Evaluation of cellular and humoral systemic immune response against Giardia duodenalis infection in cattle.

Giardia duodenalis causes diarrhoea in humans and a wide range of mammals, including cattle. In cattle, the infection often has a chronic character. Infected calves may excrete cysts for several months, suggesting that Giardia is able to suppress and evade the immune response. In this study six calves were infected with G. duodenalis assemblage A and E and housed in an environment that allowed reinfection. Cyst excretion was monitored twice a week and blood was collected every 2 weeks, until decreasing cyst counts indicated the development of protective immunity. The kinetics of the circulating memory cells and serum antibodies were followed up throughout this period. Cyst excretion started 1 week post-infection and remained high until week 14. Low cyst counts from week 15 p.i. onwards indicated that the calves had developed immunity. From week 5 p.i. significant proliferation of CD4(+) αß T-cells was observed after in vitro stimulation with G. duodenalis antigen. Characterisation of the proliferating CD4(+) T-cells using real time qPCR showed that at the peak of antigen driven PBMC proliferation the majority of cells were CD4(+) T-cells expressing IL-17 and to a lesser extent FoxP3. The cell proliferation was strongly reduced after plastic adhesion of the PBMC, suggesting a role for antigen-presenting cells. Failure to restore proliferation of depleted PBMC with Giardia-stimulated monocyte-derived dendritic cells (MoDC) and unchanged proliferation after depletion of CD21(+) B-cells showed that other antigen-presenting cells than MoDC and B-cells were important for T-cell proliferation. Analysis of the antibody response indicated that serum IgG1 and IgA levels against G. duodenalis assemblage A and E increased from week 11 post-infection. From the start of the antibody response, all trophozoites stained positive in an immunofluorescence assay with serum antibodies, indicating that a broad repertoire of antibodies was produced against all variant-specific surface proteins. Further research is necessary to determine which effector T-cell subset produces IL-17 and which cells play a role in antigen presentation.

Giardia duodenalis stimulates partial maturation of bovine dendritic cells associated with altered cytokine secretion and induction of T-cell proliferation.

Giardia duodenalis is an important intestinal parasite in animals and humans. The role of dendritic cells (DC) in the initiation of the immune response against G. duodenalis is poorly documented. The aim of this study was to test the hypothesis that G. duodenalis interferes with bovine DC function. Therefore, the effect of trophozoites and excretion/secretion products on bovine monocyte-derived dendritic cells (MoDC) was investigated. We assessed MoDC maturation and cytokine production of G. duodenalis-stimulated MoDC and the ability of these MoDC to take up antigen and induce lymphocyte proliferation. Little or no upregulation of maturation markers CD40 and CD80 was measured, but MHCII expression was increased after stimulation with low parasite concentrations. A dose-dependent decrease in ovalbumin uptake was observed in G. duodenalis-stimulated MoDC. In addition, stimulated MoDC induced proliferation of CD3(-) , γδ-T-cells and TCRαß(+) CD4(+) and CD8(+) T-cells. Increased transcription of TGF-ß was shown in CD4(+) T cells, and increased TNF-α, TGF-ß, IL-10 and IL-4 were seen in γδ-T-cells. We found no evidence that G. duodenalis has a regulatory or inhibitory effect on bovine MoDC. MoDC stimulated with G. duodenalis are functionally active and able to induce proliferation of T cells that produce both pro- and anti-inflammatory cytokines.

Giardia duodenalis cyst survival in cattle slurry.

Giardia duodenalis is a protozoan parasite known to infect animals and humans. Zoonotic transmission of G. duodenalis can occur by the consumption of drinking water produced from surface water that is contaminated by runoff from manure-laden fields or pastures. Although it was previously reported that storing solid cattle manure decreases G. duodenalis cyst viability, no data are available on cyst survival in slurry waste from cattle. In this study the number and the viability of G. duodenalis cysts was determined in cattle slurry for up to 90 days. G. duodenalis cysts were counted in 30 slurry samples with a quantitative direct immunofluorescence assay. The geometric mean number of cysts was reduced by 77% after 90 days (P<0.0014), although there was substantial variability between samples. A fluorogenic dye staining using 4',6'-di-amino-2-phenylindole and propidium iodide showed a decreased viability from 45 days onwards, and after 90 days incubation, only 3% of the cysts were viable. Gerbils and lambs were artificially infected with 50 day-old and 90 day-old cysts and faecal excretion of G. duodenalis was monitored between 5 and 7 days after infection. Seven days after infection the gerbils were euthanized for Giardia trophozoite counts. Although one cyst was found in the faeces of one of the gerbils after infection with 50 day-old cysts, no trophozoites were recovered from the intestines of any gerbil (n=8). Experimental infection of lambs with 10(5)50 day-old and 90 day-old slurry cysts caused low cyst excretion in one out of two and one out of three lambs, respectively. Together, these data show that storage of cattle slurry for 90 days greatly reduces the number and viability of G. duodenalis cysts.