Eimeria tenella ROP kinase EtROP1 induces G0/G1 cell cycle arrest and inhibits host cell apoptosis

Coccidia are obligate intracellular protozoan parasites responsible for human and veterinary diseases. Eimeria tenella, the aetiologic agent of caecal coccidiosis, is a major pathogen of chickens. In Toxoplasma gondii, some kinases from the rhoptry compartment (ROP) are key virulence factors. ROP kinases hijack and modulate many cellular functions and pathways, allowing T. gondii survival and development. E. tenella's kinome comprises 28 putative members of the ROP kinase family; most of them are predicted, as pseudokinases and their functions have never been characterised. One of the predicted kinase, EtROP1, was identified in the rhoptry proteome of E. tenella sporozoites. Here, we demonstrated that EtROP1 is active, and the N‐terminal extension is necessary for its catalytic kinase activity. Ectopic expression of EtROP1 followed by co‐immunoprecipitation identified cellular p53 as EtROP1 partner. Further characterisation confirmed the interaction and the phosphorylation of p53 by EtROP1. E. tenella infection or overexpression of EtROP1 resulted both in inhibition of host cell apoptosis and G0/G1 cell cycle arrest. This work functionally described the first ROP kinase from E. tenella and its noncanonical structure. Our study provides the first mechanistic insight into host cell apoptosis inhibition by E. tenella. EtROP1 appears as a new candidate for coccidiosis control.     

The Effects of Heat and Cobalt-60 Gamma-Radiation on Excystation of the Rat Coccidium,Eimeria nieschulzi Dieben, 1924*

SYNOPSIS. Sporulated oocysts of Eimeria nieschulzi Dieben, a rat coccidium, were exposed for 1 hr to Cobalt-60 γ-radiation (15, 30. or 60 k-rads), to heat (35, 40, or 45 C). or to both concurrently (15, 30, or 60 k-rads at 35 C) to compare the excystation capabilities of treated vs nontreated parasites. Intact, treated oocysts appeared structurally unaltered when viewed with the light microscope. Excystation of sporozoites occurred in all treated groups when their sporocysts were exposed to a trypsin-sodium taurocholate (TST) fluid, but after 150 min in TST the excystation rate was significantly lower than in non-treated sporocysts. Sporozoites which excysted from treated sporocysts were abnormal both in the excystation process and in their form and movement once outside the sporocyst.     

Incorporation of Radioactive Pyrimidine Nucleosides into DNA and RNA of Eimeria tenella (Coccidia) Cultured In Vitro*

Autoradiographic methods were used to study the incorporation of tritiated cytidine, thymidine, and uridine into asexual stages of Eimeria tenella cultured in embryonic chick kidney cells. Developing parasites did not incorporate ³H-thymidine either when host cells were labeled prior to infection or when the cultures were labeled for 30 min, 48–72 hr after infection. Continuous exposure of infected cultures to ³H-thymidine for up to 18 hr resulted in light labeling of cell cytoplasm and schizonts. ³H-cytidine and ³H-uridine were incorporated into parasites developing in cultures that were labeled before infection. When the cultures were labeled for 30 min, 48–72 hr postinfection and fixed immediately, schizonts were labeled lightly with ³H-cytidine but contained dense accumulations of ³H-uridine.     

Tissue and Organ Specificity of Eimeria tenella (Railliet and Lucet, 1891) Fantham, 1909 in Cecectomized Chickens*†

SYNOPSIS. The ceca of 2-week-old chicks were surgically removed. One week post-operation each cecectomized bird was given 2 × 10⁶ sporulated Eimeria tenella oocysts per os. Birds from the same hatch, with intact ceca, served as controls and were infected the same time as the cecectomized birds. However, in order to reduce mortality, control birds were each given 1 × 10⁴ sporulated E. tenella oocysts per os. Four cecectomized and 5 control birds were killed 12, 24, 48, 72, 96, 120, and 144 hours after inoculation. Tissues from the small and large intestine of each bird proximal to the cecal junction were removed, processed by the dioxan method, and studied microscopically for developmental stages of the parasite. Developmental stages of the parasite were observed in all sections from the large intestine of cecectomized chickens. Initial sporozoite penetration and subsequent development of the parasite in this location was similar to that observed in the cecal mucosa of non-cecectomized chickens. No parasites were observed in sections of the small intestine of cecectomized birds 12 or 24 hours after inoculation, and findings after 48 and 72 hours were inconsistent. However, numerous parasites were observed in sections 96, 120, and 144 hours post-inoculation. In contrast, endogenous stages of the parasite were not seen in tissue sections of the small and large intestine of birds with intact ceca until 120 hours after inoculation. Numerous young gametocytes were then observed in sections from all birds. Similarly, mature gametocytes were observed in all fixed sections 144 hours after inoculation. No evidence was found that would indicate whether or not infection in the small and large intestine of birds with intact ceca or the small intestine of cecectomized birds was initiated by sporozoites or merozoites, nor was evidence found to suggest that development of any stage of the parasite was suppressed in these organs.     

Stable transfection of Eimeria tenella: constitutive expression of the YFP-YFP molecule throughout the life cycle

The obligate intracellular apicomplexan parasite Eimeria tenella, one of seven species of Eimeria that infect chickens, elicits protective cell-mediated immunity against challenge infection. For this reason, recombinant E. tenella parasites could be utilised as an effective vaccine vehicle for expressing foreign antigens and inducing immunity against heterologous intracellular microbes. A stable line of E. tenella expressing foreign genes is a prerequisite, and in this work an in vivo stable transfection system has been developed for this parasite using restriction enzyme-mediated integration (REMI). Two transgenic populations of E. tenella have been obtained that express YFP-YFP constitutively throughout the parasite life cycle. Southern blotting and plasmid rescue analyses show that the introduced exogenous DNA was integrated at random into the parasite genome. Although the life cycle of the transgenic populations was delayed by at least 12 h and the output of oocysts was reduced 4-fold relative to the parental BJ strain of E. tenella, the transgenic parasites were sufficiently immunogenic to protect chickens against challenge with either transgenic or parental parasites. These results are encouraging for the development of transgenic E. tenella as a vaccine vector and for more detailed investigation of the biology of the genus Eimeria.     

Action lytique des bactéries présentes dans les kystes de Sarcocystis tenella (Sporozoa,Protozoa)

In cysts of Sarcocystis tenella parasitic in the oesophage of sheep, bacteria of the Gram-negative type were found to lyse the limiting membranes of the banana-shaped parasites. In cysts of S. tenella the parasites are enclosed within chamber-like hollows of the ground substance. In old cysts, however, only the peripheral hollows are filled with parasites, whereas those of the midzonal region are empty. There is no explanation for this observation reported by several authors. In the present study we found large numbers of small bacteria (2–2.7 by 0.6–0.8 μm) of the Gram-negative type within the center of the cyst. From this side they were seen to lyse the pellicle of the banana-shaped merozoites. There is no explanation how these bacteria might have penetrated through the muscle tissue into the interior of the cysts, for the parasites at the periphery, the cyst wall and the surrounding host cell were intact. The penetration of the bacteria during preparation can be excluded, too, because the cysts were fixed only seconds after the death of the animals. It might be possible that the bacteria had been present since the beginning of cyst formation.     

A survey of genes in Eimeria tenella merozoites by EST sequencing

A study of about 500 expressed sequence tags (ESTs), derived from a merozoite cDNA library, was initiated as an approach to generate a larger pool of gene information on Eimeria tenella. Of the ESTs, 47.7% had matches with entries in the databases, including ribosomal proteins, metabolic enzymes and proteins with other functions, of which 14.3% represented previously known E. tenella genes. Thus over 50% of the ESTs had no significant database matches. The E. tenella EST dataset contained a range of highly abundant genes comparable with that found in the EST dataset of T. gondii and may thus reflect the importance of such molecules in the biology of the apicomplexan organisms. However, comparison of the two datasets revealed very few homologies between sequences of apical organelle molecules, and provides evidence for sequence divergence between these closely-related parasites. The data presented underpin the potential value of the EST strategy for the discovery of novel genes and may allow for a more rapid increase in the knowledge and understanding of gene expression in the merozoite life cycle stage of Eimeria spp.     

Excystation of Eimeria tenella sporozoites impaired by antibody recognizing gametocyte/oocyst antigens GAM22 and GAM56

Eimeria tenella is the causative agent of coccidiosis in poultry. Infection of the chicken intestine begins with ingestion of sporulated oocysts releasing sporocysts, which in turn release invasive sporozoites. The monoclonal antibody E2E5 recognizes wall-forming body type II (WFBII) in gametocytes and the WFBII-derived inner wall of oocysts. Here we describe that this antibody also binds to the stieda body of sporocysts and significantly impairs in vitro excystation of sporozoites. Using affinity chromatography and protein sequence analysis, E2E5 is shown to recognize EtGAM56, the E. tenella ortholog of the Eimeria maxima gametocyte-specific GAM56 protein. In addition, this antibody was used to screen a genomic phage display library presenting E. tenella antigens as fusion proteins with the gene VIII product on the surfaces of phagemid particles and identified the novel 22-kDa histidine- and proline-rich protein EtGAM22. The Etgam22 mRNA is expressed predominantly at the gametocyte stage, as detected by Northern blotting. Southern blot analysis in combination with data from the E. tenella genome project revealed that Etgam22 is an intronless multicopy gene, with approximately 12 to 22 copies in head-to-tail arrangement. Conspicuously, Etgam56 is also intronless and is localized adjacent to another gam56-like gene, Etgam59. Our data suggest that amplification is common for genes encoding oocyst wall proteins.     

Eimeria tenella: Parasite-Specific Incorporation of 3H-Uracil as a Quantitative Measure of Intracellular Development1

ABSTRACT. An assay has been developed using parasite-specific incorporation of ³H-uracil to assess the intracellular growth of Eimeria tenella in vitro. As shown by both scintillation counts and autoradiography, ³H-uracil was incorporated specifically into intracellular parasites from the onset of infection and continued throughout development of the first generation schizonts. Mature schizonts and first generation merozoites did not continue to incorporate additional ³H-uracil, indicating that RNA synthesis had halted in these stages. Based on these findings, a semi-automated microscale uracil incorporation assay was developed to determine parasite viability. This method should be useful for biochemical studies with intracellular parasites and for screening compounds for anticoccidial activity. The ease, rapidity, and quantitative nature of this assay contrasts favorably with standard morphometric approaches of determining parasite development. In addition, parallel studies using host cell incorporation of ³H-uridine have been introduced as a method of determining whether antiparasitic activity is direct or indirect in relation to effects on the host cell.     

Thymidylate Synthetase as a Chemotherapeutic Target in the Treatment of Avian Coccidiosis*

SYNOPSIS. Thymidylate synthetase (E.C.2.1.1.45) has been demonstrated in unsporulated oocysts of Eimeria tenella. The properties of this enzyme have also been investigated in Tetrahymena pyriformis, as a protozoan model, and 7-day-old chick embryo, as a host model. The enzymes from E. tenella and chick embryo were inhibited by all concentrations of MnCl₂ and MgCl₂ tested. Tetrahymena pyriformis thymidylate synthetase was stimulated by low concentrations of both these cations but was inhibited by high concentrations. Subsequent data refer to chick embryo, E. tenella and T. pyriformis respectively: the apparent K_m was 5.89 μM, 5.94 μM, and 0.53 M for the substrate dUMP: and 5.13 μM, 1.10 μM and 4.65 μM, respectively for the cofactor N⁵N¹⁰-methylenetetrahydrofolate. The pH optimum for the enzyme from both chick embryo and T. pyriformis was 8.0, with Tris-HCl buffer; activity of E. tenella thymidylate synthetase was still increasing at pH 8.2. The E. tenella enzyme was found to have a molecular weight of 4.6–4.9 × 10⁵ daltons. The effects of nucleotides, inhibitors, and the omission of assay components on each enzyme are presented. Thymidylate synthetase from E. tenella is not greatly different from that of chick embryo, but does not resemble the enzyme from T. pyriformis. A case for using thymidylate synthetase as a chemotherapeutic target in the treatment of Eimeria infections remains. Indeed Eimeria may be considered as a model for infections caused by other protozoan parasites, such as Toxoplasma and Plasmodium, provided that suitable inhibitors can be found that are not toxic to the host.     

Effects of pH on Excystation of Gregarina cuneata and Gregarina polymorpha (Eugregarinida: Gregarinidae)1

ABSTRACT. The mechanisms that signal gregarine excystation are unknown. Previous authors have demonstrated that gregarine sporozoites excyst from their surrounding oocyst in response to stimuli contained in host digestive fluids, but the role of host intestinal pH in this signaling system has not been investigated. In this study, an in vitro assay is used to quantify the effects of 3 pH levels (6.1, 7.0, 8.0) on the excystation of two gregarine species, Gregarina cuneata and Gregarina polymorpha. Both gregarine species excyst at all three pH levels, but there are significant within and among species differences in excystation rate and cumulative excystation over time. Gregarina cuneata excysts more rapidly at pH 6.0 and G. polymorpha excysts more rapidly at pH 8.0. Cumulative excystation is maximized at pH 6.0 for G. cuneata and at pH 7.0 for G. polymorpha. Hydrogen ion mediated excystation may lead to the formation of foci for subsequent establishment or migration and may play a role in parasite site specificity.     

Entamoeba invadens: Identification of ADF/cofilin and their expression analysis in relation to encystation and excystation

The differentiation processes of excystation and encystation of Entamoeba are essential for infection and completion of their life-cycle, and the processes need cell motility and its control by actin cytoskeletal reorganization. This study investigated actin depolymerizing factor (ADF)/cofilin (Cfl) family proteins, which are important molecules in actin cytoskeletal reorganization, in Entamoeba invadens in relation to the encystation and excystation. Axenic culture systems were used to induce encystation and excystation. A homology search of the E. invadens genome database and molecular cloning identified three ADF/Cfl family proteins of the parasite (named for short as EiCfl-1, EiCfl-2, and EiCfl-3). This is different from other Entamoeba species, i.e. Entamoeba histolytica and Entamoeba dispar, each of which has only one ADF/Cfl family protein. These ADF/Cfl of E. invadens do not have Ser3 (serine locates third from first methionine), similar to E. histolytica, E. dispar, Saccharomyces cerevisiae and Schizosaccharomyces pombe, although the activity of ADF/Cfl is negatively regulated by phosphorylation of the Ser3 in metazoans. Phylogenetic analysis revealed that Entamoeba Cfl formed a distinctive clade that is separate from other organisms, and the branches of the tree were separated in two consistent with the presence and absence of Ser3. Rabbit anti-EiCfl-2 serum reacted with all recombinant EiCfls and EiCfl in lysates of cysts, trophozoites and metacystic amoebae. Immunofluorescence staining with this antiserum showed co-localization of EiCfl with actin beneath the cell membrane through the life stages. Both proteins proved to be rich in pseudopodia of trophozoites and metacystic amoebae. Real-time RT-PCR showed that mRNAs of EiCfl-2 and actins were highly expressed, but there were few mRNA of EiCfl-1 and EiCfl-3. Remarkably decreased mRNA levels were observed in EiCfl-2 and actins during encystation. All three EiCfls and actins became transcribed after the induction of excystation. The mRNAs of only EiCfl-1 and EiCfl-3 increased remarkably when the excystation was induced in the presence of cytochalasin D. These findings demonstrate that EiCfl-2 and actins co-localize beneath the cell membrane in trophozoites and cysts as well as metacystic amoebae being rich in pseudopodia, that EiCfl-1 and EiCfl-3 are expressed only after the induction of excystation, and that enhanced excystation by cytochalasin D is associated with high expression of EiCfl-1 and EiCfl-3.     

A comparison of the Giardia lamblia trophozoite and cyst transcriptome using microarrays

Background  

Compared with many protists, Giardia lamblia has a simple life cycle alternating between cyst and trophozoite. Most research on the molecular biology of Giardia parasites has focused on trophozoites and the processes of excystation and encystation, whereas cysts have attracted less interest. The striking morphological differences between the dormant cyst and the rapidly dividing and motile trophozoite implies profound changes in the metabolism as the parasite encysts in the host's intestine and excysts upon ingestion by a new host.     

Demonstration of Acid Phosphatase in Eimeria spp.: Partial Characterization of the Enzyme in E. vermiformis1,2

Sporozoite extracts of E. vermiformis, E. stiedai, and E. tenella are rich in acid phosphatase activity. They contain specific enzyme activities equal to or greater than those reported for other highly virulent protozoan parasites. The absolute amount of enzyme activity per oocyst dramatically increases during sporulation of E. stiedai and E. vermiformis. Partial characterization of the acid phosphatase activity of E. vermiformis indicates that sporozoites account for greater than 92% of the total activity in sporubted oocysts, that the enzyme is resistant to inhibition by tartrate, and that it can be separated into two forms by anion exchange chroma-tography.     

Releasing latent Toxoplasma gondii cysts from host cells to the extracellular environment induces excystation

Toxoplasma gondii, an obligate intracellular protozoan parasite, infects a wide variety of mammals and birds. Although T. gondii infects the brain and muscles in its latent cyst form containing bradyzoite stage parasites during chronic infection, when a chronically infected host becomes immunodeficient or is preyed upon by a predator, the latent cyst undergoes excystation. However, it is not yet known how T. gondii recognises the triggers of excystation in the microenvironment surrounding the cyst. In this study, we incubated T. gondii cysts from host cells in several solutions containing a variety of ionic compositions. Excystation occurred in a solution with an ionic composition which mimicked that of the extracellular environment. However, excystation did not occur in a solution that mimicked the intracellular environment. We also found that the specific Na⁺/K⁺ ratio and the presence of Ca²⁺, mimicking the extracellular environment, are required to trigger excystation. To examine whether the stage conversion of bradyzoite to tachyzoite occurs prior to egress, we constructed a gene-modified T. gondii strain expressing a green fluorescent protein specifically in the tachyzoite stage. During the process of cyst reactivation of this strain, green fluorescence was detected prior to excystation. This suggests that stage conversion from bradyzoite to tachyzoite occurs prior to cyst disruption. These results indicate that T. gondii bradyzoites monitor the ionic composition of their surroundings to recognise their expulsion from host cells, to effectively time their excystation and stage conversion.     

Growth in vitro and Metabolism of Plasmodium vinckei chabaudi*

SYNOPSIS. An in vitro system, based on the rocker dilution technic, has been developed that supports intraerythrocytic growth of a rat-adapted strain of Plasmodium vinckei chabaudi from ring to schizont stages; some reinvasion was obtained, although invariably, this was associated with a decrease in parasite numbers. Pertinent features were the very high buffer content of the medium and the low oxygen tension of the gaseous phase. Lactate production, glucose utilization, and ³H-leucine and ³H-adenosine incorporations were investigated for their suitability to monitor parasite growth. Throughout an 18-hr incubation there was a continuous and increasing production of lactate and utilization of glucose, which correlated well with the development of the parasites from ring to schizont stages. During the same period, there was a low but continuous and increasing incorporation of ³H-leucine into parasite protein. However, ³H-adenosine was incorporated only for the 1st hr of incubation, after which time no net incorporation occurred. Parasites grew normally from ring to schizont stages even in the absence of adenosine from the dilution medium.     

An Eimeria vaccine candidate based on Eimeria tenella immune mapped protein 1 and the TLR-5 agonist Salmonella typhimurium FliC flagellin

Immune mapped protein-1 (IMP1) is a new protective protein in apicomplexan parasites, and exits in Eimeria tenella. But its structure and immunogenicity in E. tenella are still unknown. In this study, IMPI in E. tenella was predicted to be a membrane protein. To evaluate immunogenicity of IMPI in E. tenella, a chimeric subunit vaccine consisting of E. tenella IMP1 (EtIMP1) and a molecular adjuvant (a truncated flagellin, FliC) was constructed and over-expressed in Escherichia coli and its efficacy against E. tenella infection was evaluated. Three-week-old AA broiler chickens were vaccinated with the recombinant EtIMP1-truncated FliC without adjuvant or EtIMP1 with Freund’s Complete Adjuvant. Immunization of chickens with the recombinant EtIMP1-truncated FliC fusion protein resulted in stronger cellular immune responses than immunization with only recombinant EtIMP1 with adjuvant. The clinical effect of the EtIMP1-truncated FliC without adjuvant was also greater than that of the EtIMP1 with adjuvant, which was evidenced by the differences between the two groups in body weight gain, oocyst output and caecal lesions of E. tenella-challenged chickens. The results suggested that the EtIMP1-flagellin fusion protein can be used as an effective immunogen in the development of subunit vaccines against Eimeria infection. This is the first demonstration of antigen-specific protective immunity against avian coccidiosis using a recombinant flagellin as an apicomplexan parasite vaccine adjuvant in chickens.