Infection with Eimeria tenella: modulation of lymphocyte blastogenesis by specific antigen, and evidence for immunodepression

The blastogenic effects of specific parasite antigen and of mitogens on the lymphocytes of chickens infected with Eimeria tenella were examined. Lymphocytes from infected chickens were stimulated to divide when cultured with parasite antigen, but their responses to the T-cell mitogen, phytohemagglutinin (PHA), were depressed throughout the period of infection. Responses to the B-cell mitogen, lipopolysaccharide (LPS), were depressed during the first week of infection but enhanced in the second week. The inclusion of plasma samples from infected chickens in the culture medium depressed the responses of normal spleen lymphocytes to PHA, suggesting that soluble suppressor factors are generated during infection.     

Eimeria tenella: construction of a recombinant fowlpox virus expressing rhomboid gene and its protective efficacy against homologous infection

A recombinant fowlpox virus (rFPV) expressing the Eimeria tenella rhomboid gene was constructed and its protective efficacy against homologous infection in chickens determined. Three-day-old-specific pathogen free (SPF) chickens were immunized s.c. with 10(2) plaque forming units (PFU), 10(4) PFU, or 10(6) PFU of rFPV-rhomboid, and challenged with 5x10(4) homologous sporulated oocysts 14 days post-immunization (p.i.). The specific antibody response and lymphocyte proliferation were measured 1, 2, 3 and 4 weeks p.i. Oocyst output, body weight gains and lesion scores were measured to evaluate the protective effects of immunization. rFPV-rhomboid elicited a specific humoral immune response and stimulated proliferation of peripheral blood lymphocytes. The lesion scores in groups vaccinated with rFPV-rhomboid were significantly higher than in other groups. At the same time, rFPV-rhomboid improved body weight significantly compared with other groups. Immunization with rFPV-rhomboid reduced oocyst shedding significantly, resulting in a protection rate of 39.6%, 41.1% or 41.7% given a dose of 10(2) PFU, 10(4) PFU, or 10(6) PFU of rFPV-rhomboid, respectively. These results indicated that rFPV can induce immune responses and offer partial protection of chickens against E. tenella challenge.     

Partial protection against Eimeria acervulina and Eimeria tenella induced by synthetic peptide vaccine

Coccidiosis is a major parasitic disease of poultry industry and an ideal vaccine should induce long-lasting cross-species protective immunity. Broiler chickens (Cobb 500) were inoculated with single, double or triple injections of a synthetic peptide (derived from sequences of Eimeria acervulina and Eimeria tenella antigens) homogenized in Freund's complete and incomplete adjuvants. The immune responses to the vaccine were assessed by evaluation of antibody and lymphocyte proliferation responses, and the degree of resistance of vaccinated chickens to challenge with sporulated oocysts of E. acervulina or E. tenella determined by comparison of their oocyst output with those of control chickens. The results indicated that the synthetic peptide vaccine induced a high level of antibody and cellular responses associated with partial cross-species protection against challenge with sporulated oocysts of E. acervulina or E. tenella.     

Transgenic Eimeria tenella expressing enhanced yellow fluorescent protein targeted to different cellular compartments stimulated dichotomic immune responses in chickens

Eimeria tenella, one of the seven species of chicken coccidia, elicits protective immunity against challenge infection with both homologous and heterologous strains. We endeavor to use recombinant E. tenella as a vaccine vehicle for expressing and delivering pathogen Ags and investigate immune responses against these foreign Ags. In this study, two lines of transgenic E. tenella expressing a model Ag, enhanced yellow fluorescent protein (EYFP), targeted to the micronemes and to the cytoplasm of the recombinant parasites were constructed to study the impact of Ag compartmentalization on immunogenicity. The MTT assay, intracellular cytokine staining, and real-time PCR were performed to detect the EYFP-specific proliferation and effector functions of splenic lymphocytes of immunized chickens. ELISA was used to measure anti-EYFP IgG and IgA responses. The results showed that both lines of transgenic parasites stimulated EYFP-specific lymphocyte proliferation and IFN-γ expression in CD4 and CD8 T cells, whereas a higher level of Ag-specific lymphocyte proliferation was elicited by the transgenic line expressing microneme-targeted EYFP. Furthermore, this line stimulated stronger IgA response than the one expressing cytoplasm-targeted EYFP after the second immunization. Our findings are encouraging for further investigation of the effect of Ag compartmentalization in transgenic Eimeria on immunogenicity and for the development of a eukaryotic vaccine vector using genetically modified Apicomplexa parasites.     

Electrophoretic and immunologic characterization of proteins of merozoites of Eimeria acervulina, E. maxima, E. necatrix, and E. tenella.

Merozoites of Eimeria acervulina, Eimeria maxima, Eimeria necatrix, and Eimeria tenella were compared by gel electrophoresis, western-blotting with chicken antiserum, indirect fluorescent antibody reactions, and antiserum neutralization. Merozoites from the 4 species had dissimilar patterns of proteins and antigens in soluble and membrane fractions. Coomassie blue staining of SDS-PAGE gels revealed 16-22 protein bands depending on the species of merozoite but only 3 bands per species in the membrane fractions. Homologous and heterologous antisera recognized 5-12 soluble fraction bands and 3-7 membrane fraction bands on immunoperoxidase-stained western blots, depending on the species. When antisera from infected chickens were used in an indirect fluorescent antibody reaction, the merozoites of E. tenella and E. necatrix had a strong reaction with homologous and heterologous antisera. Merozoites of E. acervulina and E. maxima reacted with homologous antisera but had a weak or no reaction with heterologous antisera. Chicken antiserum against E. tenella had no effect on the viability of E. tenella merozoites when they were inoculated into chicken embryos.     

Eimeria acervulina: evaluation of the cellular and antibody responses to the recombinant coccidial antigens in B-congenic chickens

The roles of major histocompatibility complex (MHC) and non-MHC-linked genes in the genetic control of disease susceptibility and the development of protective immunity to Eimeria acervulina infection were investigated in six 15I5-B congenic and four different strains of chickens characterized for the MHC. When oocyst production was assessed, wide variations were noted following initial and challenge infections among the strains of chickens tested. In general, 15.N-21, 15.P-13, B21, B19, SC, and FP chickens were protected following challenge infection whereas 15I5, 15.P-19, 15.7-2, and 15.6-2 chickens were not. Strains of chickens sharing a same B haplotype on different genetic backgrounds did not show comparable levels of protection. These results lead to the view that non-MHC-linked genes have a profound influence on the outcome of the host response to E. acervulina infection. Chickens infected twice at 1-month intervals by an oral inoculation with E. acervulina developed both coccidial-specific antibody and T-cell responses. E. acervulina infected chickens showed T-cell-mediated immune responses to the intact sporozoites as well as to recombinant proteins, p130 of sporozoites and p150 of merozoites. Both p130 and p150 antigens have been identified and characterized previously. Sera obtained from all infected chickens recognized the p150 merozoite protein, but not the p130 sporozoite protein in immunoblots. In general, the cellular response, but not the antibody response to the p150 recombinant surface merozoite antigen correlated with the degree of protection following the challenge infection. These results suggest that the strains of chickens having improved protection against challenge infection demonstrate higher T-cell responses to the recombinant surface merozoite protein, p150.     

Infection with Eimeria tenella: Modulation of Lymphocyte Blastogenesis by Specific Antigen,and Evidence for Immunodepression1

ABSTRACT. The blastogenic effects of specific parasite antigen and of mitogens on the lymphocytes of chickens infected with Eimeria tenella were examined. Lymphocytes from infected chickens were stimulated to divide when cultured with parasite antigen, but their responses to the T-cell mitogen, phytohemagglutinin (PHA), were depressed throughout the period of infection. Responses to the B-cell mitogen, lipopolysaccharide (LPS), were depressed during the first week of infection but enhanced in the second week. The inclusion of plasma samples from infected chickens in the culture medium depressed the responses of normal spleen lymphocytes to PHA, suggesting that soluble suppressor factors are generated during infection.     

Efficacy of a DNA vaccine delivered in attenuated Salmonella typhimurium against Eimeria tenella infection in chickens

The efficacy of an oral DNA vaccine carrying the Eimeria tenella 5401 antigen gene delivered by attenuated Salmonella typhimurium was examined in an experimental challenge study. The DNA vaccine preparation was made by transforming the recombinant plasmid pcDNA3-5401 into the attenuated S. typhimurium strain (Dam(-) and PhoP(-)) (designated hereafter as ZJ111/pcDNA3-5401). The chickens were randomly divided into six groups, 50 per group. Group A were given PBS as control. Chickens in group B were fed with 10(8) colony forming units (CFU) of attenuated S. typhimurium carrying pcDNA3. Group C were immunised with 100 microg of the recombinant 5401 protein via intramuscular injection. Groups D to F orally received ZJ111/pcDNA3-5401 at doses of 10(7), 10(8) and 10(9)CFU per chicken, respectively. All immunisations were boosted 2 weeks later. The immunised chickens were challenged with 6x10(4) homologous sporulated oocysts 14 days after the second immunisation. No significant differences in body weight were detected between the groups before immunisation and at week 4 after the booster immunisation. The ZJ111/pcDNA3-5401 was eventually eliminated from the spleen and liver on week 6 post-immunisation. The plasmid pcDNA3-5401 was stably maintained in over 80% of the attenuated S. typhimurium population after 100 generations of growth in antibiotic-free media. Oral immunisation of chickens with ZJ111/pcDNA3-5401 elicited specific humoral responses and stimulated proliferation of peripheral blood lymphocytes. The lymphocyte proliferation response was significantly higher in all vaccinated groups than in the control chickens. Antibody response was significantly lower in group C than in groups immunised with strain ZJ111/pcDNA3-5401. Vaccination with the strain ZJ111/pcDNA3-5401 at 10(8) (group E) and 10(9) (group F) CFU per chicken provided 55.0 and 57.5% protection against E. tenella challenge, respectively. These results have important implications for the development of DNA vaccines against avian coccidiosis by bacteria-vectored oral delivery system.     

Development of Eimeria tenella in MDBK cell culture with a note on enhancing effect of preincubation with chicken spleen cells

Eimeria tenella, an intracellular protozoan parasite infecting the epithelial cells of the ceca of chickens, causes severe diarrhea and bleeding that can lead its host to death. It is of interest that E. tenella first penetrate into the mucosal intraepithelial lymphocytes (IEL) before they parasitize crypt or villous epithelial cells. This in vitro study was undertaken to know whether the penetration of E. tenella into such a lymphoid cell is a beneficial step for the parasite survival and development. Three sequential experiments were performed. First, the in vitro established bovine kidney cell line, MDBK cells, were evaluated for use as host cells for E. tenella, through morphological observation. Second, the degree of parasite development and multiplication in MDBK cells was quantitatively assayed using radioisotope-labelled uracil (3H-uracil). Third, the E. tenella sporozoites viability was assayed after preincubation of them with chicken spleen cells. E. tenella o?cysts obtained from the ceca of the infected chickens were used for the source of the sporozoites. Spleen cells (E) obtained from normal chickens (FP strain) were preincubated with the sporozoites (T) at the E:T ratio of 100:1, 50:1 or 25:1 for 4 or 12 hours, and then the mixture was inoculated into the MDBK cell monolayer. Morphologically the infected MDBK cells revealed active schizogonic cycle of E. tenella in 3-4 days, which was characterized by the appearance of trophozoites, and immature and mature schizonts containing merozoites. The 3H-uracil uptake by E. tenella increased gradually in the MDBK cells, which made a plateau after 48-60 hours, and decreased thereafter. The uptake amount of 3H-uracil depended not only upon the inoculum size of the sporozoites but also on the degree of time delay (preincubation; sporozoites only) from excystation to inoculation into MDBK cells. The 3H-uracil uptake became lower as the preincubation time was prolonged. In comparison, after preincubation of sporozoites with spleen cells for 4 or 12 hours, the 3H-uracil uptake was significantly increased compared with that of control group. From the results, it was inferred that, although the penetration of E. tenella sporozoites into the lymphoid cells such as IEL is not an essential step, it should be at least a beneficial one for the survival and development of sporozoites in the chicken intestine.     

Eimeria acervulina: DNA cloning and characterization of recombinant sporozoite and merozoite antigens

Genes encoding antigens of Eimeria acervulina were cloned from cDNA expression libraries prepared from the sporozoite and merozoite stages in order to examine humoral and cellular immune responses to this protozoan parasite. Two clones expressing surface antigens were characterized by DNA hybridization studies to identify homologous genomic DNA fragments. The proteins they encode were identified by 125I-labeling, immunoblotting, immunofluorescence, and T-cell activation experiments. One, designated cSZ-1, encodes a 130-kDa beta-galactosidase fusion protein which represents a portion of a p240/p160 immunodominant sporozoite surface antigen. Immunofluorescence studies using anti-cSZ-1 sera and live or 1% paraformaldehyde-fixed E. acervulina sporozoites have confirmed this surface locale. Purified cSZ-1 fusion protein, which is not recognized by sera from E. acervulina-infected chickens, induced the activation of immune T lymphocytes in vitro. Another cDNA clone, designated cMZ-8, gives rise to a 150-kDa fusion protein and encodes a portion of a p250 immunodominant merozoite surface antigen. This was established by immunoblotting of 125I-labeled merozoite proteins with anti-cMZ-8 sera and immunofluorescence staining of live and 1% paraformaldehyde-fixed E. acervulina merozoites. Purified cMZ-8 is recognized by sera from E. acervulina-infected chickens and induces a significant activation of immune T lymphocytes in vitro.     

Towards a reference map of Eimeria tenella sporozoite proteins by two-dimensional electrophoresis and mass spectrometry

Eimeria tenella is a parasite of great importance as a disease causing agent in the poultry industry. Until recently, biological studies have focused on specific proteins, some of which play an important role in the parasite life cycle. Post-genomic studies will make it possible to understand the complexity of the parasites and their interactions with host cells. Here we present a systematic reference map of the proteins from E. tenella sporozoites. The proteins expressed at the sporozoite stage were resolved between isoelectric points 3-10 and 4-7. They were systematically identified using mass spectrometry and 16 known Eimeria sporozoite proteins were identified on two-dimensional maps. Peptide fragmentation data from mass spectrometry were compared to single and consensus expression sequence tags in databases and to the E. tenella genome (not annotated). Among the set of unknown proteins analysed, 12 new assignments were proposed on the basis of similarities with Apicomplexa proteins. In order to define sporozoite proteins as potential targets for coccidiosis therapy, proteins were studied according to their relative abundance and immunogenicity in the sporozoite. Immunoblots of sporozoite 2D maps with chicken sera were performed and approximately 50 proteins were defined as antigens. It was shown that abundance and immunogenicity are not related in the sporozoite stage. Perspectives of gene prediction and completion of the genome annotation by a proteomic approach is discussed.     

Eimeria tenella: cloning of a novel Eimeria tenella cDNA encoding a protein related to rhomboid family from F2 hybrid strain

A novel cDNA sequence with an open reading frame of 774 bp from Eimeria tenella F2 hybrid strain (ETRH01) was isolated from a lambda cDNA library with a monoclonal antibody against sporozoite. Analysis of the genomic sequence suggests that this is an intronless gene. The deduced protein sequence has 257 amino acids with a calculated molecular weight of 28.349 kDa and an isoelectric point of 8.56. Sequence analysis revealed seven transmembrane domains and a rhomboid domain within the protein. RT-PCR result indicates that this gene was expressed in all of the five E. tenella isolates analyzed. To further study the role of this novel gene in the life cycle of E. tenella, ETRH01 was successfully expressed using pET28b(+) expression system.     

Chicken T lymphocyte clones with specificity for Eimeria tenella. I. Generation and functional characterization

T lymphocyte clones reacting specifically with the antigenic components of Eimeria tenella were generated from splenic lymphocytes of immunized chickens and were maintained for 12 to 14 wk in vitro. These T cell growth factor-dependent T lymphocyte clones from bursectomized and normal chickens proliferated in vitro when stimulated with antigens from different developmental stages of homologous but not heterologous species of the parasite. Specific proliferative responses of the cloned T cells showed an absolute requirement for antigen presentation by histocompatible antigen-presenting cells. Some of the T cell clones exhibited functionally discrete interactions with syngeneic primed B cells; 25% of the T cell clones from immunized normal chickens and 7% of those obtained from immunized bursectomized chickens showed antigen-dependent helper activity and induced specific antibody production by syngeneic primed B cells. Of the T cell clones from immunized normal chickens, 19% showed suppression of in vitro antibody production in comparison to 7% of those isolated from immunized bursectomized chickens. The frequency of cloned T cells with ability to induce cytotoxic activity in macrophages against the sporozoites of E. tenella was much higher in those isolated from bursectomized chickens (80%) than in those isolated from normal chickens. Because both bursectomized and normal chickens can be immunized by repeated infections, differences in the distribution among cloned T cells suggest different effector mechanisms of immunity against coccidiosis in these chickens. Lack of B cells seem to affect the development of T cell immunity as reflected by slower development of immunity and enhanced activation of cytotoxic T cell function.     

Eimeria tenella: B-cell epitope mapping following primary and secondary infections

Immunisation against coccidiosis has become more reliable and effective with improved administration techniques for new vaccines. On the other hand, an ideal coccidial vaccine should contain both B- and T-cell immunogenic epitopes. Fine specificity of B-cell epitopes recognised by antibodies prepared following primary and secondary infections with Eimeria tenella were studied using "PepScan" techniques. Mapping of B-cell epitopes within an antigenic sequence from E. tenella showed that four distinct types of epitopes were recognised by the host immune system during the primary and secondary infections with the parasite. These observations demonstrated that new epitopes are also involved in induction of antibody responses following the secondary infection.     

Interferon-gamma-mediated inhibition of the development of Eimeria tenella in cultured cells

The effect of treating cultured Madin-Darby bovine kidney cells (MDBK) with recombinant bovine interferon-alpha 1 (IFN-alpha 1) or recombinant bovine interferon-gamma (IFN-gamma) on the intracellular development of Eimeria tenella was studied. Treatment of the MDBK cells with IFN alpha-1 for 24 hr before infection and for 48 hr after infection had no effect on the development of E. tenella. However, following the same treatment regime with serial dilutions of IFN-gamma induced a significant reduction in the number of total intracellular parasites (sporozoites, trophozoites, and meronts) compared to the untreated controls. Of these intracellular parasites, less than 30% had developed beyond the sporozoite stage. These results are suggestive of a role for IFN-gamma in protecting or limiting the development of E. tenella in their host cells. These results could be relevant to the control of these organisms and may be exploited for use with a coccidiosis vaccine.     

Hybridoma antibody characterization of stage-specific and stage-cross-reactive antigens of Eimeria tenella

Hybridoma antibodies (HAb) have been raised against the sporozoite stage of 3 species of avian coccidia. These HAb were utilized in Western blot analysis, resulting in the immunoenzymatic detection of sporozoite and merozoite antigens of 1 species, Eimeria tenella. The 5 HAb specific for the sporozoite stage showed either single bands at 22 and 28 kDa or a large diffuse band in the 7-10-kDa range. The 4 HAb that cross-reacted with both asexual stages recognized either a single sporozoite or merozoite antigen of 90 kDa, or multiple antigens (47-69 kDa) for both stages. The 9 HAb demonstrated 5 different immunofluorescent antibody (IFA) patterns, and the 4 cross-reactive HAb showed similar IFA patterns with both asexual stages of E. tenella. The sporozoite-specific HAb which identified the 22, 7-10, and 7-8 kDa antigens showed surface, surface-internal, or internal IFA patterns. The other sporozoite-specific HAb, which labeled the 28-kDa antigen, stained the refractile body. The IFA of the 4 stage-cross-reactive HAb, which recognized the 45-60-kDa and the 90- or 47-69-kDa antigens, localized these antigens to the surface and tip, respectively. Rabbit anti-sporozoite serum appeared to recognize all of the sporozoite and merozoite antigens identified by the HAb as well as a variety of additional stage-cross-reactive antigens.     

Eimeria tenella (Eucoccidiorida): a quantitative assay for sporozoite infectivity in vivo

A quantitative technique for the assessment of sporozoite infectivity in vivo, using intra-cecal inoculation of Eimeria tenella sporozoites, has been developed. Evaluation of the infection using cecal lesion scores and oocyst counts showed that this technique should be useful for the quantitation of sporozoite viability and thus for the anti-sporozoite activity of different treatments prior to inoculation. Pre-treatment of sporozoites with heat-inactivated hyperimmune antisera neutralized sporozoite infectivity in vivo and indicated that antibodies in the absence of complement inhibited sporozoite infectivity in vivo.     

Immunostimulating complexes incorporating Eimeria tenella antigens and plant saponins as effective delivery system for coccidia vaccine immunization

Immunostimulating complexes (ISCOMs) are unique, multimolecular structures formed by encapsulating antigens, lipids, and triterpene saponins of plant origin, and are an effective delivery system for various kinds of antigens. The uses of ISCOMs formulated with saponins from plants collected in Kazakhstan, with antigens from the poultry coccidian parasite Eimeria tenella, were evaluated for their potential use in developing a vaccine for control of avian coccidiosis. Saponins isolated from the plants Aesculus hippocastanum and Glycyrrhiza glabra were partially purified by HPLC. The saponin fractions obtained from HPLC were evaluated for toxicity in chickens and chicken embryos. The HPLC saponin fractions with the least toxicity, compared to a commercial saponin Quil A, were used to assemble ISCOMs. When chicks were immunized with ISCOMs prepared with saponins from Kazakhstan plants and E. tenella antigens, and then challenged with E. tenella oocysts, significant protection was conveyed compared to immunization with antigen alone. The results of this study indicate that ISCOMs formulated with saponins isolated from plants indigenous to Kazakhstan are an effective antigen delivery system which may be successfully used, with low toxicity, for preparation of highly immunogenic coccidia vaccine.     

Studies on construction of a recombinant Eimeria tenella SO7 gene expressing Escherichia coli and its protective efficacy against homologous infection

Eimeria spp. are the causative agents of coccidiosis, a major disease affecting the poultry industry. A recombinant non-antibiotic Escherichia coli that expresses the Eimeria tenella SO7 gene was constructed and its protective efficacy against homologous infection in chickens was determined. The three-day-old chickens were orally immunized with the recombinant non-antibiotic SO7 gene expressing E. coli and boosted two weeks later. Four weeks after the second immunization, the chickens were challenged with 5 × 10⁴ homologous sporulated oocysts. The protective effects of the recombinant non-antibiotic E. coli were determined by measuring body weight change, mortality, histopathology, lesion scores, oocyst counts, the specific antibody response and the frequency of CD4⁺ and CD8⁺ lymphocytes in peripheral blood. The results showed that immunization with SO7 expressing E. coli resulted in significantly improved body weight gain, reduced lesion scores and oocyst shedding in immunized chickens compared to controls. Furthermore, administration of recombinant SO7 expressing E. coli leads to a significant increase in serum antibody, CD4⁺ and CD8⁺ T cells in peripheral blood of chickens. These results, therefore, suggest that the recombinant non-antibiotic E. coli that expresses the SO7 gene is able to effectively stimulate host protective immunity as evidenced by the induction of development of both humoral and cell-mediated immune responses against homologous challenge in chickens.