匀的晶格接触。这给出了D2结构域更好的图像,进而允许在2.3埃分辨率下针对更完整的数据集对初始结构进行进一步优化。第二种晶体形式的结构也在2.9埃分辨率下进行了优化。在这两种模型中,现在1至178位的所有残基都已明确界定,包括D2中的环区。

结论

两种晶格中分子结构的相似性表明,D1D2片段作为一个整体起作用,片段的灵活性主要限于D2和D3结构域之间的连接处。环区构象的变异性,包括那些与MHC和HIV结合相关的环区,在这些相互作用中需要“诱导契合”。两种晶体中Phe43暴露侧链的明确密度证实了该残基在gp120结合中的重要作用。

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