Abstract
Giardia lamblia is a common intestinal parasitic infection that although often acutely asymptomatic, is associated with debilitating chronic intestinal and extra-intestinal sequelae. In previously healthy adults, a primary sporadic Giardia infection can lead to gut dysfunction and fatigue. These symptoms correlate with markers of inflammation that persist well after the infection is cleared. In contrast, in endemic settings, first exposure occurs in children who are frequently malnourished and also co-infected with other enteropathogens. In these children, Giardia rarely causes symptoms and associates with several decreased markers of inflammation. Mechanisms underlying these disparate and potentially enduring outcomes following Giardia infection are not presently well understood. A body of work suggests that the outcome of experimental Giardia infection is influenced by the nutritional status of the host. Here, we explore the consequences of experimental Giardia infection under conditions of protein sufficiency or deficiency on cytokine responses of ex vivo bone marrow derived dendritic cells (BMDCs) to endotoxin stimulation. We show that BMDCs from Giardia- challenged mice on a protein sufficient diet produce more IL-23 when compared to uninfected controls whereas BMDCs from Giardia challenged mice fed a protein deficient diet do not. Further, in vivo co-infection with Giardia attenuates robust IL-23 responses in endotoxin-stimulated BMDCs from protein deficient mice harboring enteroaggregative Escherichia coli. These results suggest that intestinal Giardia infection may have extra-intestinal effects on BMDC inflammatory cytokine production in a diet dependent manner, and that Giardia may influence the severity of the innate immune response to other enteropathogens. This work supports recent findings that intestinal microbial exposure may have lasting influences on systemic inflammatory responses, and may provide better understanding of potential mechanisms of post-infectious sequelae and clinical variation during Giardia and enteropathogen co-infection.
Highlights
Giardia lamblia is one of the most commonly reported intestinal parasitic infections worldwide [1,2,3]
An emerging body of research suggests that intestinal microbial exposures may have long term influences on inflammatory cytokine production from innate immune cells, and that this process may help explain persistent inflammatory responses following pathogen infection
In this work we demonstrate that Giardia exposure in a murine model changes the inflammatory profile of bone marrow derived innate immune cells in in a diet dependent manner and in response to bacterial stimuli
Summary
Giardia lamblia is one of the most commonly reported intestinal parasitic infections worldwide [1,2,3]. In children living in resource-limited endemic settings with a high prevalence of recurrent and persistent infection, Giardia does not associate with diarrhea or routine markers of intestinal inflammation [2,13,14]. Rather, in these children who often have restricted dietary protein intake, Giardia associates with increased intestinal permeability, but decreased levels of myeloperoxidase (MPO). In endemic settings, Giardia infection is associated with decreased levels of the serum inflammatory mediator CRP [2,13,15,16] These diminished markers of inflammation associate with Giardia infection in endemic areas despite the presence of other potentially pro-inflammatory co-enteropathogen exposures such as enteroaggregative Escherichia coli (EAEC) [17]
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