A patatin-like protein protects Toxoplasma gondii from degradation in activated macrophages

The apicomplexan parasite Toxoplasma gondii is able to suppress nitric oxide production in activated macrophages. A screen of over 6000 T. gondii insertional mutants identified two clones, which were consistently unable to suppress nitric oxide production from activated macrophages. One strain, called 89B7, grew at the same rate as wild‐type parasites in naïve macrophages, but unlike wild type, the mutant was degraded in activated macrophages. This degradation was marked by a reduction in the number of parasites within vacuoles over time, the loss of GRA4 and SAG1 protein staining by immunofluorescence assay, and the vesiculation and breakdown of the internal parasite ultrastructure by electron microscopy. The mutagenesis plasmid in the 89B7 clone disrupts the promoter of a 3.4 kb mRNA that encodes a predicted 68 kDa protein with a cleavable signal peptide and a patatin‐like phospholipase domain. Genetic complementation with the genomic locus of this patatin‐like protein restores the parasites ability to suppress nitric oxide and replicate in activated macrophages. A haemagglutinin‐tagged version of this patatin‐like protein shows punctate localization into atypical T. gondii structures within the parasite. This is the first study that defines a specific gene product that is needed for parasite survival in activated but not naïve macrophages.     

Inducible cytosolic enzyme activity for the production of nitrogen oxides from L-arginine in hepatocytes

The in vivo conditions needed for the induction of nitrogen oxide synthesis by hepatocytes were determined. Hepatocytes obtained from rats injected with killed Corynebacterium parvum spontaneously produced NO2(-)+NO3- in culture and were found to contain cytosolic enzyme activity for nitrogen oxide synthesis. The enzyme activity required both L-arginine and NADPH, and was not found in hepatocytes obtained from normal rats or rats injected with lipopolysaccharide (LPS) alone. In contrast, nonparenchymal cells were stimulated to synthesize NO2(-)+NO3- by LPS. These results show the presence of inducible cytosolic enzyme activity for nitrogen oxide synthesis in hepatocytes, which is distinct from nonparenchymal cell NO. synthesis.     

Role of Toxoplasma gondii HSP70 and Toxoplasma gondii HSP30/bag1 in antibody formation and prophylactic immunity in mice experimentally infected with Toxoplasma gondii.

Production of antibodies against Toxoplasma gondii (T. gondii)-derived stress proteins, T. gondii HSP70 (T.g.HSP70) and T.g.HSP30/bagl, in C57BL/6 and BALB/c mice perorally infected with cysts of the avirulent Fukaya strain of T. gondii was analyzed. Production of anti-T.g.HSP70 IgG antibodies was transient, whereas production of anti-T.g.HSP30/bag1 IgG antibodies persisted after infection in both C57BL/6 and BALB/c mice. C57BL/6 mice, a susceptible strain, predominantly produced IgG antibodies specific for T.g.HSP70, whereas BALB/c mice, a resistant strain, predominantly produced IgG antibodies specific for T.g.HSP30/bag1, after T. gondii infection. Immunization with rT.g.HSP30/bag1 enhanced, whereas immunization with rT.g.HSP70 reduced host protective immunity against T. gondii infection with a cyst-forming avirulent strain, Fukaya, and a virulent strain, RH.     

Synthesis of nitrogen oxides from L-arginine by macrophage cytosol: requirement for inducible and constitutive components

Cytosols prepared from murine peritoneal macrophages and the RAW 264 macrophage cell line catalyzed conversion of L-arginine to the labile vaso-relaxant nitric oxide and its accumulating endproducts, nitrite and nitrate. This activity required previous exposure of the cells to interferon-gamma and bacterial lipopolysaccharide. Nitrogen oxide synthetase activity was characterized further using nitrite + nitrate production as an indicator of the synthesis of all three nitrogen oxides. Nitrogen oxide synthetase activity was heat-sensitive, NADPH-dependent, and exhibited substrate stereospecificity. The nitrite + nitrate formation was proportional to time and concentration of cytosol. However, dilution decreased the specific activity, suggesting a cofactor requirement in addition to NADPH. Specific activity was restored by addition of cytosol from non-activated macrophages, which itself did not make nitric oxide. Both high and low molecular weight fractions of control macrophage cytosol were required to restore activity of cytosol from activated macrophages that had been either diluted or partially purified. Thus, the enzymatic system involved in nitric oxide synthesis by murine macrophages consists of at least one inducible and two constitutive components.     

A family of glycolipids from Toxoplasma gondii. Identification of candidate glycolipid precursor(s) for Toxoplasma gondii glycosylphosphatidylinositol membrane anchors.

Four major glycolipids were extracted from Toxoplasma gondii tachyzoites which were metabolically labeled with tritiated glucosamine, mannose, palmitic and myristic acid, ethanolamine, and inositol. Judging from their sensitivity to a set of enzymatic and chemical tests, these glycolipids share the following properties with the glycolipid moiety of the glycosylphosphatidylinositol anchor (GPI anchor) of the major surface protein, P30, of T. gondii: 1) a nonacetylated glucosamine-inositol phosphate linkage; 2) sensitivity toward phosphatidylinositol-specific phospholipase C and nitrous acid; 3) identity of HF-dephosphorylated GPI glycan backbone between three glycolipids and the HF-dephosphorylated core glycan of the GPI anchor of the major surface protein P30; 4) the presence of a linear core glycan structure blocked by an ethanolamine phosphate residue(s). Taken together with the nature of radiolabeled precursors incorporated into these glycolipids, the data indicate that these GPIs are involved in the biosynthesis of the GPI-membrane anchors of T. gondii.     

Role of ATG3 in the parasite Toxoplasma gondii

Toxoplasma gondii belongs to the phylum Apicomplexa, a diverse group of early branching unicellular eukaryotes related to dinoflagellates and ciliates. Like several other Apicomplexa such as Plasmodium (the causative agent of malaria), T. gondii is a human pathogen responsible for a potentially lethal disease called toxoplasmosis. Most Apicomplexa have complex life cycles, involving intermediate hosts and vectors, which include obligatory intracellular developmental stages. In the case of malaria and toxoplasmosis, it is that replicative process, leading to the ultimate lysis of the host cell, which is causing the symptoms of the disease. For Toxoplasma, the invasive and fast-replicating form of the parasite is called the tachyzoite. While autophagy has been a fast-growing field of research in recent years, not much was known about the relevance of this catabolic process in medically important apicomplexan parasites. Vesicles resembling autophagosomes had been described in drug-treated Plasmodium parasites in the early 1970s and a potential role for autophagy in organelle recycling during differentiation between Plasmodium life stages has also been recently described. Interestingly, recent database searches have identified putative orthologs of the core machinery responsible for the formation of autophagosomes in several protists, including Toxoplasma. In spite of an apparently reduced machinery (only about one-third of the yeast ATG genes appear to be conserved), T. gondii seemed thus able to perform macroautophagy, but the cellular functions of the pathway for this parasite remained to be demonstrated.     

Role of amylopectin synthesis in Toxoplasma gondii and its implication in vaccine development against toxoplasmosis

Toxoplasma gondii is a ubiquitous pathogen infecting one-third of the global population. A significant fraction of toxoplasmosis cases is caused by reactivation of existing chronic infections. The encysted bradyzoites during chronic infection accumulate high levels of amylopectin that is barely present in fast-replicating tachyzoites. However, the physiological significance of amylopectin is not fully understood. Here, we identified a starch synthase (SS) that is required for amylopectin synthesis in T. gondii. Genetic ablation of SS abolished amylopectin production, reduced tachyzoite proliferation, and impaired the recrudescence of bradyzoites to tachyzoites. Disruption of the parasite Ca²⁺-dependent protein kinase 2 (CDPK2) was previously shown to cause massive amylopectin accumulation and bradyzoite death. Therefore, the Δcdpk2 mutant is thought to be a vaccine candidate. Notably, deleting SS in a Δcdpk2 mutant completely abolished starch accrual and restored cyst formation as well as virulence in mice. Together these results suggest that regulated amylopectin production is critical for the optimal growth, development and virulence of Toxoplasma. Not least, our data underscore a potential drawback of the Δcdpk2 mutant as a vaccine candidate as it may regain full virulence by mutating amylopectin synthesis genes like SS.     

Toxoplasma gondii partially inhibits nitric oxide production of activated murine macrophages

Activated macrophages produce nitric oxide (NO) and as such are able to control the multiplication of Toxoplasma gondii. Until now, no reports have described a possible modulation of NO production of macrophages after T. gondii infection. To investigate this possibility, murine blood monocyte-derived and peritoneal macrophages were activated in vitro with interferon-gamma and lipopolysaccharide and infected with T. gondii and Trypanosoma cruzi, and NO production was evaluated. NO was produced by monocyte-derived macrophages only if cultured in the presence of macrophage-colony-stimulating factor. Monocyte-derived or peritoneal macrophages infected with T. gondii presented a significant reduction in NO production. NO production inhibition was not detected after T. cruzi infection. Macrophages infected with higher T. gondii/macrophage ratios presented lower NO production. Furthermore, only viable T. gondii could cause partial inhibition of NO production. In macrophages activated 24 h before the interaction, partial inhibition was detected after 3 h of infection and continued for 48 h. In macrophages activated immediately after the interaction, partial inhibition was not detected at 12 h, but was observed at 24 h. T. gondii-infected macrophages present lower inducible nitric oxide synthase expression as assayed by immunofluorescence. T. gondii did not develop in monocyte-derived macrophages producing NO, but were not totally eliminated. These results demonstrate that T. gondii infection partially inhibits NO production by murine macrophages, suggesting that a deactivating macrophage mechanism may be used for better survival into phagocytic cells.     

Role of calcium during Toxoplasma gondii invasion and egress

Calcium is a ubiquitous signalling molecule involved in a large number of cellular processes in eukaryotic cells. In the obligate intracellular parasite, Toxoplasma gondii, for example, a rise in calcium concentration is associated with significant morphological changes, secretion of proteins involved in host cell invasion and rapid egress from the host cell. Recent findings indicate that calcium released from the parasite's intracellular pools is necessary and sufficient to induce some of the events critical for invasion and egress. In addition, ethanol, a powerful inducer of invasion-related events, is shown here to also induce rapid egress from the host cell, indicating that a common mechanism for calcium release might be involved during both invasion and egress.     

Lytic cycle of Toxoplasma gondii.

Toxoplasma gondii is an obligate intracellular pathogen within the phylum Apicomplexa. This protozoan parasite is one of the most widespread, with a broad host range including many birds and mammals and a geographic range that is nearly worldwide. While infection of healthy adults is usually relatively mild, serious disease can result in utero or when the host is immunocompromised. This sophisticated eukaryote has many specialized features that make it well suited to its intracellular lifestyle. In this review, we describe the current knowledge of how the asexual tachyzoite stage of Toxoplasma attaches to, invades, replicates in, and exits the host cell. Since this process is closely analogous to the way in which viruses reproduce, we refer to it as the Toxoplasma "lytic cycle."     

Purification and characterization of two alpha-amylases from Toxoplasma gondii.

Two distinct alpha-amylases have been identified in Toxoplasma gondii. They were purified close to homogeneity from cytoplasmic and membrane fractions. The apparent molecular weight of the cytoplasmic amylase was 22,300 Da and that of the membrane enzyme was 39,600 Da by gel filtration, and 25,000 and 41,000 Da by SDS gel electrophoresis, respectively. The physicochemical and catalytic properties of both enzymes showed them to be very different. Cytoplasmic alpha-amylase had an acid isoelectric point and its optimum pH was pH 5.0; its activity was unaffected by NaCl, Ca2+, or EDTA. The membrane alpha-amylase had an isoelectric point of 7.7 and an optimum pH of 8.0. It was affected by Ca2+, inhibited by EDTA, and activated eight-fold by NaCl. Both amylases were inactivated by temperatures above 65 degrees C, but cytoplasmic amylase was more resistant to thermal denaturation.     

Molecular cloning and characterization of peroxiredoxin from Toxoplasma gondii.

A cDNA of 1.1 kb comprising the gene encoding the peroxiredoxin of Toxoplasma gondii (TgPrx) has been cloned. The open reading frame of 591 bp was translated into a protein of 196 amino acids with a molecular mass of 25 kDa. Conserved 2 cysteine domains of Phe-Val-Cys-Pro and Glu-Val-Cys-Pro indicated TgPrx belonged to 2-Cys Prx families. TgPrx showed the highest homology with that of Arabidopsis thaliana by 53.9% followed by Entamoeba histolytica with 39.5% by the amino acid sequence alignment. Polyclonal antibody against recombinant TgPrx detected 25 kDa band in T. gondii without binding to host cell proteins. TgPrx was located in the cytoplasm of T. gondii extracellularly or intracellularly by immunofluorescence assay. The expression of TgPrx was increased as early as 30 min after the treatment with artemisinin in the intracellular stage, while no changes in those of host Prx I and TgSOD. This result implies that TgPrx may function as an antioxidant protecting the cell from the attack of reactive oxygen intermediates. It is also suggested that TgPrx is a possible target of chemotherapy.     

Isolation of Toxoplasma gondii from goats from Brazil

Goats are economically important in many countries, and little is known of caprine toxoplasmosis in Brazil. Antibodies to Toxoplasma gondii were assayed in the sera of 143 goats from 3 Brazilian states, using modified agglutination test (MAT titer > or = 1:25); 46 (32.2%) tested positive. Samples of brain, heart, diaphragm, and masseter of seropositive animals were pooled, digested in pepsin, and bioassayed in mice. Viable T. gondii specimens were isolated from tissue homogenates of 12 goats; the isolates were designated TgGtBr1-12. Ten of the 12 isolates killed 100% of infected mice, indicating that goats can harbor mouse-virulent T. gondii and, hence, can serve as a source of infection for humans.     

钝齿棒杆菌GlnK在氮代谢调控及L-精氨酸合成中的功能

【目的】钝齿棒杆菌是重要的氨基酸生产菌株,本研究针对氮代谢PⅡ信号转导蛋白GlnK展开相关功能研究,分析其在钝齿棒杆菌氮代谢调控及L-精氨酸合成中的作用。【方法】以GlnK蛋白为研究对象,通过基因敲除等遗传方法获得过表达、敲除及敲弱glnK的重组钝齿棒杆菌,研究GlnK对NH_4~+吸收的影响,通过RT-qPCR和酶活测定,从转录水平和蛋白水平上揭示GlnK对氮代谢和L-精氨酸合成相关基因表达水平及酶活的影响,通过5-L发酵罐发酵产L-精氨酸研究GlnK对L-精氨酸合成的影响。【结果】过表达glnK能明显促进NH_4~+的吸收,而敲除glnK后则会抑制NH_4~+的摄取;RT-qPCR和酶活测定发现,相比于野生型菌株Cc5-5,glnK过表达菌株Cc-glnK中与铵吸收相关的基因,表达量平均上调约4.58倍,L-精氨酸合成基因簇中基因的表达水平平均上调1.50倍。Cc-glnK中氮代谢相关蛋白的酶活平均提高46.97%;L-精氨酸合成途径上7个关键酶的酶活平均提高30.00%;5-L发酵罐发酵各重组菌株结果表明,Cc-glnK菌株的产量可达49.53 g/L,产率为0.516 g/(L·h),相比于出发菌株Cc5-5,其L-精氨酸产量提高了28.65%。【结论】过表达GlnK能促进NH_4~+的吸收及利用,并通过影响L-精氨酸合成途径上关键基因的表达水平,提高关键酶的酶活,最终提高L-精氨酸的产量。本研究为后续探索钝齿棒杆菌氮代谢调控机制及代谢工程改造钝齿棒杆菌生产L-精氨酸提供了一种新的策略。     

Isolation of Toxoplasma gondii from a naturally infected beef cow.

Toxoplasma gondii was isolated from the intestinal wall of an adult shorthorn cow. The cow had an antibody titer of 1:1,600 in the T. gondii agglutination test using formalin-fixed whole tachyzoites. The strain of the parasite designated CT-1 was lethal to mice. This is the first report of the recovery of viable T. gondii from a naturally infected cow in the United States.     

Effects of alpha- and beta-adrenergic agonists on Toxoplasma gondii infection in murine macrophages

We investigated the effects of alpha- and beta-adrenergic receptor agonists on the ability of Toxoplasma gondii to infect and proliferate in cultured murine macrophages. Macrophages pretreated in vitro with varying concentrations of alpha- and beta-adrenergic agonists and incubated with the RH strain of T. gondii did not result in a significant increase in the percentage of infected macrophages compared with negative controls. When parasites were pretreated with L-phenylephrine, an alpha-agonist, and L-isoproterenol, a beta-agonist, before infection, there was no significant change in the percentage of infected macrophages. Clonidine, an alpha2-adrenergic agonist, led to a significant decrease in the number of infected macrophages at all concentrations tested. The effects of clonidine were blocked by yohimbine, a specific alpha2-adrenergic antagonist, but not by phentolamine, an alpha1-adrenergic antagonist. These results suggest that the antiparasitic effects exhibited by clonidine (alpha2-adrenergic agonist) are mediated through an alpha2-adrenoreceptor found on the surface of T. gondii.     

Seroprevalence of Toxoplasma gondii in pigs from Vietnam

Pigs are considered an important source of Toxoplasma gondii infection for humans. Antibodies to T. gondii were determined in serum samples from 587 pigs from Vietnam using the modified agglutination test (MAT) and found in 160 of 587 (27.2%) pigs, with MAT titers of 1:25 in 32 pigs, 1:50 in 34 pigs, 1:100 in 33 pigs, 1:200 in 24 pigs, 1:400 in 21 pigs, 1:800 in 14 pigs, and 1:3,200 in 2 pigs. Antibodies (MAT 1:20 or higher) were found in 75 of 325 (23%) finishers, 63 of 207 (32.3%) sows, and 22 of 55 (40%) boars. Results indicate high prevalence of T. gondii infection in pigs in Vietnam. This is the first report of prevalence of T. gondii in pigs from Vietnam.