Induction of protection in murine experimental models against Trichinella spiralis: an up-to-date review.

The parasitic nematode Trichinella spiralis, an aetiological agent of the disease known as trichinellosis, infects wild and domestic animals through contaminated pig meat, which is the major source for Trichinella transmission. Prevention of this disease by interrupting parasite transmission includes vaccine development for livestock; however, major challenges to this strategy are the complexity of the T. spiralis life cycle, diversity of stage-specific antigens, immune-evasion strategies and the modulatory effect of host responses. Different approaches have been taken to induce protective immune responses by T. spiralis immunogens. These include the use of whole extracts or excretory-secretory antigens, as well as recombinant proteins or synthesized epitopes, using murine experimental models for trichinellosis. Here these schemes are reviewed and discussed, and new proposals envisioned to block the zoonotic transmission of this parasite.

Encystation commitment in Giardia duodenalis: a long and winding road.

Cholesterol and bile salts are relevant modulators of Giardia encystation. Although several molecules within signaling cascades have been identified, and changes in their expression observed during giardial encystation, their underlying interactions leading to expression of cyst wall markers (CWPs and precursors of the GalNAc homopolymer) are not well defined. Recent experimental data and the completion of the Giardia Genome Project Database (GiardiaDB) allow us now to consider the role of bile salts as "natural stimuli" and the potential involvement of a Raf/MEK/ERK pathway mediating cholesterol-regulated expression of cyst-specific genes. These new findings may provide promising targets for diagnostics, drug design and prophylactic intervention against giardiasis.

Sequential exposure and assembly of cyst wall filaments on the surface of encysting Giardia duodenalis.

The mode of appearance and assembly of cyst wall filaments on the surface of Giardia duodenalis trophozoites committed to encyst was analysed by scanning and transmission electron microscopy (SEM and TEM) and by fluorescence microscopy (FM). SEM showed a progressive appearance of fibril patches, predominantly on the anterior area of ventral and dorsal surfaces, which then spread and coalesced. By TEM, ruthenium red (RR) displayed staining in encysting cells as rodlike spots of variable diameter (3-25 nm), possibly microfibril tips with polyanionic moieties, that displayed tangential associations and random orientations over the cell membrane. In FM assays, the 1,10-phenanthroline derivative of ruthenium red (RR/oPHE) was a specific ligand for these assembling fibrils and this staining was significantly blocked by N-acetylgalactosamine (GalNac) and galactosamine (GalN). Interestingly, RR staining was lost when the cyst wall was completely assembled and thickened as observed by TEM and FM. Kinetic FM assays, in which a mAb specific for a 26 kDa Giardia cyst wall polypeptide was used concomitantly with RR/oPHE staining, showed a differential pattern for the appearance and reactivity of polypeptide and assembling GalN/GalNac-rich moieties of Giardia cyst wall.

Giardia duodenalis: analysis of humoral immune response in experimentally infected gerbils (Meriones unguiculatus).

In this work, we have analyzed the humoral immune response in Mongolian gerbils infected with Giardia duodenalis trophozoites of strains P-1 and WB. The course of infection in the animals was assessed by monitoring cyst shedding in feces, and serum samples were collected at weekly intervals to measure antibody levels by ELISA. Parallel studies were carried out to determine the patterns of total and surface antigens of the parasite recognized by antibodies using Western blot and radioimmunoprecipitation (RIP) assays with the use of homospecific enzyme conjugates. Typical patterns of cyst shedding were observed in the infected animals and cyst numbers per gram of feces were consistently higher in gerbils infected with WB strain. Antibody levels to G. duodenalis antigens were observed by week 2 post-infection and were still detectable 4 months after infection. G. duodenalis antigens showed a complex but quantitatively and qualitatively different recognition pattern by infection-induced antibodies in Western blot assays which related to infecting strain. However, RIP assays showed a more restricted and common pattern of recognition of surface antigens from either strain. Taken together, the data obtained in this study provides further information regarding direct comparisons among infecting strain, patterns of infectivity, and host immune response toward G. duodenalis antigens in the gerbil model.

Study of human Entamoeba histolytica infection by zymodeme, indirect hemagglutination and electroimmunotransfer blot assays.

Human amebiasis is a parasitic infection which involves asymptomatic as well as intestinal and extraintestinal symptomatic stages in individuals harbouring Entamoeba histolytica. Several factors have been proposed to explain the variability in the outcome of the disease. Among these are differences in virulence of E. histolytica strains and methods such as zymodeme analysis have been used to differentiate invasive from non invasive strains of this parasite (Sargeaunt and Williams, 1978). In order to establish a possible correlation between zymodeme analysis and serological data in human cases of amebiasis, a cross-sectional epidemiological study was carried out in the community area of Cadereyta, State of Queretaro, Mexico. In this study, fecal and serum samples from individuals were also tested by Indirect Hemagglutination assay (IHA) to determine antibody titre and by a standardized Electroimmunotransfer blot assay (EITB) for recognition of E. histolytica specific antigens. Zymodemes were determined in a total of 81 samples. Of these, 27 had a pathogen zymodeme (PZ) while 54 had a non pathogen zymodeme (NPZ). Values obtained by IHA varied from negative to titres up to 1:256 in serum samples tested. Reactivity to E. histolytica antigens determined by EITB was observed in all sera. Patterns of antigen recognition were complex and showed reactivity to several parasite molecules. Among these, components with M. Wt. of 165, 119, and doublets of 98-100 and 50-52 Kd were more frequently recognized by antibodies present in the sera tested. In general, antibody titres detected by IHA did not showed a direct correlation with zymodeme analysis. Samples with PZ or NPZ had similar variable levels of reactivity to E. histolytica antigens.(ABSTRACT TRUNCATED AT 250 WORDS)

Evaluation of an immunoblot methodology for the detection of relevant Entamoeba histolytica antigens by antibodies induced in human amebiasis.

The complexity of the clinical spectrum in human amebiasis and the high variability in laboratory methods used to detect Entamoeba histolytica infections have impeded the collection and evaluation of reliable epidemiological data. Thus, more sensitive, specific and standardized methods are needed in order to accurately identify infections with this parasite. An important step in the development of serological diagnostic methods is the identification and isolation of specific parasite antigens which are immunogenic in the host. In this work, we have standardized an electroimmunotransfer blot technique to characterize E. histolytica antigens recognized by antibodies present during human amebic infections. An important aspect was an investigation of technical variations in the preparation of cell lysates including the use of different protease inhibitors and solubilizing agents. The highest yield of protein was achieved by homogenization of trophozoites in the presence of 10 mM p-hydroxymercuribenzoate (pHMB) as a protease inhibitor and by lysis using Triton X-100 and a mixture of protease inhibitors. Recovery of degraded vs non-degraded proteins in the cell extracts was evaluated by gradient polyacrylamide gel electrophoresis. Both quantitative and qualitative differences were noted between the different methods of preparing soluble cell extracts. A more complete set of antigenic components was obtained by homogenization and use of pHMB. Thus parasite extracts prepared by this method were selected for protein transfer. In this, the optimal protein concentration was of 120 micrograms of protein per cm of gel width and efficient transfer of proteins to nitrocellulose sheets was achieved at 100 V for 2 hrs and at 4 degrees C.(ABSTRACT TRUNCATED AT 250 WORDS)