Giardia Alters Commensal Microbial Diversity throughout the Murine Gut

Abstract: Giardia lamblia is the most frequently identified protozoan cause of intestinal infection. Over 200 million people are estimated to have acute or chronic giardiasis, with infection rates approaching 90% in areas where Giardia is endemic. Despite its significance in global health, the mechanisms of pathogenesis associated with giardiasis remain unclear, as the parasite neither produces a known toxin nor induces a robust inflammatory response. Giardia colonization and proliferation in the small intestine of the … Show more

“…Since microbiota were shown to influence the outcome of infection, our lab and the Dawson group conducted the first culture-independent assessment of the intestinal microbiota during Giardia infections and found that infections influence both the architecture and abundance of the intestinal microbiota in the small intestine [37]. While this report emphasizes data using Giardia -infected mice that were pre-treated with antibiotics, and although antibiotic treatment itself causes a shift in the microbiota composition, the overall shift in microbial ecology was still present in infected mice that had not been treated with antibiotics.…”

“…While this report emphasizes data using Giardia -infected mice that were pre-treated with antibiotics, and although antibiotic treatment itself causes a shift in the microbiota composition, the overall shift in microbial ecology was still present in infected mice that had not been treated with antibiotics. A decrease in the diversity and abundance of the obligate anaerobic Firimicutes taxa occurred, while an increase in the diversity of the taxa of aerobic Rhodocyclaceae, Moraxellaceae , Flavobacteriales , and Comomonadaceae was reported [37]. These enriched taxa are all considered to be metabolically flexible, and prosper with increased oxygen tension, lipid availability, and competition for arginine.…”

“…However, this result must be further examined as the data was provided from 12 year-frozen samples and were taken from a study that was not designed to examine the intestinal microbiota composition [38]. The two latest studies identifying the taxa of duodenal microbiota during murine Giardia infections both use samples extracted from intestinal segments for sequencing rather than fecal samples [30, 37]. However, bacterial community analysis derived from fecal samples of non-antibiotic treated, infected mice were indistinguishable when compared to uninfected control mice [30].…”

“…Furthermore, this effect also appears to be Giardia strain dependent [25]. As Giardia can alter intestinal microbial communities [37] it would be interesting to understand the link between intestinal microbial diversity, Giardia , and immune cells leading to subsequent immunopathology.…”

The Intersection of Immune Responses, Microbiota, and Pathogenesis in Giardiasis

“…Since microbiota were shown to influence the outcome of infection, our lab and the Dawson group conducted the first culture-independent assessment of the intestinal microbiota during Giardia infections and found that infections influence both the architecture and abundance of the intestinal microbiota in the small intestine [37]. While this report emphasizes data using Giardia -infected mice that were pre-treated with antibiotics, and although antibiotic treatment itself causes a shift in the microbiota composition, the overall shift in microbial ecology was still present in infected mice that had not been treated with antibiotics.…”

“…While this report emphasizes data using Giardia -infected mice that were pre-treated with antibiotics, and although antibiotic treatment itself causes a shift in the microbiota composition, the overall shift in microbial ecology was still present in infected mice that had not been treated with antibiotics. A decrease in the diversity and abundance of the obligate anaerobic Firimicutes taxa occurred, while an increase in the diversity of the taxa of aerobic Rhodocyclaceae, Moraxellaceae , Flavobacteriales , and Comomonadaceae was reported [37]. These enriched taxa are all considered to be metabolically flexible, and prosper with increased oxygen tension, lipid availability, and competition for arginine.…”

“…However, this result must be further examined as the data was provided from 12 year-frozen samples and were taken from a study that was not designed to examine the intestinal microbiota composition [38]. The two latest studies identifying the taxa of duodenal microbiota during murine Giardia infections both use samples extracted from intestinal segments for sequencing rather than fecal samples [30, 37]. However, bacterial community analysis derived from fecal samples of non-antibiotic treated, infected mice were indistinguishable when compared to uninfected control mice [30].…”

“…Furthermore, this effect also appears to be Giardia strain dependent [25]. As Giardia can alter intestinal microbial communities [37] it would be interesting to understand the link between intestinal microbial diversity, Giardia , and immune cells leading to subsequent immunopathology.…”

The Intersection of Immune Responses, Microbiota, and Pathogenesis in Giardiasis

“…Although some cross-domain research aims to gain closer insight into apparently pathogenic protists (e.g. Giardia) and their relationships with bacterial microbiota in producing host disease (Barash et al 2017), many studies explore more positive interactions. In many such cross-domain analyses, distribution patterns are used to formulate hypotheses about the evolved nature of these interactions, such as the lower abundances of fungi being seen as a "reservoir" for certain functional interactions in particular contexts (Huffnagle and Noverr 2013).…”

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