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本文引用的文献

1
Inhibition of RIP2's tyrosine kinase activity limits NOD2-driven cytokine responses.抑制 RIP2 的酪氨酸激酶活性可限制 NOD2 驱动的细胞因子反应。
Genes Dev. 2010 Dec 1;24(23):2666-77. doi: 10.1101/gad.1964410.
2
Innate signals from Nod2 block respiratory tolerance and program T(H)2-driven allergic inflammation.Nod2 先天信号阻断呼吸耐受并启动 T(H)2 驱动的过敏炎症反应。
J Allergy Clin Immunol. 2010 Dec;126(6):1284-93.e10. doi: 10.1016/j.jaci.2010.09.021. Epub 2010 Nov 4.
3
Induction and rescue of Nod2-dependent Th1-driven granulomatous inflammation of the ileum.诱导并挽救 Nod2 依赖性 Th1 驱动的回肠肉芽肿性炎症。
Proc Natl Acad Sci U S A. 2010 Aug 17;107(33):14739-44. doi: 10.1073/pnas.1003363107. Epub 2010 Aug 2.
4
Cooperation between multiple microbial pattern recognition systems is important for host protection against the intracellular pathogen Legionella pneumophila.多种微生物模式识别系统之间的合作对于宿主抵御胞内病原体军团菌至关重要。
Infect Immun. 2010 Jun;78(6):2477-87. doi: 10.1128/IAI.00243-10. Epub 2010 Mar 29.
5
Large-scale proteomics analysis of the human kinome.人类激酶组的大规模蛋白质组学分析。
Mol Cell Proteomics. 2009 Jul;8(7):1751-64. doi: 10.1074/mcp.M800588-MCP200. Epub 2009 Apr 15.
6
The NOD/RIP2 pathway is essential for host defenses against Chlamydophila pneumoniae lung infection.NOD/RIP2信号通路对于宿主抵御肺炎衣原体肺部感染的防御机制至关重要。
PLoS Pathog. 2009 Apr;5(4):e1000379. doi: 10.1371/journal.ppat.1000379. Epub 2009 Apr 10.
7
Activation of NOD2-mediated intestinal pathway in a pediatric population with Crohn's disease.在患有克罗恩病的儿科人群中NOD2介导的肠道通路的激活。
Inflamm Bowel Dis. 2009 Aug;15(8):1145-54. doi: 10.1002/ibd.20907.
8
Tyrosine kinases and inflammatory signalling.酪氨酸激酶与炎症信号传导
Curr Mol Med. 2009 Feb;9(1):69-85. doi: 10.2174/156652409787314507.
9
GEF-H1 mediated control of NOD1 dependent NF-kappaB activation by Shigella effectors.GEF-H1介导志贺氏菌效应蛋白对NOD1依赖性NF-κB激活的调控。
PLoS Pathog. 2008 Nov;4(11):e1000228. doi: 10.1371/journal.ppat.1000228. Epub 2008 Nov 28.
10
Synthesis and characterization of novel quinazoline type inhibitors for mutant and wild-type EGFR and RICK kinases.新型喹唑啉类抑制剂对突变型和野生型表皮生长因子受体及相关激酶的合成与表征
J Recept Signal Transduct Res. 2008;28(4):361-73. doi: 10.1080/10799890802242618.

GEF-H1 对 NOD2 和 Rip2 依赖性固有免疫激活的控制。

Control of NOD2 and Rip2-dependent innate immune activation by GEF-H1.

机构信息

Center for the Study of Inflammatory Bowel Disease, Massachusetts General Hospital and Harvard Medical School, Boston, Massachusetts 02114, USA.

出版信息

Inflamm Bowel Dis. 2012 Apr;18(4):603-12. doi: 10.1002/ibd.21851. Epub 2011 Sep 1.

DOI:10.1002/ibd.21851
PMID:21887730
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3594873/
Abstract

BACKGROUND

Genetic variants of nucleotide-binding oligomerization domain 2 (NOD2) lead to aberrant microbial recognition and can cause chronic inflammatory diseases in patients with Crohn's disease (CD).

METHODS

We utilized gene-specific siRNA mediated knockdown and expression of guanine nucleotide exchange factor H1 (GEF-H1) in wildtype, Rip2-, and Nod2-deficient macrophages, HCT-116 and HEK 293 cells to determine the role of GEF-H1 in NOD2 and Rip2-mediated NF-κB-dependent induction of proinflammatory cytokine expression. Confocal microscopy was used to determine subcellular distribution of GEF-H1, Rip2, and NOD2.

RESULTS

We identified GEF-H1 as an unexpected component of innate immune regulation during microbial pattern recognition by NOD2. Surprisingly, GEF-H1-mediated the activation of Rip2 during signaling by NOD2, but not in the presence of the 3020 insC variant of NOD2 associated with CD. GEF-H1 functioned downstream of NOD2 as part of Rip2-containing signaling complexes and was responsible for phosphorylation of Rip2 by Src tyrosine kinase. Rip2 variants lacking the tyrosine target of GEF-H1-mediated phosphorylation were unable to mediate NF-κB activation in Rip2-deficient macrophages and failed to transduce NOD2 signaling. GEF-H1 is required downstream of NOD2 as part of Rip2-containing signaling complexes for the activation of innate immune responses.

CONCLUSIONS

GEF-H1 connects tyrosine kinase function to NOD-like receptor signaling and is fundamental to the regulation of microbial recognition by ubiquitous innate immune mechanisms mediated by Rip2 kinase.

摘要

背景

核苷酸结合寡聚化结构域 2(NOD2)的遗传变异导致异常的微生物识别,并可导致克罗恩病(CD)患者发生慢性炎症性疾病。

方法

我们利用基因特异性 siRNA 介导的敲低和鸟嘌呤核苷酸交换因子 H1(GEF-H1)在野生型、Rip2-和 Nod2 缺陷型巨噬细胞、HCT-116 和 HEK 293 细胞中的表达,来确定 GEF-H1 在 NOD2 和 Rip2 介导的 NF-κB 依赖性促炎细胞因子表达中的作用。共聚焦显微镜用于确定 GEF-H1、Rip2 和 NOD2 的亚细胞分布。

结果

我们发现 GEF-H1 是 NOD2 识别微生物模式时固有免疫调节的意外组成部分。令人惊讶的是,GEF-H1 在 NOD2 信号转导过程中介导 Rip2 的激活,但在与 CD 相关的 NOD2 的 3020insC 变体存在的情况下并非如此。GEF-H1 作为 Rip2 信号复合物的一部分,作为 NOD2 的下游因子发挥作用,负责Src 酪氨酸激酶对 Rip2 的磷酸化。缺乏 GEF-H1 介导的磷酸化的 Rip2 变体不能在 Rip2 缺陷型巨噬细胞中介导 NF-κB 激活,并且不能转导 NOD2 信号。作为 Rip2 信号复合物的一部分,GEF-H1 是 NOD2 下游的必需因子,用于激活先天免疫反应。

结论

GEF-H1 将酪氨酸激酶功能与 NOD 样受体信号联系起来,对于 Rip2 激酶介导的普遍固有免疫机制对微生物识别的调节至关重要。