Development of high-throughput methods to quantify cysts of Toxoplasma gondii.

Toxplasma is a protozoan parasite, which forms persistent cysts in tissues of chronically infected animals and humans. Cysts can reactivate leading to severe pathologies. They also contribute to the transmission of Toxoplasma infection in humans by ingestion of undercooked meat. Classically, the quantification of cyst burden in tissues uses microscopy methods, which are laborious and time consuming. Here, we have developed automated protocols to quantify cysts, based on flow cytometry or high-throughput microscopy. Brains of rodents infected with cysts of Prugniaud strain were incubated with the FITC-Dolichos biflorus lectin and analyzed by flow cytometry and high-throughput epifluorescence microscopy. The comparison of cyst counts by manual epifluorescence microscopy to flow cytometry or to high-throughput epifluorescence microscopy revealed a good correlation (r = 0.934, r = 0.993, P < 0.001 respectively). High-throughput epifluorescence microscopy was found to be more specific and sensitive than flow cytometry and easier to use for large series of samples. This reliable and easy protocol allow the specific detection of Toxoplasma cysts in brain, even at low concentrations; it could be a new way to detect them in water and in contaminate food.

Toxoplasma gondii in human astrocytes in vitro: interleukin (IL)-12 and IL-10 do not influence cystogenesis.

Interleukin (IL)-12, IL-10, and interferon (IFN)-gamma are major cytokines involved in the immune response against Toxoplasma gondii. Nevertheless, the role of IL-12 and IL-10 in the control of parasite replication and cytogenesis is not known yet, whereas the importance of IFN-gamma is documented. Furthermore, it is of paramount importance to study the interaction between T. gondii and cells from the central nervous system, e.g., astrocytes. In this study, we report that IL-12 and IL-10 have no effect on penetration, replication, or cystogenesis of the T. gondii Prugniaud strain in human astrocytes in vitro and do not antagonize the role of IFN-gamma on cystogenesis.

The apicoplast: a new member of the plastid family.

Protozoan parasites of the phylum Apicomplexa include pathogens such as Plasmodium, Toxoplasma and Cryptosporidium. They have been shown to contain a vestigial nonphotosynthetic plastid, the apicoplast, which might have arisen by secondary endosymbiosis. Little is known about the function of the apicoplast but the parasites exhibit delayed cell death when their apicoplast is impaired. The discovery of the apicoplast opens an unexpected opportunity to link current fundamental research on plant and algal plastids to the physiology of apicomplexans. For example, the apicoplast might provide new targets for innovative drugs that act as herbicides and do not affect the mammalian host.

Targeted disruption of the glycosylphosphatidylinositol-anchored surface antigen SAG3 gene in Toxoplasma gondii decreases host cell adhesion and drastically reduces virulence in mice.

The protozoan parasite Toxoplasma gondii is able to invade a broad range of cells within its mammalian hosts through mechanisms that are not yet fully understood. Several glycosylphosphatidylinositol-anchored antigens found in the parasite membrane are considered as major determinants in the critical interactions with the host cell. We have discovered that two of these surface antigens, SAG1 and SAG3, share significant identity, with considerable similarities in structure, suggesting an overall conserved topology. To investigate their physiological roles further, we have generated T. gondii mutants deficient in SAG3 through gene disruption. The disrupted strains display at least a twofold reduction in host cell invasion when compared with wild-type parasites. This correlated with a similar decrease in host cell adhesion in the SAG3 null mutants. Importantly, the null SAG3 mutants show attenuated infectivity, with a markedly reduced capacity to cause mortality in mice, whereas both wild-type and complemented mutants that re-expressed SAG3 were lethal at the same doses. Taken together, our results indicate that SAG3 is one member of the redundant system of T. gondii receptors that act as ligands mediating host cell recognition and attachment.

Enzyme-linked immunosorbent assays using the recombinant dense granule antigens GRA6 and GRA1 of Toxoplasma gondii for detection of immunoglobulin G antibodies.

The potential of the dense granule antigens GRA1 and GRA6 of Toxoplasma gondii to be used as diagnosis reagents in a recombinant form was evaluated. Both proteins were expressed in Escherichia coli as glutathione-S-transferase (GST) fusions. The GST-GRA1 fusion comprises the entire GRA1 sequence devoid of its N-terminal signal peptide. Separate expression of the two N- and C-terminal hydrophilic regions of GRA6 showed that only the N-terminal hydrophilic part of the protein was recognized by a pool of positive human sera in an immunoblot. One hundred T. gondii-positive and 98 negative human sera were tested in two separate immunoglobulin G (IgG)-direct enzyme-linked immunosorbent assays (ELISAs) using either GST-GRA1 or GST-GRA6-Nt recombinant protein. Whereas the sensitivity of the GST-GRA1 IgG ELISA was low (68%), the GST-GRA6-Nt IgG ELISA reached a sensitivity of 96%. The reactivity to GRA6-Nt was shown to be high even with human sera of low IgG titers. In addition, comparison of the optical density values for each serum revealed that GRA1 may complement GRA6-Nt to reach an overall sensitivity of 98%. Therefore, the GST-GRA6-Nt ELISA could be used together with another antigen like GRA1 for the development of a recombinant antigen-based test for serodiagnosis of toxoplasmosis.

T cell clones raised from chronically infected healthy humans by stimulation with Toxoplasma gondii excretory-secretory antigens cross-react with live tachyzoites: characterization of the fine antigenic specificity of the clones and implications for vaccine development.

Excreted-secreted Ags (ESA) of Toxoplasma gondii (Tg) play an important role in the stimulation of the host immune system in both acute and chronic infections. To identify the parasite Ag(s) involved in the maintenance of T cell-mediated long term immunity, 40 ESA-specific T cell clones were derived from three chronically infected healthy subjects. All the clones were CD4+ and recognized both ESA and live tachyzoites in a HLA-DR-restricted manner. Conversely, CD4+ tachyzoite-specific T cell clones from the same subjects proliferated in response to ESA, pointing to shared immunodominant Ags between ESA and Tg tachyzoites. By T cell blot analysis using SDS-PAGE-fractionated parasite extracts, the following patterns of reactivity were detected. Of 25 clones, 6 recognized Tg fractions in the 24- to 28-kDa range and proliferated to purified GRA2, 5 reacted with Tg fractions in the 30- to 33-kDa range; and 4 of them proved to be specific for rSAg1. Although surface Ag (SAg1) is not a member of ESA, small amounts of this protein were present in ESA preparation by Western blot. Of 25 clones, 8 responded to Tg fractions in the 50- to 60-kDa range but not to the 55-kDa recombinant rhoptries-2 parasite Ag, and 6 did not react with any Tg fraction but proliferated in response to either ESA or total parasite extracts. In conclusion, CD4+ T cells specific for either ESA (GRA2) or SAg1 may be involved in the maintenance of long term immunity to Tg in healthy chronically infected individuals.

Intracellular trafficking of dense granule proteins in Toxoplasma gondii and experimental evidences for a regulated exocytosis.

The dense granules of the intracellular protozoan Toxoplasma gondii are secretory vesicles that play a major role in the structural modifications of the parasitophorous vacuole (PV) in which the parasite develops. The biogenesis of dense granules as well as the regulatory mechanisms controlling their specific exocytosis are still poorly understood. In this paper, we analyzed the secretory pathway of dense granule proteins (GRA proteins) in extracellular T. gondii through the effects of brefeldin A (BFA). Ultrastructural studies of BFA-treated parasites showed disassembly of the Golgi apparatus and accumulation of GRA proteins in a dilated vacuolar system connected to the nuclear envelope. BFA reversibly blocked the intracellular transport of the newly synthesized GRA proteins in a dose-dependent manner (blockade of 95% at 1 microg/ml of BFA). By contrast, discharge of GRA proteins from preformed dense granules was unaffected by BFA over a course of 60 min incubation. GRA protein secretion was dependent on incubation temperature as it only occurred above 26 degrees C and it could be stimulated by external factors. This stimulus might be provided by factor(s) present in the serum of the extracellular medium, as incubation of parasites in serum-free medium resulted in a dramatic decrease in protein secretion. Exocytosis can be restored in a dose-dependent fashion by serum addition (maximal stimulatory activity in the 30-200 kDa range) and was optimal at an extracellular pH of 6.5. Altogether, these results demonstrate that GRA proteins are exported through the Golgi apparatus via the classical secretory pathway and can be experimentally discharged from storage dense granules as regulated secretory proteins in response to specific stimulation, arguing in favor of a regulated component for dense granule exocytosis in T. gondii.

Infection with Toxoplasma gondii RH and Prugniaud strains in mice, rats and nude rats: kinetics of infection in blood and tissues related to pathology in acute and chronic infection.

Since mice and rats are the most studied models of experimental toxoplasmosis, the aim of this work was to analyze the outcome of Toxoplasma infection in mice, rats and congenitally athymic nude rats; for this purpose, the parasitic load in different organs and the anatomic-pathological characteristics of infection were investigated in these animals. The data obtained after infection with two different strains and stages of Toxoplasma gondii (RH tachyzoites and Prugniaud cysts) concerned the following organs: brain, mesenteric lymph nodes, blood, spleen, heart, lungs, diaphragm and liver. In Fischer rats, the infection with either the Prugniaud or the RH strains displayed similar characteristics: after a peak in the parasite load, a complete disappearance of parasites was observed, except in the brain of Prugniaud strain-infected rats where toxoplasmas were evidenced throughout the experiment. In OF1 mice, where infection by the RH tachyzoites was lethal, infection with the Prugniaud strain led to survival; the parasitic burden peaked in the different organs and was then undetectable, except in the brain where toxoplasmas were still present during the chronic phase. Like mice, nude rats did not survive to the RH infection. Interestingly, for all the animals the observed histopathological changes in the infected organs, although more or less obvious in the acute phase, were not very severe in almost all cases. For instance, mice, although more susceptible to infection than rats, did not present more severe lesions. They consisted in a discrete inflammation with some focal areas of necrosis in some organs such as brain, liver and heart. Our results support the assumption that rats and nude rats constitute interesting experimental models relevant to either human acute toxoplasmosis, chronic toxoplasmosis, or disseminated toxoplasmosis in AIDS patients.

Protective immunity in the rat model of congenital toxoplasmosis and the potential of excreted-secreted antigens as vaccine components.

Toxoplasma infection is a major cause of severe foetal pathology both in humans and in domestic animals, particularly sheep. We have previously reported the development of an experimental model to study congenital toxoplasmosis in the rat. Here we demonstrate that, as in humans, total protection against congenital toxoplasmosis can be achieved regardless of the strain of Toxoplasma gondii used to infect rats, or when initial and challenge infections were carried out with different strains. Chronic infection is associated with a highly specific immunity that involves both B-and T-cell responses beginning at day 10 postinfection. The antibody isotype analysis revealed that whereas immunoglobulin (Ig)G2b is the major elicited isotype, no IgG1 antibodies are detected. T cell proliferation was assayed using crude Toxoplasma extracts or excretory-secretory antigens (ESA). The analysis of T cell supernatants showed the specific secretion of both interleukin-2 and interferon-gamma by activated T cells. Immunization of rats before pregnancy with either crude Toxoplasma extracts or with ESA elicited a B cell response that included antibodies of the IgG1 isotype and conferred on the newborns high levels of protection. Preliminary experiments of immunization using two HPLC-purified ESA, GRA2 and GRA5, conferred, a significant protection although to a lesser extent. This experimental model represents an attractive model for the identification of future vaccine candidates against congenital toxoplasmosis.

Different manifestations of Toxoplasma gondii infection in F344 and LEW rats.

There is evidence that not only the immune status, but also the genetic predisposition of certain hosts influence the clinical outcome of Toxoplasma gondii infection. By far the majority of our knowledge on genetic and immunological mechanisms involved in control of T. gondii infection has been obtained by studying mouse models, which in terms of clinical outcome of infection differ considerably from humans. Rats which show a rather similar course of infection in comparison to humans have not so far been investigated for effects of genetic differences on course of the infection. In this study we show that, like mice, different strains of rats exhibit a remarkable variation in the number of brain cysts arising from chronic infection. LEW rats seem to be highly resistant to cyst formation, in contrast to F344 rats that are susceptible. In addition, F344 rats express high numbers of gammadelta T cells during the acute phase of infection, whereas LEW rats express elevated but comparably low numbers of gammadelta T cells. The RT1 (rat MHC) haplotypes of both strains are identical in the RT1A and RT1B/D regions, which encode the restriction elements for conventional peptide antigens. Consequently, rat strain-specific differences may be useful to define MHC-independent mechanisms of resistance against T. gondii, which may also act in humans.

Transmembrane insertion of the Toxoplasma gondii GRA5 protein occurs after soluble secretion into the host cell.

The intracellular parasite Toxoplasma gondii resides within a specialized compartment, the parasitophorous vacuole (PV), that resists fusion with host cell endocytic and lysosomal compartments. The PV is extensively modified by secretion of parasite proteins, including the dense granule protein GRA5 that is specifically targeted to the delimiting membrane of the PV (PVM). We show here that GRA5 is present both in a soluble form and in hydrophobic aggregates. GRA5 is secreted as a soluble form into the PV after which it becomes stably associated with the PVM. Topological studies demonstrated that GRA5 was inserted into the PVM as a transmembrane protein with its N-terminal domain extending into the cytoplasm and its C terminus in the vacuole lumen. Deletion of 8 of the 18 hydrophobic amino acids of the single predicted transmembrane domain resulted in the failure of GRA5 to associate with the PVM; yet it remained correctly packaged in the dense granules and was secreted as a soluble protein into the PV. Collectively, these studies demonstrate that the secretory pathway in Toxoplasma is unusual in two regards; it allows soluble export of proteins containing typical transmembrane domains and provides a mechanism for their insertion into a host cell membrane after secretion from the parasite.

Immunogenicity of recombinant BCG producing the GRA1 antigen from Toxoplasma gondii.

Toxoplasmosis is a major parasitic disease, responsible for foetopathy in humans and domestic animals, especially sheep. Toxoplasma gondii infection generally protects immunocompetent hosts against subsequent reinfection, suggesting that efficacious vaccines can be developed against this disease. Excreted/secreted T. gondii antigens have previously been shown to provide immunoprotection in small rodents, and protective immunity is thought to be cell-mediated. Mycobacterium bovis BCG is known to be a good inducer of cellular immunity. In this study, we have developed a BCG strain which produces and secretes GRA1, one of the major excreted/secreted T. gondii antigens. This strain does not carry antibiotic-resistance determinants and is therefore safe for the environment. The intraperitoneal immunisation of OF1 outbred mice with this BCG strain failed to induce GRA1-specific humoral or cellular immune responses and only conferred a very limited degree of protection against challenge with virulent T. gondii. However, in sheep immunised subcutaneously and boosted intravenously, this recombinant BCG strain induced GRA1-specific cell-mediated responses, as evidenced by the proliferation of peripheral blood mononuclear cells and by the production of IFN-gamma, although it failed to elicit GRA1-specific antibody responses. Following oocyst challenge infection, sheep immunised with recombinant BCG exhibited an abbreviated temperature response compared with controls, suggesting partial protection.

The expression and distribution of dense granule proteins in the enteric (Coccidian) forms of Toxoplasma gondii in the small intestine of the cat.

The expression and distribution of dense granule proteins in the enteric (coccidian) forms of Toxoplasma gondii in the small intestine of the cat. Experimental Parasitology 91, 203-211. The expression and location of the dense granule proteins (GRA1-6 and NTPase) in the merozoite and during asexual and sexual development of Toxoplasma gondii in the small intestine of the cat (definitive host) was examined by immuno-light and electron microscopy. This was compared with that of tachyzoites and bradyzoites present in the intermediate host. It was found that the merozoite contained the characteristic apical organelles plus a few large dense granules. By immunocytochemistry, dense granules in merozoites were negative for GRA proteins 1 to 6 in contrast to both tachyzoites and bradyzoites in which dense granules were positive for all six proteins. The GRA proteins were associated with the parasitophorous vacuole (PV) during tachyzoite and bradyzoite development but were absent from the PV of the enteric stages. However, the merozoite dense granules were positive for NTPase, which was similar to the tachyzoite while this antigen was down regulated in the bradyzoite. The apparent release of the NTPases into the PV formed by merozoites was also similar to that described for the tachyzoite, possibly reflecting the relative metabolic activity of the various stages. This study shows that the majority of GRA proteins have a similar stage-specific expression, which is independent of NTPases expression. These observations are consistent with T. gondii having a different host parasite relationship in the enteric forms, which does not involve the GRA proteins 1-6.

Toxoplasma gondii: kinetics of the dissemination in the host tissues during the acute phase of infection of mice and rats.

Mice and rats differ in their susceptibility to Toxoplasma gondii infection. Here we have compared the parasitological parameters of acute infection in both mice and rats infected either orally with cysts of Prugniaud strain or intraperitoneally (ip) with tachyzoites of the RH strain. The animals were killed at regular interval during the acute phase, and the parasitic burden in mesenteric lymph nodes, spleen, liver, diaphragm, heart, lungs, brain, and blood was assessed by a tissue culture method in MRC5 fibroblast cells. Mice infected with the RH strain showed a drastic increase of the parasitic load in all organs (up to 10 (8) parasites / g of organs), and then died. When mice were infected with 50 cysts of Prugniaud strain, parasites were first observed in mesenteric lymph nodes, spleen, and lungs and then in other organs. In rats, infection with 1200 cysts of the same strain led to a similar pattern; however, the chronology of the infected organs changed when they were infected with RH strain tachyzoites. These results suggest that the parasites, present first in the peritoneal cavity in the case of RH ip infection, infect all the adjacent organs and then the blood which disseminates the tachyzoites all over the organism. In contrast, after an oral infection, the parasite crosses the intestinal barrier to reach the mesenteric lymph nodes and then the spleen and are finally distributed by the blood throughout the organism. We also showed that following infection with a lethal or a sublethal doses of the Prugniaud strain, the parasitic burden in the studied organs was similar and therefore does not directly correlate with the death of the mice.

The amphipathic alpha helices of the toxoplasma protein GRA2 mediate post-secretory membrane association.

The Toxoplasma gondii protein GRA2 is secreted into the parasite-containing vacuole where it is rapidly and specifically targeted to a network of membranous tubules that connect with the vacuolar membrane. To examine the molecular basis of this association, we expressed an HA9 epitope-tagged form of GRA2 by stable transformation of Toxoplasma. GRA2-HA9 was correctly packaged inside the dense granules, secreted into the PV and targeted to the network, as shown by immunoelectron microscopy, immunofluorescence and cell fractionation. Expression of deletion mutants of GRA2-HA9 lacking either of two amphipathic alpha helices resulted in the production and secretion of soluble proteins which were unable to stably associate with the network. A mutant in which the amino acids of the first alpha helix were rearranged to a non-amphipathic pattern localized correctly to the network but failed to remained stably associated with the membrane. Collectively, these results demonstrate that targeting and membrane association occur by separate mechanisms and that the combination of both alpha helices is essential for stable localization of GRA2 to the network.

Stimulation of human T lymphocytes obtained from Toxoplasma gondii-seronegative persons by proteins derived from T. gondii.

Toxoplasma gondii antigens are superantigens in mice. To investigate a superantigen effect in humans, lymphocytes from T. gondii-seronegative subjects were studied for proliferation to T. gondii antigens (TA). Marked cellular proliferation, predominantly of CD4+ lymphocytes, was apparent. TA elicited expansions of Vbeta-bearing lymphocytes in all subjects, but different Vbeta-bearing lymphocytes were expanded in different subjects in both CD4+ and CD8+ subpopulations. Cord blood cells also proliferated to TA. Previously fixed antigen-presenting cells were unable to present TA. Thus, T. gondii appears to produce a molecule(s) that induces polyclonal activation of human T cells and requires antigen processing to mediate this effect. That T. gondii does not appear to behave as a superantigen in humans is important in understanding the pathogenesis of T. gondii infection in immunocompromised hosts and in the design of anti-T. gondii vaccines.

Common cis-acting elements critical for the expression of several genes of Toxoplasma gondii.

Transient transformation of Toxoplasma using the CAT (chloramphenicol acetyl transferase) reporter gene has been used to map promoter elements of four genes encoding dense granule proteins (GRA1, GRA2, GRA5 and GRA6). Intense CAT activities (GRA1 > GRA5 > GRA2 > GRA6) are detected for constructs containing 379bp, 276bp, 209bp and 265bp upstream of the transcription start site of the GRA1, GRA2, GRA5 and GRA6 genes, respectively. Deletion analysis shows that optimal promoter activity of each gene is contained in the proximal region of the transcription start site: -129 to -47 for GRA1, -87 to -37 for GRA2, -156 to -30 for GRA5 and -146 to -27 for GRA6. Quantitative CAT assay and mutation analysis show that repeated motifs (A/TGAGACG) found in either orientation with respect to transcription are critical elements of these defined promoter regions. We have found such sequence elements in the upstream region of other Toxoplasma genes such as Tub1 and within the stretch of 27bp repeats of the SAG1 promoter.