Literature DB >> 24620022

Nucleotide-binding oligomerization domain-containing protein 2 controls host response to Campylobacter jejuni in Il10-/- mice.

Xiaolun Sun1, Christian Jobin2.   

Abstract

Innate signaling-induced antimicrobial response represents a key protective host feature against infectious microorganisms such as Campylobacter species. In this study, we investigated the role of nucleotide-binding oligomerization domain-containing protein 2 (NOD2) in Campylobacter jejuni-induced intestinal inflammation. Specific-pathogen-free Il10(-/-), Nod2(-/-), and Il10(-/-); Nod2(-/-) mice were infected with C. jejuni (10(9) colony-forming units/mouse) 24 hours after a 7-day course of antibiotic treatment. Three weeks later, host responses were determined. The nitric oxide (NO) donor sodium nitroprusside was injected intraperitoneally (2 mg/kg daily) to supplement NO. Although healthy in specific-pathogen-free conditions, Il10(-/-); Nod2(-/-) mice developed severe intestinal inflammation following C. jejuni infection, compared with Nod2(-/-) and Il10(-/-) mice. The onset of colitis was associated with elevated neutrophil accumulation, crypt abscesses, and expression of the endogenous proinflammatory mediators Il-1β, Tnfα, and Cxcl1. Fluorescence in situ hybridization and culture assay showed enhanced C. jejuni invasion into the colon and mesenteric lymph nodes in Il10(-/-); Nod2(-/-) mice, compared with Il10(-/-) mice. C. jejuni-induced bactericidal NO production was reduced in peritoneal macrophages from Il10(-/-); Nod2(-/-) mice, compared with Il10(-/-) mice. Importantly, sodium nitroprusside attenuated C. jejuni-induced colitis in Il10(-/-); Nod2(-/-) mice. Our findings suggest that NOD2 signaling is critical to control campylobacteriosis in Il10(-/-) mice, a process involving NOD2-mediated bactericidal responses.
© The Author 2014. Published by Oxford University Press on behalf of the Infectious Diseases Society of America. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com.

Entities:  

Keywords:  Il10−/−mice; bactericide; campylobacteriosis; innate immunity; intestinal inflammation

Mesh:

Substances:

Year:  2014        PMID: 24620022      PMCID: PMC4168300          DOI: 10.1093/infdis/jiu148

Source DB:  PubMed          Journal:  J Infect Dis        ISSN: 0022-1899            Impact factor:   5.226


  44 in total

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6.  Phosphatidylinositol 3-kinase-γ signaling promotes Campylobacter jejuni-induced colitis through neutrophil recruitment in mice.

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9.  Campylobacter jejuni induces acute enterocolitis in gnotobiotic IL-10-/- mice via Toll-like-receptor-2 and -4 signaling.

Authors:  Lea-Maxie Haag; André Fischer; Bettina Otto; Rita Plickert; Anja A Kühl; Ulf B Göbel; Stefan Bereswill; Markus M Heimesaat
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  11 in total

1.  Microbiota-Derived Metabolic Factors Reduce Campylobacteriosis in Mice.

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Journal:  Gastroenterology       Date:  2018-02-01       Impact factor: 22.682

2.  Absence of Nucleotide-Oligomerization-Domain-2 Is Associated with Less Distinct Disease in Campylobacter jejuni Infected Secondary Abiotic IL-10 Deficient Mice.

Authors:  Markus M Heimesaat; Ursula Grundmann; Marie E Alutis; André Fischer; Stefan Bereswill
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3.  Immune responses upon Campylobacter jejuni infection of secondary abiotic mice lacking nucleotide-oligomerization-domain-2.

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4.  Microbiota Composition and Immune Responses During Campylobacter Jejuni Infection in Conventionally Colonized IL-10-/- Mice Lacking Nucleotide Oligomerization Domain 2.

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Review 5.  Nod2: The intestinal gate keeper.

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8.  Microbiota attenuates chicken transmission-exacerbated campylobacteriosis in Il10-/- mice.

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9.  Autonomic Nervous System Neuroanatomical Alterations Could Provoke and Maintain Gastrointestinal Dysbiosis in Autism Spectrum Disorder (ASD): A Novel Microbiome-Host Interaction Mechanistic Hypothesis.

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Review 10.  Novel Clinical Campylobacter jejuni Infection Models Based on Sensitization of Mice to Lipooligosaccharide, a Major Bacterial Factor Triggering Innate Immune Responses in Human Campylobacteriosis.

Authors:  Soraya Mousavi; Stefan Bereswill; Markus M Heimesaat
Journal:  Microorganisms       Date:  2020-03-28
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