1. Lack of Homologous Protection Against Campylobacter jejuni CG8421 in a Human Challenge Model
- Author
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Patricia Guerry, Catherine J. Larsson, Fahmida Hoq, Caroline E. Lyon, Alex C. Maue, Marya P. Carmolli, A. Fingar, Beth D. Kirkpatrick, Kristen K. Pierce, Elizabeth A. Dill, Frédéric Poly, Mark S. Riddle, Douglas Hawk, Kelly A. Fimlaid, Chad K. Porter, and David R. Tribble
- Subjects
Microbiology (medical) ,Adult ,Diarrhea ,Male ,Secondary infection ,Campylobacter jejuni ,Enteritis ,Feces ,Interferon-gamma ,Young Adult ,Immune system ,Immunity ,Campylobacter Infections ,medicine ,Humans ,Articles and Commentaries ,biology ,business.industry ,Dysentery ,Environmental exposure ,biology.organism_classification ,medicine.disease ,Virology ,Immunoglobulin A ,Infectious Diseases ,Immunoglobulin G ,Immunology ,Female ,medicine.symptom ,business - Abstract
Campylobacter jejuni is among the most common causes of enteric infection worldwide, and its complex relationship with the human host is just starting to be understood. C. jejuni causes inflammatory enteritis manifested by diarrhea or dysentery, fever, and abdominal cramping. Asymptomatic infection/colonization is also common, as described in children after repeated exposure to C. jejuni in resource-poor countries [1, 2]. Recently, incidence estimates of 1 symptomatic or asymptomatic C. jejuni infection every 2 years have also been reported in adults in developed countries [2]. C. jejuni infections have strong associations with postinfectious sequelae, strain variability, and increasing resistance to antibiotics. These include the demyelinating neurologic syndrome Guillain-Barre, chronic gastrointestinal symptoms, and postinfectious arthritis [3–6]. The kinetics and composition of the human immune response to C. jejuni are poorly understood and difficult to evaluate in field settings because of the inability to know onset of infection, strain differences, and previous exposures. Human challenge models, in contrast, provide a controlled method to understand and define immunologic responses to infection and/or correlates of protection [7–9]. We and others have described the human challenge model development of C. jejuni, most recently using strain CG8421 [9]. This strain, which lacks ganglioside mimicry in its lipo-oligosaccaharide, replaced strain 81-176, which expresses ganglioside 2 and ganglioside 3 and was epidemiologically linked to Guillain-Barre [7, 10]. Previous human challenge studies with 81-176 and A3249 demonstrated that Campylobacter-specific immunoglobulin A (IgA) and interferon γ (IFN-γ) are associated with resistance to clinical disease, suggesting these components might be important markers of protective immunity [7, 8]. To better define protective immunity to C. jejuni and to further develop the model, we challenged healthy, immunologically naive adults with C. jejuni CG8421 and then rechallenged subjects 3 months later with the same strain. As with previous challenge trials, this study was performed with the expectation that a primary infection would afford significant, if not complete, clinical protection after rechallenge [7, 8].
- Published
- 2013