Nuclear actin-related protein is required for chromosome segregation in Toxoplasma gondii

Apicomplexa parasites use complex cell cycles to replicate that are not well understood mechanistically. We have established a robust forward genetic strategy to identify the essential components of parasite cell division. Here we describe a novel temperature sensitive Toxoplasma strain, mutant 13-20C2, which growth arrests due to a defect in mitosis. The primary phenotype is the mis-segregation of duplicated chromosomes with chromosome loss during nuclear division. This defect is conditional-lethal with respect to temperature, although relatively mild in regard to the preservation of the major microtubule organizing centers. Despite severe DNA loss many of the physical structures associated with daughter budding and the assembly of invasion structures formed and operated normally at the non-permissive temperature before completely arresting. These results suggest there are coordinating mechanisms that govern the timing of these events in the parasite cell cycle. The defect in mutant 13-20C2 was mapped by genetic complementation to Toxoplasma chromosome III and to a specific mutation in the gene encoding an ortholog of nuclear actin-related protein 4. A change in a conserved isoleucine to threonine in the helical structure of this nuclear actin related protein leads to protein instability and cellular mis-localization at the higher temperature. Given the age of this protist family, the results indicate a key role for nuclear actin-related proteins in chromosome segregation was established very early in the evolution of eukaryotes.     

The MIC3 gene of Toxoplasma gondii is a novel potent vaccine candidate against toxoplasmosis

Infection with the intracellular protozoan parasite Toxoplasma gondii causes serious public health problems and is of great economic importance worldwide. The micronemal protein MIC3, which is a potent adhesin of T. gondii, could be a significant candidate vaccine against toxoplasmosis. In this study, all CBA/J mice intramuscularly vaccinated with a plasmid encoding the immature form of the MIC3 protein (pMIC3i) produced specific anti-MIC3 immunoglobulin G (IgG) antibodies, and their sera displayed high antibody titers. This response was increased by the coadministration of a plasmid encoding the granulocyte-macrophage colony-stimulating factor (pGM-CSF). Similarly, a specific and significant cellular immune response was obtained in mice immunized with pMIC3i, and this response was markedly enhanced by pGM-CSF coadministration. The cellular immune response was associated with the production of gamma interferon IFN-gamma and interleukin-2 (IL-2), indicating that this was a Th1-type response. This was confirmed by the production of large amounts of IgG2a. Mice immunized with pMIC3i displayed significant protection against an oral challenge with T. gondii 76K cysts, exhibiting fewer brain cysts than did the control mice. Coadministration of pGM-CSF enhanced this protection. In conclusion, this study describes the design of a potent DNA vaccine encoding the novel T. gondii target antigen, MIC3 protein, that elicits a strong specific immune response as well as providing effective protection against T. gondii infection. In the attempt to achieve complete protection against toxoplasmosis, MIC3 is a good candidate vaccine which could be combined with other relevant and previously described candidates, such as SAG1 and GRA4.     

Chemokine secretion of human cells in response to Toxoplasma gondii infection

The ubiquitous protozoan parasite Toxoplasma gondii is a major cause of morbidity and mortality in neonates and immunocompromised hosts. Both acute invasion and reactivation of latent infection result in an inflammatory reaction with lymphocytes, macrophages, and neutrophils. The mechanisms responsible for triggering the local host response to toxoplasmosis are not fully understood. Infection of monolayers of human HeLa epithelial cells and fibroblasts with T. gondii resulted in a marked increase in the expression of interleukin-8 (IL-8)-specific mRNA and secretion of the proinflammatory and chemoattractant cytokines interleukin-8 (IL-8), GROalpha, and MCP-1. Host cell invasion and lysis were required for this response, as tachyzoite lysates alone had no effect on IL-8 secretion. IL-8 release was dependent on the release of soluble host cell factors: IL-1alpha in HeLa cells and an additional mediator in fibroblasts. HT-29 epithelial cells, which lack IL-1alpha or another IL-8-inducing activity, did not release IL-8 after infection, although they were efficiently infected with T. gondii and increased IL-8 secretion in response to added IL-1alpha. These data suggest that proinflammatory chemokine secretion is an important host cell response to toxoplasmosis and that the release of IL-1alpha and other mediators from lysed host cells is critical for this chemokine response.     

弓形虫RH株微线体蛋白MIC3基因的克隆与表达

目的 克隆和表达弓形虫微线体蛋白MIC3基因。方法 从弓形虫RH株分离总的RNA,反转成cDNA.根据MIC3基因序列,设计合成一对引物,用聚合酶链式反应（PCR）方法从弓形虫cDNA中扩增MIC3基因片段,插入pGEM-T载体,并转化大肠杆菌Top10,经PCR、双酶切、测序验证后,将MIC3基因片段定向亚克隆到载体pET-28a中构建原核表达重组质粒pET-28a-MIC3,重组子在E.coli BL21中经IPTG诱导表达,并对表达产物进行SDS-PAGE和Western-blot分析。结果 从弓形虫RH株cDNA中扩增出792bp大小的MIC3基因片段并诱导表达27 300 Mr的重组MIC3蛋白。结论 成功构建和表达了弓形虫pET-28a-MIC3重组质粒,为弓形虫病诊断抗原和疫苗的研究奠定了基础。     

Specific binding of neoglycoproteins to Toxoplasma gondii tachyzoites.

Several studies have shown that protozoa bind to glycoproteins or neoglycoproteins. Here we report that Toxoplasma gondii binds strongly to bovine serum albumin-glucosamide. The binding was rapid, time dependent, partially reversible, saturable, and specific. Scatchard analysis showed about 40,000 molecules of bovine serum albumin-glucosamide per toxoplasma cell. The apparent dissociation constant was found to be 4.46 x 10(-8) M.     

Laminin enhances binding of Toxoplasma gondii tachyzoites to J774 murine macrophage cells.

We investigated the effects of the extracellular matrix proteins laminin and fibronectin on the attachment of tachyzoites of Toxoplasma gondii to the murine macrophage cell line J774. Laminin but not fibronectin increased parasite attachment to J774 cells in a dose-dependent fashion. Cyclic YIGSR, a laminin-derived peptide which inhibits laminin binding to the 32/67-kDa laminin-binding protein on host cells, blocked the laminin-mediated enhancement of parasite attachment. An antiserum to the 32/67-kDa laminin-binding protein also inhibited binding of parasites to J774 cells. These results, in conjunction with our previous observations (G. C. Furtado, F. L. Collins, and K. A. Joiner, submitted for publication), demonstrate that tachyzoites bearing surface laminin bind to multiple laminin receptors in attaching to different target cells.     

Attachment of Toxoplasma gondii to host cells is host cell cycle dependent.

The initial attachment of Toxoplasma tachyzoites to target host cells is an important event in the life cycle of the parasite and hence critical in the pathogenesis of this infection. The efficiency of Toxoplasma attachment to synchronized populations of Chinese hamster ovary cells and bovine kidney cells was investigated by using a glutaraldehyde-fixed host cell assay system. For both cell lines, parasite attachment increased as the synchronized host cells proceeded from the G1 phase to the mid-S phase and then decreased as the cells entered the G2-M boundary. Postulating that these differences in attachment reflect the upregulation of a specific receptor, polyclonal antibodies were generated against whole MDBK antigen at 0 and 4 h into the S phase. Both antisera were shown to inhibit parasite attachment to both synchronous and asynchronous host cell populations. However, the attachment blockade observed with the 4-h antiserum was significantly greater than that with the 0-h antiserum, completely abolishing the cell cycle-dependent increase in attachment found in control samples. These findings suggest that Toxoplasma tachyzoites bind specifically to a host cell receptor which is upregulated in the mid-S phase of the cell cycle.     

Gr1(+) inflammatory monocytes are required for mucosal resistance to the pathogen Toxoplasma gondii

The enteric pathogen Toxoplasma gondii is controlled by a vigorous innate T helper 1 (Th1) cell response in the murine model. We demonstrated that after oral infection, the parasite rapidly recruited inflammatory monocytes [Gr1(+) (Ly6C(+), Ly6G(-)) F4/80(+)CD11b(+)CD11c(-)], which established a vital defensive perimeter within the villi of the ileum in the small intestine. Mice deficient of the chemokine receptor CCR2 or the ligand CCL2 failed to recruit Gr1(+) inflammatory monocytes, whereas dendritic cells and resident tissue macrophages remained unaltered. The selective lack of Gr1(+) inflammatory monocytes resulted in an inability of mice to control replication of the parasite, high influx of neutrophils, extensive intestinal necrosis, and rapid death. Adoptive transfer of sorted Gr1(+) inflammatory monocytes demonstrated their ability to home to the ileum in infected animals and protect Ccr2(-/-) mice, which were otherwise highly susceptible to oral toxoplasmosis. Collectively, these findings illustrate the critical importance of inflammatory monocytes as a first line of defense in controlling intestinal pathogens.     

The SAG1 Toxoplasma gondii surface protein is not required for acute ocular toxoplasmosis in mice

The SAG1 Toxoplasma gondii surface protein stimulates acute ileitis. To determine whether SAG1 is also important in the eye, wild-type or SAG1 knockout parasites were injected intravitreally into mice. No differences in retinal damage or parasite growth were observed, indicating that unlike the case for the intestine, factors besides SAG1 are important for retinal damage.     

Influence of cytokines on Toxoplasma gondii growth in human astrocytoma-derived cells

 The effects of interferon-γ (IFN-γ), tumor necrosis factor-α (TNF-α), interleukin 1-α (IL-1-α), and interleukin 6 (IL-6) on the growth of the Toxoplasma gondii RH strain were studied in vitro using a human astrocytoma-derived cell line. Cells were treated with cytokines at different concentrations at 24 h prior to infection with T. gondii tachyzoites. IFN-γ did not induce any modification in T. gondii growth, whatever the concentration used. TNF-α induced a significant decrease in the total number of tachyzoites, whereas IL-1-α surprisingly induced an increase in the number of tachyzoites. Our results show that the effects of cytokines on T. gondii growth may be of great importance in the control of cerebral toxoplasmosis but that they can vary, depending on the cell type considered. Received: 3 November 1995 / Accepted: 27 February 1996     

B cells are essential for vaccination-induced resistance to virulent Toxoplasma gondii

T lymphocytes and gamma interferon (IFN-gamma) are known mediators of immune resistance to Toxoplasma gondii infection, but whether B cells also play an important role is not clear. We have investigated this issue using B-cell-deficient (muMT) mice. If vaccinated with attenuated T. gondii tachyzoites, muMT mice are susceptible to a challenge intraperitoneal infection with highly virulent tachyzoites that similarly vaccinated B-cell-sufficient mice resist. Susceptibility is evidenced by increased numbers of parasites at the challenge infection site and by extensive mortality. The susceptibility of B-cell-deficient mice does not appear to be caused by deficient T-cell functions or diminished capacity of vaccinated and challenged B-cell-deficient mice to produce IFN-gamma. Administration of Toxoplasma-immune serum, but not nonimmune serum, to vaccinated B-cell-deficient mice significantly prolongs their survival after challenge with virulent tachyzoites. Vaccinated mice lacking Fc receptors or the fifth component of complement resist a challenge infection, suggesting that neither Fc-receptor-dependent phagocytosis of antibody-coated tachyzoites nor antibody-dependent cellular cytotoxicity nor antibody-and-complement-dependent lysis of tachyzoites is a crucial mechanism of resistance. However, Toxoplasma-immune serum effectively inhibits the infection of host cells by tachyzoites in vitro. Together, the results support the hypothesis that B cells are required for vaccination-induced resistance to virulent tachyzoites in order to produce antibodies and that antibodies may function protectively in vivo by blocking infection of host cells by tachyzoites.     

Tissue barriers of the human placenta to infection with Toxoplasma gondii

Toxoplasma gondii is a ubiquitous, obligate intracellular parasite capable of crossing the placenta to cause spontaneous abortion, preterm labor, or significant disease in the surviving neonate. Exploration of the cellular and histological components of the placental barrier is in its infancy, and both how and where T. gondii breaches it are unknown. The human placenta presents two anatomical interfaces between maternal cells and fetal cells (trophoblasts): (i) the villous region where maternal blood bathes syncytialized trophoblasts for nutrient exchange and (ii) the maternal decidua, where mononuclear, extravillous trophoblasts anchor the villous region to the uterus. Using first-trimester human placental explants, we demonstrate that the latter site is significantly more vulnerable to infection, despite presenting a vastly smaller surface. This is consistent with past findings concerning two vertically transmitted viruses and one bacterium. We further explore whether three genetically distinct T. gondii types (I, II, and III) are capable of preferential placental infection and survival in this model. We find no difference in these strains' ability to infect placental explants; however, slightly slower growth is evident in type II (Prugniaud [Pru]) parasites relative to other cell types, although this did not quite achieve statistical significance.     

High-level expression of the Toxoplasma gondii STT3 gene is required for suppression of the yeast STT3 gene mutation

N-linked glycosylation is the most frequent modification of secretory proteins. The central reaction of this process in eukaryotic cells is catalyzed by the hetero-oligomeric protein complex oligosaccharyltransferase (OST). The gene STT3 gene encodes a protein, which is the most conserved among the components of the OST. In this report, we describe the isolation and functional characterization of a STT3 homologue from Toxoplasma gondii. The topology of the TgStt3p is similar to that of the yeast Stt3p with 47% identity. We demonstrate that high level expression of the homologues gene is required to completely suppress the defect caused by a stt3 mutation in yeast, suggesting that homologous Stt3 proteins can serve analogous functions in distantly related eukaryotic cells regardless of their degree of conservation.     

Intact immune defenses are required for mice to resist the ts-4 vaccine strain of Toxoplasma gondii.

The ts-4 strain of Toxoplasma gondii is a temperature-sensitive mutant that fails to grow at 40 degrees C in vitro. Unlike mildly virulent cyst-forming strains, which can cause fatal chronic infections in certain mouse strains, ts-4 has been widely used to vaccinate mice against virulent T. gondii and is a valuable tool with which to investigate mechanisms of acquired resistance to this parasite. In this report, the basis for the avirulence of ts-4 is analyzed. It is shown that ts-4 is able to persist long-term in vivo in mildly immunocompromised mice, which rules out an intrinsic growth defect as a reason for avirulence. ts-4 does not induce body temperatures in mice as high as that needed to kill it in vitro. Moreover, the mild fevers elicited in resistant B6 mice are also seen in susceptible C57BL/6 scid/scid mice. However, ts-4 elicits strong preimmune defenses, dependent on gamma interferon, which are needed by mice to survive acute infection. Furthermore, CD4+ and CD8+ T-cell-dependent acquired immunity is essential for long-term survival of ts-4-infected mice.     

Enzyme-linked immunosorbent assay for antibodies to Toxoplasma gondii polysaccharides in human toxoplasmosis.

A polysaccharide fraction from Toxoplasma gondii was adsorbed to polystyrene plates, and the enzyme-linked immunosorbent assay was performed (poly-ELISA) with peroxidase-labeled anti-immunoglobulin G and anti-immunoglobulin M antibodies. A comparison was made with a T. gondii total protein extract ELISA (protein ELISA) in serum samples presenting different toxoplasmosis serological patterns, as indicated by a battery of tests for toxoplasmosis. Very low titers and negative results were seen for immunoglobulin G poly-ELISA both for serum samples corresponding to ancient or transitional-period infections (serological patterns II and III) and for samples of recent or acute toxoplasmosis (pattern I). On the contrary, immunoglobulin M poly-ELISA furnished high titer results for pattern I sera, and a very close agreement of titers was seen between immunoglobulin M protein ELISA and immunoglobulin M poly-ELISA. When the polysaccharide fraction was added to pattern I sera, a complete blocking of immunoglobulin M antibody reactivity resulted only for poly-ELISA. In the same way, the total protein extract could completely block only reactivity for protein ELISA. In both cases, a limited decrease in titers was observed for respective heterologous assays.     

Modification of the Woodruff-Stamper assay demonstrates binding of Toxoplasma gondii tachyzoites to retinal vascular endothelium

In the human host, infection with the protozoan parasite, Toxoplasma gondii, most commonly involves the eye and/or the brain. Previous work indicates a relative susceptibility of the human retinal vascular endothelium to infection with the T. gondii tachyzoite, which may contribute to this tissue localization. To facilitate the investigation of potential adhesive interactions between parasite and endothelium in the retina, we have modified the Woodruff-Stamper assay, originally described to study lymphocytic-endothelial binding. Vascular endothelium was identified in sections of human retina by Alexa Fluor 594-tagged anti-von Willebrand factor antibody. Binding of yellow fluorescent protein-expressing tachyzoites to endothelium under conditions of flow, simulated by rotation on an orbital shaker, was quantified in a masked fashion using imaging software. We observed multiple yellow spots in contact with Alexa Fluor 594-positive retina, indicating binding of T. gondii tachyzoites to retinal vascular endothelium. This modification of the Woodruff-Stamper assay provides an opportunity to evaluate potential host receptors for T. gondii on the retinal vascular endothelium. In addition, the assay suggests a methodology that could be used to examine adhesion of other microbes to microvasculature in different tissues.     

Antigenaemia and antibody response to Toxoplasma gondii in human immunodeficiency virus-infected patients

Toxoplasma encephalitis in immunocompromised patients results from reactivation of previously acquired (latent) infection. The aim of the study is to assess the antigenaemia and antibody response to Toxoplasma gondii in human immunodeficiency virus (HIV)-infected patients to determine the best marker for early diagnosis of toxoplasmosis in such patients. Indirect enzyme-linked immunosorbent assay (ELISA) for detection of IgG, IgM and IgA anti-toxoplasma antibodies and double-sandwich ELISA for toxoplasma antigen is carried out in serum samples collected from 100 HIV seropositive patients and 75 controls. Toxoplasma-specific IgG, IgM and IgA antibody response and antigenaemia were detected in 12%, 6%, 7% and 14% of HIV-infected patients, respectively. On retrospective analysis of 14 patients with antigenaemia only one had central nervous system (CNS) symptoms attributable to toxoplasma infection. In this patient, the CD4+ cell count was below 50/microL and none of the specific immunoglobulin isotype responses could be detected. The patient showed clinical improvement following specific chemotherapy for toxoplasmosis. In 25 HIV-negative and anti-toxoplasma IgG antibody-positive controls, IgM was detected in two (8%), IgA in five (20%) and antigenaemia in 10 (40%), while 50 HIV seronegative healthy controls were negative for both antigen and antibody responses. The study indicates that detection of toxoplasma antigen in addition to IgG antibody response may prove to be a useful indicator in the early diagnosis of reactivated toxoplasmosis in HIV/AIDS patients.     

Attachment of Toxoplasma gondii to a specific membrane fraction of CHO cells

We have observed previously that attachment of Toxoplasma gondii to synchronized host cells is considerably increased at the mid-S phase (4 h postrelease). Synchronized CHO host cells at the mid-S phase were fractionated by molecular weight, and the antigens were used to produce a panel of polyclonal mouse antisera. The polyclonal antisera raised against fraction 4 with molecular mass ranging approximately from 18 to 40 kDa significantly reduced attachment to mid-S-phase host cells. Immunofluorescence assays demonstrated strong reactivity to mid-S-phase host cells and identified a number of potential receptors on Western blots. These data indicate that there is a specific host membrane receptor for parasite attachment that is upregulated during the mid-S phase of the host cell cycle.