Fab与HIV-1衣壳蛋白p24形成复合物时抗原与抗体之间的相互构象适应。

Mutual conformational adaptations in antigen and antibody upon complex formation between an Fab and HIV-1 capsid protein p24.

作者信息

Monaco-Malbet S, Berthet-Colominas C, Novelli A, Battaï N, Piga N, Cheynet V, Mallet F, Cusack S

机构信息

European Molecular Laboratory Biology Grenoble Outstation B.P. 156X F-38042 Cedex 9, Grenoble, France.

出版信息

Structure. 2000 Oct 15;8(10):1069-77. doi: 10.1016/s0969-2126(00)00507-4.

DOI:10.1016/s0969-2126(00)00507-4

PMID:11080628

Abstract

BACKGROUND

Elucidating the structural basis of antigen-antibody recognition ideally requires a structural comparison of free and complexed components. To this end we have studied a mouse monoclonal antibody, denoted 13B5, raised against p24, the capsid protein of HIV-1. We have previously described the first crystal structure of intact p24 as visualized in the Fab13B5-p24 complex. Here we report the structure of the uncomplexed Fab13B5 at 1.8 A resolution and analyze the Fab-p24 interface and the conformational changes occurring upon complex formation.

RESULTS

Fab13B5 recognizes a nearly continuous epitope comprising a helix-turn-helix motif in the C-terminal domain of p24. Only 4 complementarity-determining regions (CDRs) are in contact with p24 with most interactions being by the heavy chain. Comparison of the free and complexed Fab reveals that structural changes upon binding are localized to a few side chains of CDR-H1 and -H2 but involve a larger, concerted displacement of CDR-H3. Antigen binding is also associated with an 8 degrees relative rotation of the heavy and light chain variable regions. In p24, small conformational changes localized to the turn between the two helices comprising the epitope result from Fab binding.

CONCLUSIONS

The relatively small area of contact between Fab13B5 and p24 may be related to the fact that the epitope is a continuous peptide rather than a more complex protein surface and correlates with a relatively low affinity of antigen and antibody. Despite this, a significant quaternary structural change occurs in the Fab upon complex formation, with additional smaller adaptations of both antigen and antibody.

摘要

背景

要阐明抗原 - 抗体识别的结构基础，理想情况下需要对游离和复合状态的组分进行结构比较。为此，我们研究了一种针对HIV - 1衣壳蛋白p24产生的小鼠单克隆抗体，命名为13B5。我们之前已描述了在Fab13B5 - p24复合物中可视化的完整p24的首个晶体结构。在此，我们报告游离状态的Fab13B5在1.8 Å分辨率下的结构，并分析Fab - p24界面以及复合物形成时发生的构象变化。

结果

Fab13B5识别一个几乎连续的表位，该表位包含p24 C末端结构域中的一个螺旋 - 转角 - 螺旋基序。只有4个互补决定区（CDR）与p24接触，且大多数相互作用由重链介导。游离和复合状态的Fab比较显示，结合时的结构变化局限于CDR - H1和 - H2的少数几个侧链，但涉及CDR - H3更大的协同位移。抗原结合还与重链和轻链可变区相对旋转8°相关。在p24中，Fab结合导致局限于构成表位的两个螺旋之间转角处的小构象变化。

结论

Fab13B5与p24之间相对较小的接触面积可能与表位是连续肽而非更复杂的蛋白质表面这一事实有关，并且与抗原和抗体相对较低的亲和力相关。尽管如此，复合物形成时Fab中发生了显著的四级结构变化，同时抗原和抗体都有额外较小的适应性变化。

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Fab与HIV-1衣壳蛋白p24形成复合物时抗原与抗体之间的相互构象适应。

Mutual conformational adaptations in antigen and antibody upon complex formation between an Fab and HIV-1 capsid protein p24.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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