Prior or concurrent exposure to different species of avian Eimeria: effect on sporozoite invasion and chick growth performance.

The effects of prior (immunity) or concurrent administration of Eimeria acervulina or Eimeria tenella on cellular invasion in vivo and in vitro and on growth performance in white leghorn chickens (WLC) were examined. Weight gains of WLC immunized with E. acervulina and challenged with E. tenella were significantly greater than those of nonimmunized chicks challenged with E. tenella (this occurred despite the increased invasion by E. tenella in E. acervulina-immunized chicks that was reported earlier). The weight gains and modest but consistent improvements in intestinal lesion scores, feed conversion ratios, and oocyst shedding in immunized/challenged WLC indicated that E. acervulina conferred a small measure of protection against E. tenella infection that was independent of the effect on invasion. In contrast, immunization of WLC with E. tenella significantly decreased (41%-51%) invasion by E. acervulina as compared with that in nonimmunized WLC but had little effect on chick growth performance. Concurrent inoculation of chicks with E. tenella and E. acervulina had little effect on invasion by E. tenella sporozoites or on subsequent performance of the chicks. In vitro, prior exposure of cultured cells to either of two isolates of E. tenella also caused a significant decrease in invasion by E. acervulina. No gross changes occurred in the culture morphology between the E. tenella-inoculated and noninoculated cultures. Collectively, the data indicate that prior exposure of WLC and cultured cells to single isolates of avian coccidia markedly influenced invasion by other species but had less effect on the growth performance of the birds.     

Inter- and intra-strain variation and PCR detection of the internal transcribed spacer 1 (ITS-1) sequences of Australian isolates of Eimeria species from chickens

The objective of this study was to confirm the presence of seven species of Eimeria involved in chicken coccidiosis in Australia by comparing internal transcribed spacer 1 (ITS-1) sequences, ITS-1 polymerase chain reaction (PCR) methods and to apply phylogenetic analysis to assess evolutionary relationships of Australian isolates. Twenty-two distinct ITS-1 regions of 15 Australian Eimeria isolates were sequenced, and analysed using maximum parsimony, distance and maximum likelihood methods. Poor bootstrap support, resulting from high ITS-1 sequence heterogeneity between all species groups, resulted in polychotomy of the Eimeria species in all three trees generated by these analyses. Percentage identity analyses revealed two distant ITS-1 lineages in both E. mitis and E. maxima at the same levels that separate the two species E. tenella and E. necatrix. One E. maxima lineage consisted of Australian isolates, the other American isolates, with one European sequence (originating from the same isolate) in each lineage. One Australian E. praecox sequence was only distantly related (33% variation) to three E. praecox sequences from Australian and European isolates. Short and long ITS-1 variants were isolated from both E. tenella (cloned line) and E. necatrix isolates with deletions (106 and 73 bp, respectively) in the short variants within the 3' region of the ITS-1 sequence. ITS-1 sequences of strains of both E. brunetti and E. acervulina species varied the least. Apart from E. maxima, all of the ITS-1 sequences of the six remaining individual species clustered to the exclusion of other species in all phylogenetic trees. Published ITS-1 tests for E. necatrix, E. acervulina, E. brunetti and E. tenella, combined with three new tests for E. mitis, E. praecox and Australian E. maxima amplified all respective Australian isolates specifically in a nested format using conserved ITS-1 PCR products as template to improve the sensitivity. All PCR tests were confirmed against a collection of 24 Australian chicken Eimeria isolates and contaminating species were detected in some instances. In conclusion, once the genetic variation between species and strains is determined, the ITS-1 is a good target for the development of species-specific assays, but the ITS-1 sequences alone do not seem suitable for the confirmation of phylogenetic inferences for these species. This study reports the first attempt at the analysis of the phylogeny and sequence comparison of the Eimeria species involved in chicken coccidiosis in Australia.     

A study of the dynamics of the invasion of immunized birds by Eimeria sporozoites

The invasion of the intestinal epithelium of immunized and unimmunized turkeys and chickens by four species of Eimeria was quantitated. In unimmunized birds, E. adenoeides, E. acervulina, and E. tenella invaded primarily the areas in which first-generation schizonts subsequently developed. Eimeria meleagrimitis invaded a larger area of the intestine. Between 1 and 4 hr postinoculation, the numbers of intracellular sporozoites increased, but their location within the intestine was little changed. When birds were immunized with either of two lower intestinal species, E. adenoeides or E. tenella, and then challenged with the immunizing species, invasion was reduced by 36% to 55%. In contrast, immunizing and then challenging birds with either of two upper intestinal species, E. meleagrimitis or E. acervulina, did not reduce invasion: there were 44% more intracellular sporozoites in E. meleagrimitis-immunized turkeys and 11% more in E. acervulina-immunized chickens than in their unimmunized counterparts.     

Potential of a recombinant antigen as a prophylactic vaccine for day-old broiler chickens against Eimeria acervulina and Eimeria tenella infections.

A genetically engineered Eimeria tenella antigen (GX3262), produced as a fusion protein with beta-galactosidase and identified with a monoclonal antibody, induced partial but significant protection in young broiler chickens against experimental E. tenella and Eimeria acervulina infections. The antigen appears to share a T-helper cell epitope with the parasite as evidenced by (a) booster inoculation with either the recombinant antigen or with a small number of live oocysts enhanced the protective immunity in GX3262 primed chickens, and (b) ability of the antigen to induce in vitro stimulation of T-cells from chickens immunized with antigen or parasite. These observations suggest the feasibility of a single vaccination of 1 or 2-day-old broilers with GX3262 to induce an acceptable degree of protective immunity. The implications of the observations reported here are far reaching in terms of a practical coccidiosis vaccine for poultry, and show for the first time that 1-day-old broiler chickens can be efficiently vaccinated with a recombinant antigen against one or more species of Eimeria.     

Higher incidence of Eimeria spp. field isolates sensitive for diclazuril and monensin associated with the use of live coccidiosis vaccination with paracox-5 in broiler farms

Twenty European Eimeria spp. field isolates were subjected to an anticoccidial sensitivity test (AST). The anticoccidial drugs tested were diclazuril (Clinacox) and monensin (Elancoban). The assay was performed in a battery cage trial. Infected medicated birds were compared with an unmedicated control group. Coccidial lesion scores and oocyst shedding were used as parameters. The results of the AST show that resistance is common amongst coccidiosis field isolates, especially Eimeria acervulina (68% and 53% resistance for diclazuril and monensin, respectively). Resistance is less frequent amongst Eimeria maxima (38% and 50% resistance for diclazuril and monensin, respectively) and Eimeria tenella isolates (23% and 38% resistance for diclazuril and monensin, respectively). A highly significant influence of the coccidiosis prevention program (live coccidiosis vaccination with Paracox-5 vs. anticoccidial drugs in feed) on the sensitivity patterns of Eimeria spp. field isolates for both diclazuril (P= 0.000) and monensin (P= 0.001) was found. Further, when looking at the single species and each anticoccidial drug level, significantly more sensitivity of E. acervulina for monensin (P= 0.018), E. maxima for diclazuril (P = 0.009), and E. tenella for diclazuril (P = 0.007) was found in isolates originating from vaccinated flocks. Moreover, for E. acervulina and diclazuril, E. maxima and monensin, and E. tenella and monensin a trend toward higher sensitivity of isolates for these products was found when live coccidiosis vaccination was applied. The present study shows that sensitivity for the anticoccidial drugs diclazuril and monensin is more frequent in Eimeria spp. field isolates originating from broiler farms where a coccidiosis vaccination policy is followed.     

顶复门原虫含苹果结构域蛋白的研究进展

苹果结构域在弓形虫和艾美耳球虫中的研究较深入,其不但具有高度的保守性而且在虫体粘附和入侵宿主的过程中起着重要作用。为此,本文对苹果结构域的结构和功能,及其在弓形虫、艾美耳球虫、肉孢子虫中的研究进展做以综述,以期为开发新一代顶复门原虫的抗虫药物和重组疫苗奠定理论基础[1]。     

Distribution of oocysts, sporocysts and sporozoites of Eimeria tenella and Eimeria maxima in the digestive tract of chicken.

The distribution of oocysts, sporocysts and sporozoites of Eimeria tenella and Eimeria maxima in the digestive tract of chicken and in excreta was investigated. At 1 h after the oral inoculation of E. tenella oocysts, the number of sporocysts in the cecum was 3.4 x 10(6) and decreased gradually thereafter, and the number of sporozoites in the cecum increased and remained at a high level until 12 h after the inoculation. Small numbers of sporocysts and sporozoites of E. tenella were found in other intestinal sites. A great number of E. maxima sporozoites was found, especially in the jejunum, 2 h after the inoculation. The findings that the largest populations of sporozoites of E. tenella and E. maxima were found in the cecum and the jejunum, respectively, indicate that the site specificity of sporozoite invasion for each species is determined before the invasion takes place.     

Efficacy of decoquinate against drug sensitive laboratory strains of Eimeria tenella and field isolates of Eimeria spp. in broiler chickens in China

The efficacy of decoquinate against Eimeria infections in broiler chickens was evaluated using two drug sensitive laboratory strains of Eimeria tenella and 20 field isolates of Eimeria spp. collected from farms in China where various anticoccidials (including maduramicin) had been used. Decoquinate (20-40 ppm in feed) and maduramicin (5 ppm) were efficacious against E. tenella laboratory strains, but decoquinate more so than maduramicin. Body weight gains of E. tenella infected chickens were significantly improved, and caecal lesions were prevented, by feeding either decoquinate or maduramicin. Decoquinate also prevented oocyst production, but maduramicin did not. Most (18/20) Eimeria field isolates were resistant to maduramicin, judged by oocyst production; decoquinate at > or =20 ppm completely controlled all 20 field isolates. Decoquinate has potential value as a broiler anticoccidial in China and other countries where it has not been previously used.     

Differential diagnosis of five avian Eimeria species by polymerase chain reaction using primers derived from the internal transcribed spacer 1 (ITS-1) sequence

Chicken coccidia are protozoan parasites of the genus Eimeria. They cause economical losses in the poultry industry globally. The various species can be distinguished on the basis of the morphology of the oocysts and parasitic site in intestine, but these criteria sometimes are unreliable. Therefore, a species-specific polymerase chain reaction (PCR) was developed. Based on variable sequence regions, specific primers were constructed for the differentiation of five Eimeria species (Eimeria acervulina, E. brunette, E. maxima, E. necatrix, and E. tenella). PCR products were amplified from coccidian vaccine (coccivac-D and coccivac-B) and E. tenella and were subsequently sequenced. Similarities of the five species sequences between the vaccines and Genbank were 94-100%. Analysis of the E. tenella internal transcribed spacer 1 (ITS-1) partial sequence from Taiwan and from Genbank indicated that the similarity was 99.6%. The PCR sensitivity test of E. tenella in Taiwan is 50 oocysts. The five sets of primers will not amplify any non-specific bands of the chicken genome or its intestinal contents. Therefore, the five sets of specifically designed primers are guaranteed to be useful for differential diagnosis of avian coccidiosis caused by Eimeria spp.     

Inter and intra-specific genetic variation of avian Eimeria isolated from Iran by random amplified polymorphic DNA--polymerase chain reaction

Eimeria species from poultry breeder farms without previous exposure to anticoccidial vaccines in five distinct geographical regions of Iran were examined for genetic relatedness by the random amplified polymorphic DNA (RAPD) assay. Eight different oligonucleotide decamers with arbitrary DNA sequences were tested as primers to amplify DNA from five isolates of each E. acervulina, E. tenella, and E. maxima. Depending on the species/isolate-primer combination, between 1 and 14 DNA fragments ranging in size from 240 to 3000 bp were amplified. The two isolates originated from Northeast and North parts of Iran showed minor differences and two isolates originated from Northeast and Southwest of Iran showed major differences in their amplified DNA patterns. The intra-specific similarity coefficient within five isolates of each species of, E. acervulina, E. tenella, E. maxima was 74, 82 and 72%, respectively. The distance indices observed between species were greater than those found between isolates (80-90%) with all examined primers. The inferred phylogenetic tree on the fingerprinting of all species revealed that the RAPD-PCR can easily differentiate within and between species and could be a useful and valuable tool in future epidemiological studies, designing and developing of vaccines against avian coccidosis, here in Iran and neighboring countries.     

Genetics of resistance to coccidiosis: response of inbred chicken lines to infection by Eimeria tenella and Eimeria maxima

1. Experiments have been carried out to compare weight gain, mortality and oocyst production in 7 inbred and partially inbred lines of chickens after challenge with the coccidial parasites Eimeria tenella and E. maxima. 2. There were large differences between lines in the effects of challenge on weight gain and mortality for both species of parasite. However, the lines suffering the greatest mortality were not those showing the greatest effects on weight gain, indicating that mortality alone is not an adequate criterion in selection for resistance. 3. Although oocyst production differed between lines there was no correlation with mortality or with weight loss, implying that the variation observed in these traits was not due to a restriction of the parasite but to an accommodation of its effects. 4. Mortality and weight loss resulting from challenge with E. tenella in the different lines did not correlate with that caused by E. maxima. 5. There was evidence of an association of genes of the major histocompatibility complex genes with mortality, but not with weight loss or oocyst production: there was no indication of association of resistance to coccidiosis with resistance to Marek's disease.     

Cloning and nucleotide sequencing of the second internal transcribed spacer of ribosomal DNA for three species of Eimeria from chickens in Taiwan

Coccidiosis of chickens caused by protozoan parasites of the genus Eimeria (Coccidia: Eimeriidae) is an enteric disease that results in great economic losses throughout the world, including Taiwan. Using polymerase chain reaction (PCR) with primers specific for the second internal transcribed spacer (ITS-2) of ribosomal DNA (rDNA), three species of Eimeria, E. tenella, E. maxima, and E. acervulina have been successfully characterised from chickens in Taiwan. The sizes of PCR products from various isolates representing these three species were between 370 and 580 base pairs (bp). After cloning and sequencing of the PCR products, high nucleotide sequence identity (96.8-100%) was observed within a species. In addition, ITS-2 nucleotide sequences for E. tenella had higher homology (98.5-99.3%) than E. maxima (81.6-96.5%) when compared with appropriate sequences deposited in GenBank. To our knowledge, this is the first report of a 412-bp ITS-2 sequence for E. acervulina from chickens.     

Diagnosis of Eimeria species using traditional and molecular methods in field studies

The objective of this study was to identify and characterize species of Eimeria in broiler chickens using traditional morphological and pathological plus molecular (DNA amplification) diagnostic methodologies. Using a combination of those techniques it was possible to identify the presence of multiple circulating species in the flock as well as higher frequencies for some of them, especially Eimeria praecox and Eimeria maxima, which were identified in 100% of the flocks. The frequencies of the other species were Eimeria mitis and Eimeria necatrix (93.3%), Eimeria tenella (76,7%), Eimeria acervulina (56.7%) and Eimeria brunetti (16.7%). However using the lesion score, the most common species were E. maxima (46.7%), E. acervulina (30%), E. tenella (23.3%), and E. necatrix (10%). E. brunetti and E. praecox were not identified by using lesion score. DNA amplification had detection sensitivity for Eimeria species in the field samples of at least 20 oocysts. The implementation of DNA amplification as a routine diagnostic technique in aviaries can assist Eimeria population.     

Antibody response against endogenous stages of an attenuated strain of Eimeria tenella

The application of attenuated vaccines for the prevention of chicken coccidiosis has increased exponentially in recent years. In Eimeria infections, protective immunity is thought to rely on a strong cell mediated response with antibodies supposedly playing a minor role. However, under certain conditions antibodies seem to be significant in protection. Furthermore, antibodies could be useful for monitoring natural exposure of flocks to Eimeria spp. and for monitoring the infectivity of live vaccines. Our objective was to investigate the chicken antibody response to the different parasite life cycle stages following infection with an attenuated strain of Eimeria tenella. Western blotting analysis of parasite antigens prepared from the lining of caeca infected with the attenuated strain of E. tenella revealed two dominant antigens of 32 and 34 kDa, apparently associated with trophozoites and merozoites that were present at high concentrations between 84 and 132 h post-infection. When cryosections of caeca infected with E. tenella were probed with IgY purified from immune birds the most intense reaction was observed with the asexual stages. Western blotting analysis of proteins of purified sporozoites and third generation merozoites and absorption of stage-specific antibodies from sera suggested that a large proportion of antigens is shared by the two stages. The time-courses of the antibody response to sporozoite and merozoite antigens were similar but varied depending on the inoculation regime and the degree of oocyst recirculation.     

Kinetics of interleukin-2 production in chickens infected with Eimeria tenella

Interleukin (IL)-2 is a major cytokine of cell-mediated immunity (CMI). Because chickens infected with Eimeria, the causative agent of coccidiosis, develop a robust cell-mediated response against the parasite, we measured IL-2 concentrations in vivo and in vitro during the course of primary and secondary experimental Eimeria tenella infections. IL-2 levels in serum and culture supernatants of spleen lymphocytes stimulated with mitogen or E. tenella sporozoites were significantly increased on day 7 post-primary infection compared with control group. This peak in IL-2 coincided with the time of maximum intestinal lesions as measured by cecum lesion scores. By contrast, during secondary infection highest IL-2 concentrations preceded intestinal lesions by 5 days (day 2 versus day 7, respectively). These results confirmed that IL-2 production is augmented during experimental coccidiosis and suggested that cellular immunity elicited during an anamnestic response to parasite reinfection is mediated, at least in part, by IL-2.     

Effects of hybridoma antibodies on invasion of cultured cells by sporozoites of Eimeria

Hybridoma antibodies (Hab) produced against sporozoites or merozoites of four species of Eimeria were tested for the ability to inhibit the invasion of cultured primary avian kidney cells by sporozoites of Eimeria. Five of 16 Hab that were tested showed inhibitory activity. All five of these Hab were produced against sporozoites and reacted with sporozoite surface antigens or surface/internal antigens. Four Hab produced against merozoites of E. acervulina cross-reacted with sporozoite surface antigens but failed to inhibit invasion. Similarly, Hab reacting with sporozoite anterior tips or refractile bodies had little effect on invasion. Collectively, the data suggest that surface antigens or surface/internal antigens that are unique to the sporozoite stage may influence or be part of the invasion process. Indirect immunofluorescent-antibody tests and ferritin (Fe) labeling combined with electron microscopy indicated differences in binding of two of the Hab to the sporozoite surface membranes. For example, after exposure to Hab 43A6 and a fluorescein-antimouse IgG conjugate, extracellular sporozoites of E. meleagrimitis fluoresced brightly but intracellular sporozoites exhibited little fluorescent label. Sporozoites labeled with Hab 43A6 plus a ferritin-antimouse IgG conjugate that were observed in the process of cell invasion had ferritin on the extracellular portion of the parasite but not on the intracellular portion. Extracellular aggregates of ferritin were observed near the site of invasion. The data suggested that antigens of the sporozoite surface that are recognized by Hab 43A6 are "scraped off" during the invasion of cells. In contrast, after exposure to Hab E5, both extracellular and intracellular sporozoites of E. tenella fluoresced. However, ferritin label was not observed on viable sporozoites, even when they were fixed immediately after the labeling procedure. The antigens recognized by Hab E5 may be associated with parasite secretory products rather than with an integral part of the sporozoite surface membrane.     

Characterization of the antibody response in birds following infection with wild-type and attenuated strains of Eimeria tenella and Eimeria necatrix

Live vaccines containing attenuated parasite strains are increasingly used to control chicken coccidiosis. In this paper antibody responses elicited by infections with wild-type and attenuated strains of Eimeria tenella and Eimeria necatrix were characterized by immunoblotting and ELISA with homologous and heterologous antisera. Few differences between antisera from birds infected with wild and attenuated strains of E. tenella were evident in immunoblots conducted with merozoite antigen preparations from both E. tenella strains, however the reactivity of sera raised in birds infected with the wild-type strain was noticeably more intense. In ELISAs conducted with merozoite antigen preparations, antisera from birds infected with the wild-type strains of E. tenella and E. necatrix consistently produced a significantly higher (P<0.05) antibody response than antisera from birds infected with the attenuated strains. Likewise, avidity ELISAs conducted with the E. tenella strains demonstrated that antibodies in birds infected with the wild-type strain were of significantly higher avidity (P<0.05) than antibodies in birds infected with the attenuated strain. The differences in the antibody responses are probably due to changes in the attenuated strain as a result of selection for precocious development and the less severe tissue damage and inflammation of the intestine resulting from infection with the attenuated strain.     

Anticoccidial evaluation of halofuginone, lasalocid, maduramicin, monensin and salinomycin

The activities of five anticoccidials were compared against Eimeria species in/of chickens, in controlled in vivo and in vitro laboratory studies. Two more recent and potent market entries (maduramicin and halofuginone) were compared with three older polyether antibiotic anticoccidials (monensin, lasalocid and salinomycin). Halofuginone, lasalocid, maduramicin, monensin and salinomycin were evaluated at 3, 125, 5, 120 and 66 ppm, respectively, of active drug in the diets. At these levels, all five drugs demonstrated significant activity against Eimeria tenella, E. maxima, E. necatrix, E. brunetti and E. acervulina (in vivo). Monensin was least effective against E. tenella, and one of the lesser efficacious drugs against E. necatrix, maduramicin, was least effective against E. maxima. In studies of single Eimeria species infections, comparable weight gains were noted for the drugs. In the mixed Eimeria species infections, however, birds treated with maduramicin had significantly higher weight gains than did birds medicated with monensin. Unlike in vivo potencies, titration in vitro indicated that monensin was most potent (active at 10(-6) mcg ml-1), and maduramicin and lasalocid least potent (inactive at less than or equal to 10(-3) mcg ml-1).