Features of small intestinal pathology (epithelial cell kinetics, intraepithelial lymphocytes, disaccharidases) in a primary Giardia muris infection.

Gillon, J.; Thamery, D. Al; Ferguson, Anne

doi:10.1136/gut.23.6.498

Cited by 79 publications

(45 citation statements)

References 18 publications

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“…While Giardia trophozoites preferentially colonize the most proximal small intestine ( Fig. 2A) (47)(48)(49), they are also found in the distal small intestine, as well as the cecum and large intestine (47)(48)(49). Within the antibiotic-treated proximal small intestine, we found that Giardia infection substantially changed the diversity of the host microbiota during the 14-day course of infection ( Fig.…”

Section: Figmentioning

confidence: 72%

Giardia Alters Commensal Microbial Diversity throughout the Murine Gut

et al. 2017

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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 host may, however, disrupt the ecological homeostasis of gastrointestinal commensal microbes and contribute to diarrheal disease associated with giardiasis. To evaluate the impact of Giardia infection on the host microbiota, we used culture-independent methods to quantify shifts in the diversity of commensal microbes throughout the gastrointestinal tract in mice infected with Giardia. We discovered that Giardia's colonization of the small intestine causes a systemic dysbiosis of aerobic and anaerobic commensal bacteria. Specifically, Giardia colonization is typified by both expansions in aerobic Proteobacteria and decreases in anaerobic Firmicutes and Melainabacteria in the murine foregut and hindgut. Based on these shifts, we created a quantitative index of murine Giardia-induced microbial dysbiosis. This index increased at all gut regions during the duration of infection, including both the proximal small intestine and the colon. Giardiasis could be an ecological disease, and the observed dysbiosis may be mediated directly via the parasite's unique anaerobic fermentative metabolism or indirectly via parasite induction of gut inflammation. This systemic alteration of murine gut commensal diversity may be the cause or the consequence of inflammatory and metabolic changes throughout the gut. Shifts in the commensal microbiota may explain observed variations in giardiasis between hosts with respect to host pathology, degree of parasite colonization, infection initiation, and eventual clearance.KEYWORDS Giardia, microbiome, parasite, pathogenesis G iardia lamblia is a microaerophilic protozoan parasite of humans and animals that causes significant morbidity and diarrheal disease worldwide (1, 2). Giardiasis is a zoonotic disease with diverse animal reservoirs. Parasites infect and complete their life cycle in mammalian hosts, and infected animals shed Giardia cysts into water supplies. Over 200 million people are estimated to have acute or chronic giardiasis, and rates of giardiasis approach 90% in areas where it is endemic (3, 4). When prevalent, giardiasis has been implicated as a primary cause of growth restriction for children, resulting in long-term consequences, such as stunting, failure to thrive, malnutrition, and cognitive disabilities (1, 2, 5). In addition, Giardia has been associated with substantial postclearance irritable bowel symptoms in both children and adults (1, 6-8). The significant and adverse impact of giardiasis on global human health contrasts with a considerable lack of resea...

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Section: Figmentioning

confidence: 72%

Giardia Alters Commensal Microbial Diversity throughout the Murine Gut

et al. 2017

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“…Increased infiltration of intraepithelial lymphocytes has been associated with giardiasis in a number of reports (24,40,56). As the findings reported here implicate T lymphocytes in the brush border abnormalities caused by the disease, and as epithelial injury and malfunction were associated with reduced jejunal IL-6, additional experiments assessed whether these changes paralleled alterations in IEL infiltration in this model.…”

Section: Discussionmentioning

confidence: 99%

“…Previous studies have shown that excess IL-6 is associated with decreased activity of sucrase-isomaltase (57), a brush border enzyme which is also markedly decreased in patients with active Crohn's disease or giardiasis. Hosts infected with Giardia commonly mount a humoral immune response, and there is no noticeable granulocytic cell influx into the intestine during the acute phase of giardiasis although the immune response to Giardia unquestionably involves activation of T lymphocytes (20,24,27,29,49,53,54). The antibody response to Giardia is predominantly of the IgA and IgG isotypes (4,27).…”

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confidence: 99%

Jejunal Brush Border Microvillous Alterations inGiardia muris-Infected Mice: Role of T Lymphocytes and Interleukin-6

et al. 2000

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Intestinal colonization with the protozoan Giardia causes diffuse brush border microvillous alterations and disaccharidase deficiencies, which in turn are responsible for intestinal malabsorption and maldigestion. The role of T cells and/or cytokines in the pathogenesis of Giardia-induced microvillous injury remains unclear. The aim of this study was to assess the role of T cells and interleukin-6 (IL-6) in the brush border pathophysiology of acute murine giardiasis in vivo. Athymic nude (nu ؊ /nu ؊ ) CD-1 mice and isogenic immunocompetent (nu ؉ /nu ؉ ) CD-1 mice (4 weeks old) received an axenic Giardia muris trophozoite inoculum or vehicle (control) via orogastric gavage. Weight gain and food intake were assessed daily. On day 6, segments of jejunum were assessed for parasite load, brush border ultrastructure, IL-6 content, maltase and sucrase activities, villuscrypt architecture, and intraepithelial lymphocyte (IEL) infiltration. Despite similar parasitic loads on day 6, infected immunocompetent animals, but not infected nude mice, showed a diffuse loss of brush border microvillous surface area, which was correlated with a significant reduction in maltase and sucrase activities and a decrease in jejunal IL-6 concentration. In both athymic control and infected mice, jejunal brush border surface area and disaccharidases were high, but levels of tissue IL-6 were low and comparable to the concentration measured in immunocompetent infected animals. In both immunocompetent and nude mice, infection caused a small but significant increase in the numbers of IELs. These findings suggest that the enterocyte brush border injury and malfunction seen in giardiasis is, at least in part, mediated by thymus-derived T lymphocytes and that suppressed jejunal IL-6 does not necessarily accompany microvillous shortening.

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“…First, in immuno-competent but not in T-cell deficient animals, acute giardiasis causes a diffuse loss of epithelial brush border surface area and decreases sucrase and maltase activities (Scott et al 2000). During the acute phase of the infection, epithelial abnormalities were not seen in the jejunum of Gupta et al 1973, Chawla 1975, Ducombe et al 1978, Gillon et al 1982, Faubert 1988, Belosevic et al 1989, 1992, Favennec et al 1991, Katelaris et al 1991, Cevallos et al 1995, Mohammed et al 1995, O'Handley et al 2001 athymic mice, despite comparable parasitic loads to those seen in immuno-competent animals, implying that the lack of microvillous injury could not be attributed to a reduction in trophozoite numbers. Second, experiments using in vivo T lymphocyte transfer into naïve animals demonstrate that brush border injury and malfunction in giardiasis are mediated by CD8 + T lymphocytes, while CD4 + T lymphocytes are responsible for parasite clearance (Scott et al 2004).…”

Section: The Role Of Cd8 + Lymphocytes In Pathogenesismentioning

confidence: 99%

“…Increased infiltration of intraepithelial lymphocytes (IEL) has been associated with giardiasis in a number of reports (Gillon et al 1982, Oberhuber et al 1996, Wakelin 1997. Intriguingly, this increase was reported in immunocompetent as well as in athymic animals infected with Giardia (Scott et al 2000), suggesting a role for extrathymic differentiation in this response.…”

Section: Lymphocytes In Giardiasis: Friends or Foes?mentioning

confidence: 99%

Immunopathology of giardiasis: the role of lymphocytes in intestinal epithelial injury and malfunction

2005

Mem. Inst. Oswaldo Cruz

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Features of small intestinal pathology (epithelial cell kinetics, intraepithelial lymphocytes, disaccharidases) in a primary Giardia muris infection.

Cited by 79 publications

References 18 publications

Giardia Alters Commensal Microbial Diversity throughout the Murine Gut

Giardia Alters Commensal Microbial Diversity throughout the Murine Gut

Jejunal Brush Border Microvillous Alterations inGiardia muris-Infected Mice: Role of T Lymphocytes and Interleukin-6

Immunopathology of giardiasis: the role of lymphocytes in intestinal epithelial injury and malfunction

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