Effects of Extracellular Potassium on Acid Release and Motility Initiation in Toxoplasma gondii

The internal pH (pH_i) of Toxoplasma gondii was estimated by measuring the accumulation of the weak base 9-aminoacridine in buffers with various ionic compositions. The pH_i of the metabolizing parasite increased when the extracellular K⁺ was elevated in alkaline medium or when the external pH (pH_c) was substantially increased in medium employing high external K⁺ (90 mM). The parasite in mouse peritoneal fluid, or in potassium sulfate buffer (pH 8.2), where the pH_i was demonstrated to be increased to 7.9, became motile when acidic buffer was substituted for the original suspension medium. This acid-induced independent movement subsided within 5 min but was repeatedly induced if the pH_c was serially lowered to 6.0. Basic buffers, on the other hand, abolished motility when applied to the moving parasites. Nigericin, which is known to collapse pH gradients across the membrane, also abolished motility.     

Calcium Entry in Toxoplasma gondii and Its Enhancing Effect of Invasion-linked Traits

During invasion and egress from their host cells, Apicomplexan parasites face sharp changes in the surrounding calcium ion (Ca²⁺) concentration. Our work with Toxoplasma gondii provides evidence for Ca²⁺ influx from the extracellular milieu leading to cytosolic Ca²⁺ increase and enhancement of virulence traits, such as gliding motility, conoid extrusion, microneme secretion, and host cell invasion. Assays of Mn²⁺ and Ba²⁺ uptake do not support a canonical store-regulated Ca²⁺ entry mechanism. Ca²⁺ entry was blocked by the L-type Ca²⁺ channel inhibitor nifedipine and stimulated by the increase in cytosolic Ca²⁺ and by the specific L-type Ca²⁺ channel agonist Bay K-8644. Our results demonstrate that Ca²⁺ entry is critical for parasite virulence. We propose a regulated Ca²⁺ entry mechanism activated by cytosolic Ca²⁺ that has an enhancing effect on invasion-linked traits.     

Biogenesis and secretion of micronemes in Toxoplasma gondii

One of the hallmarks of the parasitic phylum of Apicomplexa is the presence of highly specialised, apical secretory organelles, called the micronemes and rhoptries that play critical roles in ensuring survival and dissemination. Upon exocytosis, the micronemes release adhesin complexes, perforins, and proteases that are crucially implicated in egress from infected cells, gliding motility, migration across biological barriers, and host cell invasion. Recent studies on Toxoplasma gondii and Plasmodium species have shed more light on the signalling events and the machinery that trigger microneme secretion. Intracellular cyclic nucleotides, calcium level, and phosphatidic acid act as key mediators of microneme exocytosis, and several downstream effectors have been identified. Here, we review the key steps of microneme biogenesis and exocytosis, summarising the still fractal knowledge at the molecular level regarding the fusion event with the parasite plasma membrane.     

Uptake of neutral and acidic amino acids by Lemna gibba correlated with the H+-electrochemical gradient at the plasmalemma

Uptake rates of L-alanine, L-serine and L-aspartate and trans-membrane electrical potentials (Δψ) were determined for a pH range in the external medium between 3.5 and 9.0. The proton electrochemical gradients (     ) were calculated from Δψ, pH of the medium, and an assumed cytoplasmic pH of 7.5. At external amino-acid concentrations of 0.1 mol m⁻³, where carrier-mediated uptake dominates total uptake, a linear correlation between uptake rates and     is obtained, which extrapolates to zero uptake at zero     . This corroborates the contention that neutral and acidic amino acids are taken up by Lemna gibba L. by H⁺-cotransport.     

刚地弓形虫RH株感染对小鼠胎盘滋养层细胞周期的影响

目的 研究刚地弓形虫RH株对体外培养的孕期小鼠胎盘滋养层细胞周期的影响及相关机制.方法 制备小鼠胎盘滋养层细胞并分别接种于不同细胞培养皿,对照组加入DMEM高糖培养基孵育,实验组加入相同体积不同数量(2×104/mL、4×104/mL、8×104/mL)弓形虫速殖子培养6h、12h、24 h;以MTT法检测滋养细胞增殖率;流式细胞仪检测细胞周期;Western印迹法检测细胞周期相关蛋白cyclinA、cdk2表达或活性.结果 MTT法检测结果显示刚地弓形虫RH株抑制滋养层细胞增殖,且呈时间剂量依赖性;流式细胞仪检测24 h感染组细胞周期在S期产生阻滞,8×104/mL数量组S期细胞比例高达68.73％±1.76％;Western印迹方法分析感染弓形虫组滋养层细胞的cyclin A、cdk2蛋白表达量较对照组明显下降(P＜0.05).结论 刚地弓形虫RH株能够抑制小鼠胎盘滋养层细胞增殖并通过调节cyclinA、cdk2等蛋白表达或活性改变引起细胞S期阻滞.     

Loss of ionic and osmotic regulation in Chara internodal cells in concentrated KCl solutions

Intact internodal cells of Chara are known to maintain their osmotic pressures at constant levels in artificial pond water at room temperature. Cell fragments with osmotic pressures higher and those cell fragments with osmotic pressures lower than the original, both of which are prepared from intact internodal cells using transcellular osmosis and ligation with threads, can also return their osmotic pressures to the original level within a week in artificial pond water. These regulatory phenomena are realized mainly by extrusion of K⁺ and Cl⁻ in the cytoplasm and/or vacuole or by absorption of K⁺ and Cl⁻ from the external solution. According to the electrochemical potential difference calculated for K⁺ between the vacuole and the external solution, the cells should be able to maintain these regulatory functions even in 50–100 m M KCl+ 1 m M CaCl₂ solutions. However, novel phenomena were observed when they were immersed in such concentrated KCl solutions. To maintain electroneutrality, their osmotic pressures increased up to ca l MPa in 2 days due to absorption of K⁺ and Cl⁻ and many gradually died over time. Ionic and osmotic reguratory functions of Chara cells were lost when they were immersed in 50–100 m M K-salt solutions containing 1 m M Ca²⁺.     

Effects of Lipophilic Ions on Outer Hair Cell Membrane Capacitance and Motility

The outer hair cell (OHC) from the mammalian organ of Corti possesses a bell-shaped voltage-dependent capacitance function. The nonlinear capacitance reflects the activity of membrane bound voltage sensors associated with membrane motors that control OHC length. We have studied the effects of the lipophilic ions, tetraphenylborate (TPB⁻) and tetraphenylphosphonium (TPP⁺), on nonlinear capacitance and motility of isolated guinea-pig OHCs. Effects on supporting cells were also investigated. TPB⁻ produced an increase in the peak capacitance (Cm _pk ) and shifted the voltage at peak capacitance (V _pkCm ) to hyperpolarized levels. Washout reversed the effects. Perfusion of 0.4 μm TPB⁻ caused an average increase in Cm _pk of 16.3 pF and V _pkCm shift of 13.6 mV. TPP⁺, on the other hand, only shifted V _pkCm in the positive direction, with no change in Cm _pk . The contributions from native OHC and TPB⁻-induced capacitance were dissected by a double Boltzmann fitting paradigm, and by blocking native OHC capacitance. While mechanical response studies indicate little effect of TPB⁻ on the motility of OHCs which were in normal condition or treated with salicylate or gadolinium, the voltage at maximum mechanical gain (V _{δ Lmax} ) was shifted in correspondence with native V _pkCm , and both changed in a concentration-dependent manner. Both TPB⁻-induced changes in Cm _pk and V _pkCm were affected by voltage prepulses and intracellular turgor pressure. TPB⁻ induced a voltage-dependent capacitance in supporting cells whose characteristics were similar to those of the OHC, but no indication of mechanical responses was noted. Our results indicate that OHC mechanical responses are not simply related to quantity of nonspecific nonlinear charge moved within the membrane, but to the effects of motility voltage-sensor charge movement functionally coupled to a mechanical effector. Received: 14 May 1998/Revised: 24 August 1998     

Isolation of purified oocyst walls and sporocysts from Toxoplasma gondii

Toxoplasma gondii oocysts are environmentally resistant and can infect virtually all warm-blooded hosts, including humans and livestock. Little is known about the biochemical basis for this resistance of oocysts, and mechanism for excystation of T. gondii sporozoites. The objective of the present study was to evaluate different methods (mechanical fragmentation, gradients, flow cytometry) to separate and purify T. gondii oocyst walls and sporocysts. Oocyst walls were successfully separated and purified using iodixanol gradients. Sporocysts were successfully separated and purified using iodixanol and Percoll gradients. Purification was also achieved by flow cytometry. Flow cytometry with fluorescence-activated cell sorting (FACS) yielded analytical quantities of oocyst walls and intact sporocysts. Flow cytometry with FACS also proved useful for quantitation of purity obtained following iodixanol gradient fractionation. Methods reported in this paper will be useful for analytical purposes, such as proteomic analysis of components unique to this life cycle stage, development of detection methods, or excystation studies.     

Divalent Cation and ATP Dependent Motility of Toxoplasma gondii Tachyzoites After Mild Treatment with Trypsin

ABSTRACT. Large percentages of Toxoplasma gondii tachyzoites could be induced to display two types of movement associated with active invasive behavior by exposing them for 1 min to 0.002% trypsin in phosphate-buffered saline (PBS). The motile activity, consisting of clockwise rotation around the posterior end (about 20 revolutions per min) and twirling-gliding over a poly-L-lysine substrate (1.2 ± 0.2 μm/s standard deviation), was observed and recorded by video-enhanced contrast microscopy. The number of active tachyzoites reached a maximum 1 min after trypsinization; the motile response of the population lasted for about 5 min. Activation was prevented by soybean trypsin-inhibitor, and could not be induced again in previously treated specimens. Electron-microscopy of trypsinized tachyzoites fixed in the presence of ruthenium-red revealed discrete discontinuities of the plasma membrane, which sealed within 90 min after washing with PBS. Treated tachyzoites were able to invade cultured epithelial cells with a higher relative infectivity than that of untreated parasites. Perfusion of trypsinized tachyzoites with 1 mM of either CaCl₂ or MgCl₂ and 1 mM ATP increased the number of activated parasites to over 60%; on the other hand, all induced motility was inhibited or blocked by agents that chelate divalent cations. The present preparation, which provided the first serial illustrations of T. gondii movements induced by a defined chemical stimulus, may offer a useful experimental model for the study of motility in this parasite.     

中药大蒜素体外抗弓形虫效应及其机制的研究

目的 观察大蒜提取物体外抗弓形虫的作用效果及其机制.方法 将弓形虫RH株速殖子与兔肾细胞共同培养,加入不同浓度的大蒜素(实验组)和磺胺嘧啶(阳性对照组),培养不同时间后取出细胞,固定染色后观察细胞感染率及每个纳虫泡中弓形虫速殖子的数量;采用MTT比色法观察大蒜素对弓形虫速殖子侵袭细胞及其正常细胞增殖的影响;采用台盼兰着色法观察大蒜素对弓形虫速殖子活性的影响;采用TUNEL末端标记法检测弓形虫速殖子凋亡率,对药物的效应和机制进行探讨.结果 (1)10～80 μg/ml的大蒜素能抗弓形虫的感染,呈现剂量依赖性,与时间无明显的相关性.(2)40 μg/ml、80 μg/ml的大蒜素不能抑制细胞的增殖,对细胞无明显的毒副作用;160 μg/ml的大蒜素对细胞有明显的毒副作用.(3)大蒜素80 μg/ml时,台盼兰着色率最高,弓形虫的活力最低.(4)大蒜素80 μg/ml的浓度时,弓形虫速殖子凋亡率最高.结论 大蒜素可以抑制弓形虫速殖子的活力、对宿主细胞的感染力、在细胞内的增殖,无明显的毒副作用,最适宜浓度为80 μg/ml.大蒜素是一种良好的抗弓形虫药物,诱导弓形虫速殖子凋亡是其抗弓形虫机制之一.     

Influence of calcium ion on host cell invasion and intracellular replication by Toxoplasma gondii

Toxoplasma gondii is an obligate intracellular protozoan parasite, which invades a wide range of hosts including humans. The exact mechanisms involved in its invasion are not fully understood. This study focused on the roles of Ca2+ in host cell invasion and in T. gondii replication. We examined the invasion and replication of T. gondii pretreated with several calcium modulators, the conoid extrusion of tachyzoites. Calmodulin localization in T. gondii were observed using the immunogold method, and Ca2+ levels in tachyzoites by confocal microscopy. In light microscopic observation, tachyzoites co-treated with A23187 and EGTA showed that host cell invasion and intracellular replication were decreased. The invasion of tachyzoites was slightly inhibited by the Ca2+ channel blockers, bepridil and verapamil, and by the calmodulin antagonist, calmidazolium. We observed that calcium saline containing A23187 induced the extrusion of tachyzoite conoid. By immunoelectron microscopy, gold particles bound to anti-calmodulin or anti-actin mAb, were found to be localized on the anterior portion of tachyzoites. Remarkably reduced intracellular Ca2+ was observed in tachyzoites treated with BAPTA/AM by confocal microscopy. These results suggest that host cell invasion and the intracellular replication of T. gondii tachyzoites are inhibited by the calcium ionophore, A23187, and by the extracellular calcium chelator, EGTA.     

Effect of extracellular ions on motility and cell entry in Toxoplasma gondii

Toxoplasma gondii tachyzoites were quiescent in mouse peritoneal fluid or in K2SO4 buffer at pH 8.2. They became consistently motile when K+ was replaced by other monovalent or divalent cations at a constant pH (pH = 8.2). They also became motile when Cl- was substituted for SO4(2-). Nitrate or SCN-, can also be substituted for Cl- to a certain extent. Tachyzoites showed independent movement for more than 15 min in KCl, and for about 5 min in the other buffers at pH 8.2 after which they were exhausted and stopped. These tachyzoites could not then be further stimulated to motility by renewal of the suspension buffer. Infection of monolayer cells was demonstrated only with parasites which were motile during inoculation. The highest infectivity was thus obtained either with freshly collected tachyzoites or with those preincubated in K2SO4 buffer for 30 min at 37 degrees C at alkaline pH and thus not yet exhausted for motility. Approximately 34 to 38% of these latter organisms were seen to enter cells when they were inoculated into cultures immediately after being resuspended in MEM for 30 min at 37 degrees C. Conversely, those whose motility had been exhausted by the preincubation in buffers other than K2SO4, pH 8.2 could not enter monolayer cells. Additionally, parasites were unable to enter cells when inoculated into cultures in K2SO4 buffer at alkaline pH; instead they remained quiescent on the surface of the monolayer cells, suggesting that Toxoplasma enters the host cells by active invasion.     

Detection and Immunolocalization of Human Erythrocyte Spectrin Immunoanalogues in Toxoplasma gondii (Protozoan, Parasite)

ABSTRACT. We demonstrated here the presence of proteins antigenically related to human erythroid spectrin in the parasitic protozoan Toxoplasma gondii . A high molecular weight doublet (M, 245-240,000), present in equimolar ratio, and low molecular weight polypeptides (M, 75,000) were reacted with monoclonal and polyclonal anti-human erythroid spectrin antibodies on electroblotted nitrocellulose sheets. Indirect immunofluorescence assay clearly showed that these proteins were localized in the anterior pole of the organism. Immunogold staining further revealed specific labeling of conoid, rhoptries, micronemes, and dense granules of the apical complex. The presence of the M, 245–240,000 doublet and the M, 75,000 spectrin-like proteins in the anterior pole of T. gondii may probably be consistent with a structural stabilizer function in its organciles which are suspected to be involved in the process of host cell invasion.     

A comparative study on the heparin‐binding proteomes of Toxoplasma gondii and Plasmodium falciparum

Toxoplasma gondii is an obligatory intracellular apicomplexan parasite which exploits host cell surface components in cell invasion and intracellular parasitization. Sulfated glycans such as heparin and heparan sulfate have been reported to inhibit cell invasion by T. gondii and other apicomplexan parasites such as Plasmodium falciparum. The aim of this study was to investigate the heparin‐binding proteome of T. gondii. The parasite‐derived components were affinity‐purified on the heparin moiety followed by MS fingerprinting of the proteins. The heparin‐binding proteins of T. gondii and P. falciparum were compared based on functionality and affinity to heparin. Among the proteins identified, the invasion‐related parasite ligands derived from tachyzoite/merozoite surface and the secretory organelles were prominent. However, the profiles of the proteins were different in terms of affinity to heparin. In T. gondii, the proteins with highest affinity to heparin were the intracellular components with functions of parasite development contrasted to that of P. falciparum, of which the rhoptry‐derived proteins were prominently identified. The profiling of the heparin‐binding proteins of the two apicomplexan parasites not only explained the mechanism of heparin‐mediated host cell invasion inhibition, but also, to a certain extent, revealed that the action of heparin on the parasite extended after endocytosis.     

Toxoplasma gondii Development of Its Replicative Niche: in Its Host Cell and Beyond

Intracellular pathogens can replicate efficiently only after they manipulate and modify their host cells to create an environment conducive to replication. While diverse cellular pathways are targeted by different pathogens, metabolism, membrane and cytoskeletal architecture formation, and cell death are the three primary cellular processes that are modified by infections. Toxoplasma gondii is an obligate intracellular protozoan that infects ∼30% of the world''s population and causes severe and life-threatening disease in developing fetuses, in immune-comprised patients, and in certain otherwise healthy individuals who are primarily found in South America. The high prevalence of Toxoplasma in humans is in large part a result of its ability to modulate these three host cell processes. Here, we highlight recent work defining the mechanisms by which Toxoplasma interacts with these processes. In addition, we hypothesize why some processes are modified not only in the infected host cell but also in neighboring uninfected cells.     

Serglycin-independent Release of Active Mast Cell Proteases in Response to Toxoplasma gondii Infection

Earlier studies identified serglycin proteoglycan and its heparin chains to be important for storage and activity of mast cell proteases. However, the importance of serglycin for secretion and activity of mast cell proteases in response to parasite infection has been poorly investigated. To address this issue, we studied the effects on mast cell proteases in serglycin-deficient and wild type mice after peritoneal infection with the obligate intracellular parasite Toxoplasma gondii. In line with previous results, we found severely reduced levels of cell-bound mast cell proteases in both noninfected and infected serglycin-deficient mice. However, serglycin-deficient mice secreted mast cell proteases at wild type levels at the site of infection, and enzymatic activities associated with mast cell proteases were equally up-regulated in wild type and serglycin-deficient mice 48 h after infection. In both wild type and serglycin-deficient mice, parasite infection resulted in highly increased extracellular levels of glycosaminoglycans, including hyaluronan and chondroitin sulfate A, suggesting a role of these substances in the general defense mechanism. In contrast, heparan sulfate/heparin was almost undetectable in serglycin-deficient mice, and in wild type mice, it was mainly confined to the cellular fraction and was not increased upon infection. Furthermore, the heparan sulfate/heparin population was less sulfated in serglycin-deficient than in wild type mice indicative for the absence of heparin, which supports that heparin production is dependent on the serglycin core protein. Together, our results suggest that serglycin proteoglycan is dispensable for normal secretion and activity of mast cell proteases in response to peritoneal infection with T. gondii.     

CD8+ T Lymphocytes Are the Major Cell Population Involved in the Early Gamma Interferon Response and Resistance to Acute Primary Toxoplasma gondii Infection in Mice

Gamma interferon (IFN-γ) is known to be a major mediator influencing host defense against Toxoplasma (T.) gondii. To evaluate lymphocyte populations involved in this cytokine-mediated early resistance to T. gondii, the effects of in vivo administration of monoclonal antibodies (MAbs) against T-cell subsets and anti-asialo GM1 antibody on the course of infection and IFN-γ response were investigated in mice infected acutely with this parasitic protozoan. A single injection of anti-CD8 MAb on day ?1 or day 4 severely exacerbated the infection, in accordance with a marked suppression of endogenous IFN-γ production. Moreover, the administration of anti-IFN-γ MAb on day 0 but not later than day 4 resulted in a total abrogation of resistance to T. gondii, suggesting that endogenous IFN-γ produced during the first several days of infection is critical for the generation of antitoxoplasmal resistance in mice. In contrast, no significant increase in mortality was observed when injected with either anti-CD4 MAb or anti-asialo GM1 antibody on day ? 1, while these antibodies reduced significantly the ability of mice to produce IFN-γ. Indeed, simultaneous depletion of CD4⁺ and CD8⁺ cells had no greater suppressive effect on host defense and endogenous IFN-γ production than depletion of CD8⁺ cells alone. Together, these results suggest that CD8⁺ T cells play a central role for resolution of acute toxoplasmosis by participating in endogenous IFN-γ production. The possible role of early produced IFN-γ in the development of protective immune response to T. gondii is also discussed.