Eimeria tenella: skin hypersensitivity to injected antigen in the fowl

Cross-reactivity among antisera raised against five avian Eimeria species in the natural host and in rabbits

Water- and SDS-soluble antigens were prepared from purified sporulated oocysts of Eimeria acervulina, E. maxima, E. necatrix, E. praecox and E. tenella. Reactivity of . chicken hyperimmune anti-Eimeria sera, rabbit anti-oocyst and rabbit anti-sporozoite sera with the homologous and heterologous oocyst antigens were determined and cross-reactivities were expressed as a percentage of those homologous sera. The results demonstrated that the antisera from chickens infected naturally with Eimeria species differed in their reactivities from those of the rabbit antisera. Occurrence of a high level cross-reactivity among the chicken antisera may suggest that the development of parasites inside the host cells, or the production of substances during the life-cycle, affect the extent of immune responses and that most non-protective antibodies are cross-reactive.

Failure of nude (athymic) rats to become resistant to reinfection with the intestinal coccidian parasite Eimeria nieschulzi or the nematode Nippostrongylus brasiliensis

The course of each of three successive infections with Eimeria nieschulzi in nude (athymic) rats was the same as the primary infection in nu/+ animals, with the production of more oocysts. This indicates that resistance to reinfection with this parasite is mediated by T lymphocytes but that these cells do not control the duration of the life cycle, since oocyst production was not prolonged in the nu/nu rats. After the three infections with E. nieschulzi, the rats were exposed twice to the intestinal nematode Nippostrongylus brasiliensis, and the nu/nu were completely susceptible even to the second infection. Egg production by both infections in the nu/nu animals was similar and continued at a high plateau level for 28 days before falling to a low level. It appears that the strain of N. brasiliensis used in this study is unable to sustain high egg production for more than 4 weeks in T cell deficient rats.

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.

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.

Delayed-type hypersensitivity reaction induced in broilers by killed Staphylococcus aureus

A trial was conducted to determine whether the delayed footpad reaction (DFR) induced by killed Staphylococcus aureus in chickens is a delayed-type hypersensitivity (DTH) reaction. Five criteria were used to assess DTH: 1) DFR with a peak response at 24 to 48 h postchallenge, 2) inhibition of monocyte/macrophage migration, 3) lymphocyte blastogenic response, 4) mononuclear cell infiltration at the challenge site, and 5) passive transfer of DFR by splenic lymphocytes. Broilers were sensitized twice with a s.c. injection in the neck of S. aureus antigen (150 microg/bird) diluted in polyethylene glycol at 3 and 4 wk of age. Controls were s.c. injected with polyethylene glycol. At 6 wk of age, a migration inhibition test was conducted before the birds were challenged intradermally with S. aureus antigen (75 microg/bird) in PBS in the right footpad. The left footpad was injected with PBS. The thickness of the footpad was measured at 0, 4, 24, and 48 h postchallenge to evaluate the DFR. After challenge, blood was collected for the lymphocyte blastogenesis assay. Birds were euthanatized, and both footpads were removed for histology. The spleens were collected aseptically; splenic lymphocytes were injected i.v. into recipient birds. Sensitized birds showed an increase in the DFR (P < 0.02) and blastogenic response (P < 0.01) compared with nonsensitized birds. Delayed footpad reaction reached a maximum response at 24 h postchallenge. The in vitro migration of monocytes/macrophages from sensitized birds was significantly inhibited (P < 0.01). The histological appearance of S. aureus-injected footpads was characterized by dermal edema and perivascular infiltrates of small lymphocytes and macrophages. Birds that received sensitized splenic lymphocytes had a significantly pronounced DFR following challenge with S. aureus when compared with birds that received nonsensitized lymphocytes (P < 0.0001). These results indicated that the DFR can be used as a standard in vivo test for cell-mediated DTH reaction induced by killed S. aureus antigen in chickens.

Effects of initial litter contamination level with Eimeria acervulina on population dynamics and production characteristics in broilers

The present experiment was done to obtain experimental evidence supporting the existence of an optimal initial contamination level of Eimeria acervulina with respect to broiler productivity, as suggested by simulation model outcomes. Three levels of initial (on Day 3) contamination of the litter were applied (low, intermediate and high). The peak of oocyst excretion during the flock cycle (grow-out) (Days 0-36) depended on the initial contamination level. Oocysts peaked at Day 15, 22 and 33 for the high, intermediate and low contamination level, respectively. Antibody titres and plasma carotenoid contents were not significantly affected by contamination levels. Average body weight at the end of the flock cycle (Day 36) and average daily body weight gain were significantly higher at the intermediate contamination level compared with the low and high contamination levels. Average body weight at Day 36 was 1681 g, 1712 g and 1674 g for the low, intermediate and high contamination level, respectively. Average daily weight gain was 45.7 g, 46.5 g and 45.5 g for the low, intermediate and high contamination level, respectively. Thus, the data from this experiment support the existence of an optimum initial contamination level for E. acervulina with respect to performance results.

Immunization against experimental coccidiosis produces contrasting results in inbred mice of differing susceptibility to infection

Pretreatment of inbred mice with intravenous and/or intraperitoneal injection of an antigen prepared from sporozoites of Eimeria vermiformis modulated the course of infection with the parasite in a manner that depended on the resistance-susceptibility phenotype of the host. Mice with a resistant background (BALB) produced more oocysts and those with a susceptible background (C57BL) produced fewer oocysts than their respective controls. The optimum conditions for producing these effects were established, and evidence is presented which suggests that the phenomenon might also apply in the target host, the chicken.

Enhanced H2O2 release from immune chicken leucocytes following infection with Eimeria tenella

Cell-mediated immunity is thought to be important in the resistance of chickens to infection by coccidia, and it has been demonstrated that sporozoites of Eimeria tenella are very sensitive to superoxide ions. Therefore an investigation into the cellular responses in naive specific pathogen-free and hyperimmune birds was carried out with particular attention to their ability to produce reactive derivatives of oxygen. Leucocytes were isolated from the blood, spleen and caecal mucosa of chickens infected with E. tenella and assessed for their ability to release H2O2. Leucocytes obtained from the blood and spleen of hyperimmune birds 1 day after challenge showed an elevated ability to produce reactive oxygen intermediates. In contrast, the ability of leucocytes from naive chickens to produce these molecules was transiently depressed after challenge. Prior to challenge, mucosal leucocytes from immune chickens were also able to release heightened levels of H2O2 when compared with cells from naive chickens.

Oxygen derived free radicals and the course of Eimeria vermiformis infection in inbred strains of mice

Free radical generation by peritoneal leukocytes from BALB/c and C57BL/6 mice was monitored for 18 days following infection with Eimeria vermiformis. Free radical generation occurred earlier and was quantitatively much greater in resistant BALB/c mice than in susceptible C57BL/6 mice, resistance being indicated by a much lower oocyst production and a shorter patent period of E. vermiformis. Plasma greatly enhanced free radical generation in response to a soluble antigen prepared from sporulated oocysts indicating the presence of plasma-borne factor(s) which enhance free radical generation in response to E. vermiformis.

Eimeria vermiformis: differences in the course of primary infection can be correlated with lymphocyte responsiveness in the BALB/c and C57BL/6 mouse, Mus musculus

BALB/c and C57BL/6 mice are high- and low-responders, respectively, to infection with Eimeria vermiformis, this genetically determined difference being immunologically mediated. In order to identify the level at which response phenotype is determined, the proliferation of mesenteric lymph node cells and their ability to transfer immunity adoptively were investigated in each strain; the development of circulating serum antibodies to E. vermiformis was also determined. In all respects BALB/c mice responded earlier than the C57BL/6 but peak values were similar in both strains. The relationship between the temporal differences noted and the characteristic, differing course of the primary infection in the two strains is discussed.

Immunization of chickens with live Escherichia coli expressing Eimeria acervulina merozoite recombinant antigen induces partial protection against coccidiosis

Inoculation of chickens with live Escherichia coli N6405 transformants containing a plasmid which encodes ampicillin resistance and an immunodominant p250 surface antigen of Eimeria acervulina merozoites induced partial protection against challenge with live coccidia. The inoculation with E. coli transformants induced antigen-specific immunoglobulin and cell-mediated immune responses. Challenge with infective oocysts of Eimeria acervulina enhanced both immune parameters, indicating that administration of live E. coli transformants served to prime the immune system for recognition of specific epitopes on the 250-kilodalton protein. Although the mechanism of antigen presentation is unclear, the data suggest that in vivo expression of recombinant merozoite antigen is operative. After administration, no E. coli N6405 transformants could be recovered from intestinal or fecal materials of inoculated chickens, as assessed by enumeration on selective medium. However, ampicillin-resistant E. coli originating from the normal flora and harboring the gene sequences for both antibiotic resistance and Eimeria acervulina merozoite surface protein could be recovered from these chickens. Furthermore, normal-flora E. coli transformants were capable of generating functional beta-lactamase product, as evidenced by their resistance to ampicillin, and immunoreactive E. acervulina merozoite recombinant antigen, as revealed by immunofluorescence staining with p250-specific antiserum.

Kinetics of murine delayed-type hypersensitivity response to Eimeria falciformis (Apicomplexa: Eimeriidae)

Mice recovering from a primary infection with an intestinal protozoan parasite, Eimeria falciformis (Apicomplexa: Eimeriidae), showed a classic delayed-type hypersensitivity (DTH) reaction to oocyst antigen challenge. This reaction was characterized by a biphasic pattern of footpad swelling. The first swelling peaked at 2 h after antigen challenge, whereas the second swelling peaked at 24 to 48 h after challenge. The DTH reaction was transferable with a T-cell-enriched spleen cell population from mice that had recovered from E. falciformis infection. Cytotoxic depletion of immune T cells with anti-L3T4 antibody and complement abrogated DTH transfer, indicating that L3T4-positive T cells were required. A T-cell-enriched spleen cell population from acutely infected mice suppressed the transfer of DTH with immune cells from recovered animals, implicating the existence of infection-induced immunoregulatory cells controlling the parasite-specific immune response during infection. Immune spleen cells also transferred resistance to infection as measured by oocyst production and death rate of recipients. Together, these results indicate that the DTH reaction, induced by infection with E. falciformis, is mediated by L3T4-positive T cells and is associated with resistance to infection.

Identification of immunodominant surface antigens of Eimeria acervulina sporozoites and merozoites

Immunodominant surface antigens of Eimeria acervulina sporozoites and merozoites were identified by 125I-labeling and immunoblotting studies. Using these methodologies 60% of the immunodominant sporozoite antigens and 90% of the immunodominant merozoite antigens were observed to be 125I-surface labeled. However, several major 125I-labeled sporozoite and merozoite proteins did not represent prominent antigens as measured by immunoblotting. Immunodominant surface antigens were found over a wide size range for sporozoites (21-110 kDa) and for merozoites (20-250 kDa). In order to relate these findings to a 'natural' infection, two groups of 3-week old chickens were inoculated 5 times over a 2.5 week period with either a low or high dose of E. acervulina oocysts. The serum response to sporozoites and merozoites, indicated by enzyme-linked immunosorbent assay titers, was rapid; less than or equal to 7 days post-infection with 10(4) oocysts and less than or equal to 3 days with 10(5) oocysts. Many of the antigens identified by immunoblotting of sera from sporozoite- and merozoite-immunized animals were recognized by sera from both high dose and low dose E. acervulina-infected chickens. Furthermore, the sporozoite and merozoite antigens could be grouped into those constituents which induced a serum response early or late in the infection.

Immune mechanisms in infections of poultry

Resistance to infectious agents may depend upon innate mechanisms or acquired immune responses. Inflammation, phagocytosis, cell-mediated immunity and antibodies are components of a complex reaction which result either in resistance or in susceptibility. Most infectious organisms stimulate immune responses within every compartment of the immune system. In rather few infections of poultry, it is possible to pinpoint a limited number of immune reactions that are primarily responsible for resistance. In some situations, autoimmunity may contribute to the pathology associated with infections.

Major histocompatibility (B) complex-associated differences in the delayed wattle reaction to staphylococcal antigen

The influence of the major histocompatibility (B) complex on the delayed wattle reaction (DWR) to Staphylococcus aureus was studied in 109 segregants (B2/B2, B2/B5, and B5/B5) of a fourth generation cross between inbred Regional Poultry Research Laboratory lines 6(1) and 15(1). Chickens were sensitized at 6 weeks of age with S. aureus antigen. One week later, DWR was evaluated by injecting the right wattle with S. aureus antigen. Thickness measurements were taken 4, 24, 48, 72, and 96 hr after injection. A quadratic equation model was used for each bird to calculate maximum wattle thickness, hour of maximum response, and rate of response development and decline. In males, the maximum wattle thickness in response to S. aureus antigen was significantly greater in B2/B5 heterozygotes (1.77 +/- .07 mm) than in either homozygote, B2/B2 (1.36 +/- .13 mm) or B5/B5 (1.39 +/- .08 mm). Heterozygous males reached maximum response sooner and recovered more quickly than homozygous males but these differences were not statistically significant. In females, response developed later than in males but no B complex effect was detected in either rate of development or maximum response.

Immune response during coccidiosis in SC and FP chickens. I. In vitro assessment of T cell proliferation response to stage-specific parasite antigens

Development of cell-mediated immunity (CMI) and comparative effectiveness of different stage-specific coccidia antigens in T cell activation during avian coccidiosis were evaluated in two inbred strains of chickens using a specific in vitro T cell proliferation assay. Lymphocytes from chickens infected with different Eimeria spp. showed proliferative response to sporozoites, merozoites or Eimeria soluble antigen (Esa) excreted by cultured parasites. Detectable CMI response was observed at 21 day P.I. in chickens infected with E. tenella and E. maxima. Generally lower T cell response was observed in chickens infected with E. acervulina. Merozoites were highly immunogenic compared to sporozoites. Esa prepared from cultured parasites was as effective as whole parasites in evoking a T cell response. Although strain variation in T cell response to parasites or Esa was observed during a primary infection, substantially enhanced T cell response was observed 3 days after a secondary infection in both strains of chickens. The results of the present investigation suggest that Esa may be a major parasite antigen released to the immune system during early stages of infection and relevant to the development of protective immunity.

Major histocompatibility (B) complex effects on acquired immunity to cecal coccidiosis

The influence of the major histocompatibility (B) complex on acquired immunity to the avian coccidium Eimeria tenella was studied in 217 F4 segregants (B2B2, B2B5, B5B5) of a cross between inbred lines 6(1) (B2B2) and 15(1) (B5B5) and segregating haplotype combinations of UNH105 (B23B23, B23B24, B24B24), a noninbred line of New Hampshire chickens. Chickens were immunized at 6 weeks of age with 500 oocysts daily for 5 days, then challenged 14 days later with 10 000 oocysts. Responses to infection were evaluated by cecal lesion scores, body weight gain, delayed wattle reaction (DWR), and spleen weight. The F4 segregants of genotypes B2B5 and B5B5 exhibited greater immunity to challenge than B2B2 chickens. B5B5 chickens showed a significantly greater DWR following immunization and larger spleens 6 days after the challenge than either of the other genotypes. However, both B2B5 and B5B5 chickens demonstrated significantly lower lesion scores than B2B2 chickens. There were no significant differences in weight gain among these genotypes. Among 139 line UNH105 segregants, B23B23 hosts had significantly lower lesion scores than B24B24 chickens. No other differences in immune response among line UNH105 genotypes were detected.

Evidence of cell mediated immune response in infection with Eimeria bareillyi in buffaloes

Delayed dermal hypersensitivity and leucocyte migrations were measured in buffalo calves experimentally inoculated with Eimeria bareillyi. Dermal hypersensitivity, characterized by increased thickness and local inflammation, was observed in calves inoculated intradermally with E. bareillyi antigen on Days 21 and 28 after infection. The highest inhibition of leucocyte migration was observed in infected buffalo calves on Days 21 and 28 post-infection.

Immediate type hypersensitivity in murine coccidiosis

Subcutaneous injection of soluble merozoite antigen into the footpad of mice previously infected with Eimeria falciformis caused an immediate type hypersensitivity as measured by footpad swelling (FPS). This reaction was first demonstrable ten days after the infection. Maximal values were achieved on day 13, and later on the intensity of FPS decreased. Increase in the dose of oocysts or in the number of infections did not enhance the degree of FPS. The reaction was transferable to normal recipients with immune serum.

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.

Coccidiosis: rapid depletion of circulating lymphocytes after challenge of immune chickens with parasite antigens

Characteristic changes in the numbers of peripheral blood leukocytes occurred after specific challenge of chickens immunized by infection with the intracellular intestinal coccidian parasite Eimeria maxima. Within minutes of enteric or intravenous challenge with viable parasites or with soluble parasite antigen, the numbers of circulating lymphocytes and, to a lesser extent, of heterophils were reduced. This was followed by a period of leukocytosis, the main cellular constituents of which were heterophils and lymphocytes. Indirect fluorescent staining with antisera to T- or B-lymphocytes showed the depletion in lymphocytes to be accounted for mainly by a reduction in the number of T-cells. The leukopenia after oral challenge, found in immunized birds, could be transferred to normal birds by the intravenous injection of serum, plasma, extracts of leukocytes, or suspensions of viable spleen cells.

Antibodies to coccidia: detection by the enzyme-linked immunosorbent assay (ELISA)

The ELISA test was used for the detection of antibodies to coccidia in the serum and/or egg yolk of chickens infected with Eimeria acervulina, E. maxima or E. tenella and in the serum of rats infected with E. nieschulzi. Antigens prepared from different developmental stages of the parasite were tested and the cross-reaction between different species of Eimeria were examined. The variability in cross-reactivity of different species and the advantages and possible applications of the test are discussed.

Activation of macrophages by culture fluid of antigen-stimulated spleen cells collected from chickens immunized with Eimeria tenella

The effect of spleen cell factors on the activation of macrophages was investigated in chickens immunized with Eimeria tenella. The abilities of peritoneal macrophages obtained from normal chickens to kill sporozoites of E. tenella and to inhibit intracellular development of Toxoplasma gondii were enhanced by exposing them to 33 and 50% culture fluid of antigen-stimulated spleen cells of chickens immunized with E. tenella. The parasiticidal activity of normal macrophages was also distinctly enhanced by the treatment with culture fluid of phytohemagglutinin-stimulated normal spleen cells. On the other hand, the parasiticidal activity of normal macrophages could not be enhanced by the treatment with culture fluid of antigen-stimulated normal spleen cells under conditions similar to those of culture fluid of antigen-stimulated immune spleen cells. It thus appears that the macrophage activator was induced from immune spleen cells in response to the stimulation by the antigen.

Immunity to coccidia in chickens: adoptive transfer with peripheral blood lymphocytes and spleen cells

Suspensions of cells prepared from the caecal tonsils and spleen, and the peripheral blood lymphocytes of chickens immune to Eimeria maxima, were tested for their ability to transfer resistance to syngeneic recipients. The intravenous injection of approximately 6 x 10(8) spleen cells or peripheral blood lymphocytes caused a significant reduction of oocyst production by the challenged recipients, in comparison with controls which were uninjected or given cells from birds susceptible to E. maxima. Peripheral blood lymphocytes appeared to be most effective when obtained 10-15 days after a primary, or 3-10 days after a secondary inoculation of oocysts. The peripheral blood lymphocytes which participate in the early response to challenge of immune birds were not found to be protective. When given intraperitoneally, greater numbers of spleen cells were required to reduce oocyst production, and small numbers of caecal tonsil cells were ineffective. The ability of the various cell suspensions to transfer antibody and cell-mediated responses was monitored with 'marker' antigens. There was some indication that both types of response were involved in protection.

Chicken coccidiosis: correlation between resistance and delayed hypersensitivity

Broiler chickens were immunized with viable oocysts of Eimeria necatrix, E. tenella, or with a commercially prepared vaccine (CocciVac D) containing oocysts from eight chicken Eimeria species. Before challenge with oocysts of E. necatrix or E. tenella, delayed hypersensitivity (DH) reactions to particulate-oocyst antigen extracts of E. nectrix, E. maxima, and E. tenella were demonstrated in the previously immunized broilers. Broilers immunized, tested for DH, and challenged showed good corrrelation between DH reactions and resistance in each homologous trial. Birds immunized with CocciVac D also gave good correlation between DH reactions to E. maxima, E. necatrix, or E. tenella antigens and resistance when challenged with E. necatrix or E. tenella oocysts. Oocyst antigens from E. maxima, E. necatrix, or E. tenella were cross reactive for DH, indicating some antigen sharing among species of chicken coccidia. A few broilers immunized with chicken coccidia showed DH to an oocyst antigen from E. bovis, a cattle pathogen. Results show that DH to oocyst antigens can predict resistance to coccidiosis.