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分子伴侣HSP70与NOD2结合并使其稳定,NOD2是一种参与克罗恩病的重要蛋白质。

The molecular chaperone HSP70 binds to and stabilizes NOD2, an important protein involved in Crohn disease.

作者信息

Mohanan Vishnu, Grimes Catherine Leimkuhler

机构信息

From the Departments of Biological Sciences and.

From the Departments of Biological Sciences and Chemistry and Biochemistry, University of Delaware, Newark, Delaware 19716

出版信息

J Biol Chem. 2014 Jul 4;289(27):18987-98. doi: 10.1074/jbc.M114.557686. Epub 2014 Apr 30.

Abstract

Microbes are detected by the pathogen-associated molecular patterns through specific host pattern recognition receptors. Nucleotide-binding oligomerization domain-containing protein 2 (NOD2) is an intracellular pattern recognition receptor that recognizes fragments of the bacterial cell wall. NOD2 is important to human biology; when it is mutated it loses the ability to respond properly to bacterial cell wall fragments. To determine the mechanisms of misactivation in the NOD2 Crohn mutants, we developed a cell-based system to screen for protein-protein interactors of NOD2. We identified heat shock protein 70 (HSP70) as a protein interactor of both wild type and Crohn mutant NOD2. HSP70 has previously been linked to inflammation, especially in the regulation of anti-inflammatory molecules. Induced HSP70 expression in cells increased the response of NOD2 to bacterial cell wall fragments. In addition, an HSP70 inhibitor, KNK437, was capable of decreasing NOD2-mediated NF-κB activation in response to bacterial cell wall stimulation. We found HSP70 to regulate the half-life of NOD2, as increasing the HSP70 level in cells increased the half-life of NOD2, and down-regulating HSP70 decreased the half-life of NOD2. The expression levels of the Crohn-associated NOD2 variants were less compared with wild type. The overexpression of HSP70 significantly increased NOD2 levels as well as the signaling capacity of the mutants. Thus, our study shows that restoring the stability of the NOD2 Crohn mutants is sufficient for rescuing the ability of these mutations to signal the presence of a bacterial cell wall ligand.

摘要

微生物通过特定的宿主模式识别受体被病原体相关分子模式所检测。含核苷酸结合寡聚化结构域蛋白2(NOD2)是一种细胞内模式识别受体,可识别细菌细胞壁片段。NOD2对人类生物学很重要;当它发生突变时,就会失去对细菌细胞壁片段做出适当反应的能力。为了确定NOD2克罗恩病突变体中错误激活的机制,我们开发了一种基于细胞的系统来筛选NOD2的蛋白质-蛋白质相互作用分子。我们鉴定出热休克蛋白70(HSP70)是野生型和克罗恩病突变体NOD2的蛋白质相互作用分子。HSP70此前已与炎症相关联,尤其是在抗炎分子的调节方面。细胞中诱导的HSP70表达增加了NOD2对细菌细胞壁片段的反应。此外,一种HSP70抑制剂KNK437能够降低NOD2介导的对细菌细胞壁刺激的NF-κB激活。我们发现HSP70调节NOD2的半衰期,因为细胞中HSP70水平的增加会增加NOD2的半衰期,而下调HSP70则会降低NOD2的半衰期。与野生型相比,克罗恩病相关的NOD2变体的表达水平较低。HSP70的过表达显著增加了NOD2水平以及突变体的信号传导能力。因此,我们的研究表明,恢复NOD2克罗恩病突变体的稳定性足以挽救这些突变体对细菌细胞壁配体存在发出信号的能力。

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