Abstract
BackgroundCampylobacter jejuni infections are of rising importance worldwide. Given that innate immune receptors including nucleotide-oligomerization-domain-2 (Nod2) are essentially involved in combating enteropathogenic infections, we here surveyed the impact of Nod2 in murine campylobacteriosis.Methods and resultsIn order to overcome physiological colonization resistance preventing from C. jejuni infection, we generated secondary abiotic Nod2−/− and wildtype (WT) mice by broad-spectrum antibiotic treatment. Mice were then perorally infected with C. jejuni strain 81-176 on 2 consecutive days and could be stably colonized by the pathogen at high loads. Notably, Nod2 deficiency did not affect gastrointestinal colonization properties of C. jejuni. Despite high intestinal pathogenic burdens mice were virtually uncompromised and exhibited fecal blood in single cases only. At day 7 postinfection (p.i.) similar increases in numbers of colonic epithelial apoptotic cells could be observed in mice of either genotype, whereas C. jejuni infected Nod2−/− mice displayed more distinct regenerative properties in the colon than WT controls. C. jejuni infection was accompanied by increases in distinct immune cell populations such as T lymphocytes and regulatory T cells in mice of either genotype. Increases in T lymphocytes, however, were less pronounced in large intestines of Nod2−/− mice at day 7 p.i. when compared to WT mice, whereas colonic numbers of B lymphocytes were elevated in WT controls only upon C. jejuni infection. At day 7 p.i., colonic pro-inflammatory mediators including nitric oxide, TNF, IFN-γ and IL-22 increased more distinctly in Nod2−/− as compared to WT mice, whereas C. jejuni induced IL-23p19 and IL-18 levels were lower in the large intestines of the former. Converse to the colon, however, ileal concentrations of nitric oxide, TNF, IFN-γ, IL-6 and IL-10 were lower in Nod2−/− as compared to WT mice at day 7 p.i. Even though MUC2 was down-regulated in C. jejuni infected Nod2−/− mice, this did not result in increased pathogenic translocation from the intestinal tract to extra-intestinal compartments.ConclusionIn secondary abiotic mice, Nod2 signaling is involved in the orchestrated host immune responses upon C. jejuni infection, but does not control pathogen loads in the gastrointestinal tract.
Highlights
Campylobacter jejuni infections are of rising importance worldwide
In secondary abiotic mice, Nod2 signaling is involved in the orchestrated host immune responses upon C. jejuni infection, but does not control pathogen loads in the gastrointestinal tract
We addressed whether pathogenic colonization properties, potential translocation of viable bacteria to extraintestinal compartments, infection induced macroscopic and microscopic sequelae, and pro-inflammatory intestinal as well as systemic immune responses were affected by Nod2 signaling in C. jejuni infected secondary abiotic mice
Summary
Campylobacter jejuni infections are of rising importance worldwide. Given that innate immune receptors including nucleotide-oligomerization-domain-2 (Nod2) are essentially involved in combating enteropathogenic infections, we here surveyed the impact of Nod in murine campylobacteriosis. Susceptibility to pathogenic infection is highly depending on the distinct intestinal microbiota composition of the respective host. Colonized adult mice, for instance, are protected from C. jejuni infection and expel the pathogen within a few days even upon peroral high dose infection [8,9,10]. Modification of the murine microbiota by broad-spectrum antibiotic treatment, compromizes physiological colonization resistance and facilitates stable gastrointestinal C. jejuni infection of the resulting secondary abiotic mice at high loads [8, 10, 11]. Secondary abiotic mice present with distinct C. jejuni induced pro-inflammatory immune and colonic apoptotic responses thereby mimicking key features of human campylobacteriosis [6, 8]. The secondary abiotic mouse model has been proven well-suitable to dissect enteropathogenic-host interactions in vivo [10, 11]
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