Abstract
Campylobacter jejuni is a common cause of diarrheal disease worldwide. Human infection typically occurs through the ingestion of contaminated poultry products. We previously demonstrated that an attenuated Escherichia coli live vaccine strain expressing the C. jejuni N-glycan on its surface reduced the Campylobacter load in more than 50% of vaccinated leghorn and broiler birds to undetectable levels (responder birds), whereas the remainder of the animals was still colonized (non-responders). To understand the underlying mechanism, we conducted three vaccination and challenge studies using 135 broiler birds and found a similar responder/non-responder effect. Subsequent genome-wide association studies (GWAS), analyses of bird sex and levels of vaccine-induced IgY responses did not correlate with the responder versus non-responder phenotype. In contrast, antibodies isolated from responder birds displayed a higher Campylobacter-opsonophagocytic activity when compared to antisera from non-responder birds. No differences in the N-glycome of the sera could be detected, although minor changes in IgY glycosylation warrant further investigation. As reported before, the composition of the microbiota, particularly levels of OTU classified as Clostridium spp., Ruminococcaceae and Lachnospiraceae are associated with the response. Transplantation of the cecal microbiota of responder birds into new birds in combination with vaccination resulted in further increases in vaccine-induced antigen-specific IgY responses when compared to birds that did not receive microbiota transplants. Our work suggests that the IgY effector function and microbiota contribute to the efficacy of the E. coli live vaccine, information that could form the basis for the development of improved vaccines targeted at the elimination of C. jejuni from poultry.
Highlights
Campylobacter jejuni is responsible for a majority of bacterial foodborne illness cases worldwide
Genome-wide chicken genotyping revealed no statistically significant genetic difference between responder and non-responder birds, indicating the differential susceptibility to colonization or differences in vaccine responses are not associated with genetic traits
Resistance loci to systemic salmonellosis were mapped (Mariani et al, 2001; Wigley et al, 2002, 2006; Fife et al, 2009) and refined to an 8 kb, 14 gene region on chromosome 5, termed SAL1, including the CD27-binding protein and AKT1, a REACalpha serine/threonine protein kinase homolog, both involved in innate immune response signaling (Kaiser et al, 2009)
Summary
Campylobacter jejuni is responsible for a majority of bacterial foodborne illness cases worldwide. It is associated with the development of Guillain-Barré Syndrome (GBS), which is the most common cause of paralysis since the neareradication of polio (Willison et al, 2016). Human infection mainly occurs through the consumption of contaminated chicken products and according to a recent CDC report, numbers of C. jejuni infections are increasing and causing a major burden to the healthcare system.. Recent risk studies estimated that a 3-log reduction in broiler cecal concentrations of C. jejuni could reduce human infections by 58% (Hazards et al, 2020)
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