Abl SH3的溶液结构及其在SH(32)构建体中与SH2的关系。

The solution structure of Abl SH3, and its relationship to SH2 in the SH(32) construct.

作者信息

Gosser Y Q, Zheng J, Overduin M, Mayer B J, Cowburn D

机构信息

Rockefeller University, New York, NY 10021, USA.

出版信息

Structure. 1995 Oct 15;3(10):1075-86. doi: 10.1016/s0969-2126(01)00243-x.

DOI:10.1016/s0969-2126(01)00243-x

PMID:8590002

Abstract

BACKGROUND

The Src homology domains, SH3 and SH2, of Abl protein tyrosine kinase regulate enzymatic activity in vivo. Abl SH3 suppresses kinase activity, whereas Abl SH2 is required for the transforming activity of the activated form of Abl. We expect that the solution structures of Abl SH3, Abl SH2 and Abl SH(32) (a dual domain comprising SH3 and SH2 subdomains) will contribute to a structural basis for understanding the mechanism of the Abl 'regulatory apparatus'.

RESULTS

We present the solution structure of the free Abl SH3 domain and a structural characterization of the Abl regulatory apparatus, the SH(32) dual domain. The solution structure of Abl SH3 was determined using multidimensional double resonance NMR spectroscopy. It consists of two antiparallel beta sheets packed orthogonally, an arrangement first shown in spectrin SH3. Compared with the crystal structure of the Abl SH3 complexed with a natural ligand, there is no significant difference in overall folding pattern. The structure of the Abl SH(32) dual domain was characterized by NMR spectroscopy using the 1H and 15N resonance assignment of Abl SH3 and Abl SH2. On the basis of the high degree of similarity in chemical shifts and hydrogen/deuterium exchange pattern for the individual domains of SH3 and SH2 compared with those of the SH(32) dual domain, a structural model of the Abl SH(32) regulatory apparatus is suggested. This model is in good agreement with the ligand-binding characteristics of Abl SH3, SH2 and SH(32). The binding constants for isolated SH3 and SH2 domains when binding to natural ligands, measured by intrinsic fluorescence quenching, do not differ significantly from the constants of these domains within SH(32).

CONCLUSION

The solution structures of free Abl SH3 and Abl SH2, and the structural model of Abl SH(32), provide information about the overall topology of these modular domains. The structural model of Abl SH(32), a monomer, consists of the SH3 and SH2 domains connected by a flexible linker. Sites of ligand binding for the two subdomains are independent.

摘要

背景

Abl蛋白酪氨酸激酶的Src同源结构域SH3和SH2在体内调节酶活性。Abl SH3抑制激酶活性，而Abl SH2是Abl活化形式的转化活性所必需的。我们期望Abl SH3、Abl SH2和Abl SH(32)（一个包含SH3和SH2亚结构域的双结构域）的溶液结构将为理解Abl“调节装置”的机制提供结构基础。

结果

我们展示了游离Abl SH3结构域的溶液结构以及Abl调节装置SH(32)双结构域的结构特征。使用多维双共振核磁共振光谱法测定了Abl SH3的溶液结构。它由两个正交堆积的反平行β折叠片组成，这种排列首次在血影蛋白SH3中出现。与与天然配体复合的Abl SH3的晶体结构相比，整体折叠模式没有显著差异。通过使用Abl SH3和Abl SH2的1H和15N共振归属，利用核磁共振光谱法对Abl SH(32)双结构域的结构进行了表征。基于与SH(32)双结构域相比，SH3和SH2各个结构域的化学位移和氢/氘交换模式具有高度相似性，提出了Abl SH(32)调节装置的结构模型。该模型与Abl SH3、SH2和SH(32)的配体结合特性高度一致。通过固有荧光猝灭测量，分离的SH3和SH2结构域与天然配体结合时的结合常数与SH(32)内这些结构域的常数没有显著差异。