Oral Immunization of BALB/c Mice with Giardia duodenalis Recombinant Cyst Wall Protein Inhibits Shedding of Cysts (original) (raw)
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Identification and Localization of Cyst-Specific Antigens of Giardia lamblia
We induced Giardia lamblia trophozoites to encyst in vitro by exposure to conditions which are specific to the human small intestinal milieu. We now show that encystation entails the appearance of two new groups of antigens detected in Western blots by rabbit antiserum against cysts which had been purified from human feces. A heterodisperse group of lower-molecular-mass antigens (-21 to 39 kilodaltons) was expressed
AMB Express
Giardia duodenalis (G. duodenalis) is an infectious protozoan that has a global distribution especially in the hot climate. Around 200 million people are infected worldwide annually by Giardia, but infection is not always accompanied by symptoms, especially in endemic countries. Using traditional microscopy techniques in diagnosis, both in stool and water samples were less sensitive when compared to immunological methods; and the need for new diagnostic methods was necessary. Also, protection from infection is required in endemic areas. Therefore, the study aimed to produce anti- G. duodenalis IgG polyclonal antibodies (pAbs) by immunizing rabbit by G. duodenalis cyst recombinant protein. The produced antibodies were evaluated in the detection of G. duodenalis antigens in patients’ stool and water samples from endemic areas across River Nile; where pAbs were used as a coating and a peroxidase conjugate antibody in sandwich ELISA. Moreover, pAbs were tested for the protection of mice...
Biochemical and Biophysical Research Communications, 2004
Cyst wall proteins 1 and 2 (CWP1 and CWP2) are major constituents of the giardial cyst wall and are expressed with similar kinetics by encysting trophozoites. In the present study, we were interested to determine if the expression of giardial CWPs as heterologous proteins in a higher eukaryotic cell would result in their trafficking across the secretory pathway, as is the case in encysting trophozoites. Recombinant (r)CWP1 and rPro-CWP2 were detected in the lysate and culture media of transfected HEK-293 cells. We then conducted intracellular localization experiments using confocal microscopy and found that the proteins were trafficked in membrane enclosed vesicles across the secretory pathway and released to the culture medium by transfected HEK-293 cells. We then dissected the rCWP1 and rPro-CWP2 molecules to identify the portion(s) responsible for their secretion and found that the putative N-terminal signal peptide was sufficient for directing the secretion of rCWP1, while both the putative N-terminal signal peptide and the 13 kDa C-terminal regions were necessary for the secretion of rPro-CWP2 by transfected HEK-293 cells. Taken together, these results demonstrate the degree of conservation of signal peptide recognition between lower and higher eukaryotes.
The Journal of Parasitology, 1991
A method for obtaining large numbers of Giardia lamblia cysts in vitro was developed based on modification of earlier methods of in vitro encystation. Maximal numbers of cysts were obtained by growing trophozoites to confluence in TYI-S-33 growth medium containing 0.5 mg/ml of bovine bile, followed by incubation in medium containing 10 mg/ml of bovine bile, at pH 7.8 for 96 hr at 37 C. Up to 4 x 105 cysts were obtained per milliliter of encystation medium. Cysts thus obtained were similar in structure to those in vivo, were resistant to hypotonic lysis, and reacted with a cyst-specific monoclonal antibody. Further modification of this method by returning the trophozoites to growth medium after 24 hr of exposure to encystation medium resulted in production of cysts that were shown to be viable by fluorogenic dye staining and ability to excyst. This method was scaled up using roller bottles, which resulted in production of up to 1.6 x 108 cysts per roller bottle. In addition, of 4 strains tested, the LT strain yielded the highest number of cysts. Of 4 clones of the WB strain, clone A consistently produced the largest number of cysts. Giardia lamblia is a significant cause of diarrheal disease worldwide (Dupont and Sullivan, 1986). Infection is initiated by ingestion of cysts, followed by excystation and release of the trophozoite. Colonization occurs in the duodenum where some trophozoites undergo encystation and are excreted into the external environment to complete the life cycle. Study of the processes of excystation and encystation is essential not only from the point of view of determining the developmental biology of the parasite but also for designing strategies to prevent differentiation of one form of the parasite to the other. The ability to induce these developmental changes in vitro is critical to that effort. Recently, Gillin et al. (1987) induced encystation in G. lamblia strain WB by replacing bovine bile in the growth medium with various primary and secondary bile salts with or without oleic acid. Schupp et al. (1988) reported the production of cysts from 6 isolates of G. lamblia in vitro simply by increasing the concentration of bovine bile in the TYI-S-33 medium to 5 mg/ ml. In addition to appearing structurally similar to in vivo cysts by light and electron microscopy and by reaction with a cyst-specific antibody, these cysts were found to be viable by fluorogenic
International Journal of Parasitology, 2018
The adhesion of Giardia duodenalis trophozoites to intestinal epithelial cells allows the onset and maintenance of giardiasis. During these interactions, epithelial cells can be committed to apoptosis by enzymes secreted by the parasites, including cysteine proteases that are increasingly identified as viru-lence factors in parasitic protozoa. In this work, a monoclonal antibody (mAb1G3) raised against G. duo-denalis surface components was found to react with a 25 kDa protein expressed in the cell surface and flagella of G. duodenalis trophozoites. When trophozoites expressing this protein were cultured with IEC-6 intestinal epithelial cell monolayers, a dynamic release of this protein was observed with mAbIG3. Proteomic analysis identified the protein as a mature cathepsin B-like (gCatB) enzyme, whose proteolytic activity, detected in zymograms, was eliminated by CatB inhibitor E-64. This protein was named giardipain-1 due to its functional papain-like features and was purified by affinity chromatography using mAbIG3. Upon exposure to the purified, mature and secreted forms of giardipain-1, IEC-6 epithelial cell monolayers displayed membrane blebbing and phosphatidylserine exposure on the outer cell surface, indicating an apoptotic process. In Madin Darby Canine Kidney (MDCK) cell monolayers, giardipain-1 leads to the appearance of pore-like regions and of gaps along cell-cell junctions, to decreased transepithelial electrical resistance (TER), caspase-3 activation and poly-ADP-ribose poly-merase (PARP) fragmentation. At early times during exposure, giardipain-1 co-localized at cell-cell junctions , associated with occludin and induced the delocalization and degradation of tight junction proteins occludin and claudin-1. The damage caused to epithelial monolayers by giardipain-1 was blocked by pre-incubation with the CatB B Inhibitor E-64. Furthermore, silencing the giardipain-1 gene in trophozoites lowered the proteolytic activity of giardipain-1 and reduced the damage in IEC-6 monolayers. The damage observed appears to be specific to giardipain activity since almost no damage was observed when IEC-6 monolayers were incubated with papain, a non-related cysteine protease. Hence this study suggests that giardipain-1 triggers, in epithelial cells, degradation of cell-cell junctional components and apoptotic damage, supporting the notion of giardiapain-1 as a virulence factor of Giardia.
FEMS Microbiology Letters, 2006
Giardia lamblia (Giardia duodenalis or Giardia intestinalis) is a protozoan parasite of vertebrates with broad host specificity. Specific antibodies directed against cyst antigens can interfere with the cyst wall-building process. In this study, we engineered Streptococcus gordonii to express a 26 kDa fragment of cyst wall protein 2 (CWP2), containing a relevant B cell epitope, on the cell surface. This is the first report of S. gordonii expressing a protein of parasite origin. As S. gordonii was intended for intestinal delivery of CWP2, it was determined that this oral commensal bacterium is able to persist in the murine intestine for 30 days. Immunization with recombinant streptococci expressing the 26 kDa fragment resulted in higher antibody levels. Specific anti-CWP2 IgA antibodies were detected in fecal samples and anti-CWP2 IgG antibodies were detected in serum demonstrating the efficacy of S. gordonii for intragastric antigen delivery. In a pilot challenge experiment, immunized mice demonstrated a significant 70% reduction in cyst output.
Antimicrobial action of antibodies against Giardia muris trophozoites
Clinical and Experimental Immunology, 2008
SUMMARY The activities of immune serum and trophozoite-specific MoAb were examined in vitro and in vivo. Immune serum and anti-Giardia muris MoAb caused immobilization of the trophozoites in vitro and were cytotoxic for trophozoites in the presence of exogenous complement. Both immune serum obtained from experimentally infected mice and anti-G. muris MoAb admmistered directly into the duodenum of mice significantly reduced the number of trophozoites in the small intestine during the acute phase of the infection. These results suggest that serum antibodies play a central role in the elimination of the primary Giardia infection.