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本文引用的文献

1
Helicobacter pylori-induced IL-1β secretion in innate immune cells is regulated by the NLRP3 inflammasome and requires the cag pathogenicity island.幽门螺杆菌诱导固有免疫细胞分泌的白细胞介素-1β受 NLRP3 炎性小体调节,需要 cag 致病岛。
J Immunol. 2014 Oct 1;193(7):3566-76. doi: 10.4049/jimmunol.1400362. Epub 2014 Aug 29.
2
The Cag pathogenicity island and interaction between TLR2/NOD2 and NLRP3 regulate IL-1β production in Helicobacter pylori infected dendritic cells.Cag 致病岛和 TLR2/NOD2 与 NLRP3 之间的相互作用调节幽门螺杆菌感染树突状细胞中 IL-1β 的产生。
Eur J Immunol. 2013 Oct;43(10):2650-8. doi: 10.1002/eji.201243281. Epub 2013 Jul 25.
3
TRIF licenses caspase-11-dependent NLRP3 inflammasome activation by gram-negative bacteria.TRIF 通过革兰氏阴性菌诱导 caspase-11 依赖的 NLRP3 炎性小体激活。
Cell. 2012 Aug 3;150(3):606-19. doi: 10.1016/j.cell.2012.07.007. Epub 2012 Jul 19.
4
Caspase-1 has both proinflammatory and regulatory properties in Helicobacter infections, which are differentially mediated by its substrates IL-1β and IL-18.半胱天冬酶-1 在幽门螺杆菌感染中具有促炎和调节作用,其底物白细胞介素-1β和白细胞介素-18 通过不同的机制介导。
J Immunol. 2012 Apr 15;188(8):3594-602. doi: 10.4049/jimmunol.1103212. Epub 2012 Mar 7.
5
DC-derived IL-18 drives Treg differentiation, murine Helicobacter pylori-specific immune tolerance, and asthma protection.树突状细胞衍生的白细胞介素-18 驱动调节性 T 细胞分化、鼠幽门螺杆菌特异性免疫耐受和哮喘保护。
J Clin Invest. 2012 Mar;122(3):1082-96. doi: 10.1172/JCI61029. Epub 2012 Feb 6.
6
Molecular mechanisms of inflammasome activation during microbial infections.微生物感染过程中炎症小体激活的分子机制。
Immunol Rev. 2011 Sep;243(1):174-90. doi: 10.1111/j.1600-065X.2011.01041.x.
7
Helicobacter pylori infection prevents allergic asthma in mouse models through the induction of regulatory T cells.幽门螺杆菌感染通过诱导调节性 T 细胞预防小鼠模型中的过敏性哮喘。
J Clin Invest. 2011 Aug;121(8):3088-93. doi: 10.1172/JCI45041.
8
Tolerance rather than immunity protects from Helicobacter pylori-induced gastric preneoplasia.耐受而非免疫可预防幽门螺杆菌引起的胃前病变。
Gastroenterology. 2011 Jan;140(1):199-209. doi: 10.1053/j.gastro.2010.06.047. Epub 2010 Jun 22.
9
Association between Helicobacter pylori infection and inflammatory bowel disease: a meta-analysis and systematic review of the literature.幽门螺杆菌感染与炎症性肠病的关系:文献的荟萃分析和系统综述。
Inflamm Bowel Dis. 2010 Jun;16(6):1077-84. doi: 10.1002/ibd.21116.
10
Helicobacter pylori colonization is inversely associated with childhood asthma.幽门螺杆菌定植与儿童哮喘呈负相关。
J Infect Dis. 2008 Aug 15;198(4):553-60. doi: 10.1086/590158.

幽门螺杆菌脲酶诱导的TLR2/NLRP3/IL-18轴激活可预防哮喘。

Helicobacter urease-induced activation of the TLR2/NLRP3/IL-18 axis protects against asthma.

作者信息

Koch Katrin N, Hartung Mara L, Urban Sabine, Kyburz Andreas, Bahlmann Anna S, Lind Judith, Backert Steffen, Taube Christian, Müller Anne

出版信息

J Clin Invest. 2015 Aug 3;125(8):3297-302. doi: 10.1172/JCI79337. Epub 2015 Jul 27.

DOI:10.1172/JCI79337
PMID:26214524
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4563744/
Abstract

Inflammasome activation and caspase-1-dependent (CASP1-dependent) processing and secretion of IL-1β and IL-18 are critical events at the interface of the bacterial pathogen Helicobacter pylori with its host. Whereas IL-1β promotes Th1 and Th17 responses and gastric immunopathology, IL-18 is required for Treg differentiation, H. pylori persistence, and protection against allergic asthma, which is a hallmark of H. pylori-infected mice and humans. Here, we show that inflammasome activation in DCs requires the cytoplasmic sensor NLRP3 as well as induction of TLR2 signaling by H. pylori. Screening of an H. pylori transposon mutant library revealed that pro-IL-1β expression is induced by LPS from H. pylori, while the urease B subunit (UreB) is required for NLRP3 inflammasome licensing. UreB activates the TLR2-dependent expression of NLRP3, which represents a rate-limiting step in NLRP3 inflammasome assembly. ureB-deficient H. pylori mutants were defective for CASP1 activation in murine bone marrow-derived DCs, splenic DCs, and human blood-derived DCs. Despite colonizing the murine stomach, ureB mutants failed to induce IL-1β and IL-18 secretion and to promote Treg responses. Unlike WT H. pylori, ureB mutants were incapable of conferring protection against allergen-induced asthma in murine models. Together, these results indicate that the TLR2/NLRP3/CASP1/IL-18 axis is critical to H. pylori-specific immune regulation.

摘要

炎症小体激活以及白细胞介素-1β(IL-1β)和白细胞介素-18(IL-18)的半胱天冬酶-1依赖性(CASP1依赖性)加工与分泌是细菌病原体幽门螺杆菌与其宿主相互作用中的关键事件。IL-1β促进Th1和Th17反应以及胃部免疫病理学变化,而IL-18是调节性T细胞(Treg)分化、幽门螺杆菌持续存在以及预防过敏性哮喘所必需的,这是幽门螺杆菌感染小鼠和人类的一个标志。在此,我们表明树突状细胞(DCs)中的炎症小体激活需要细胞质传感器NLRP3以及幽门螺杆菌诱导的Toll样受体2(TLR2)信号传导。对幽门螺杆菌转座子突变体文库的筛选显示,幽门螺杆菌的脂多糖(LPS)可诱导前体IL-1β表达,而NLRP3炎症小体激活需要脲酶B亚基(UreB)。UreB激活NLRP3的TLR2依赖性表达,这是NLRP3炎症小体组装中的一个限速步骤。脲酶B缺陷型幽门螺杆菌突变体在小鼠骨髓来源的DCs、脾脏DCs和人血来源的DCs中,半胱天冬酶-1(CASP1)激活存在缺陷。尽管脲酶B突变体定殖于小鼠胃部,但它们无法诱导IL-1β和IL-18分泌,也无法促进Treg反应。与野生型幽门螺杆菌不同,脲酶B突变体在小鼠模型中无法对变应原诱导的哮喘提供保护。总之,这些结果表明TLR2/NLRP3/CASP1/IL-18轴对幽门螺杆菌特异性免疫调节至关重要。