Recent history of Veterinary Immunology in Australia

This Commentary article reviews the history of veterinary immunology in Australia from the 1980s and discusses the key people and areas of research during this period.

Spray-Dried Influenza Antigen with Trehalose and Leucine Produces an Aerosolizable Powder Vaccine Formulation that Induces Strong Systemic and Mucosal Immunity after Pulmonary Administration

BACKGROUND

Pulmonary immunization has recently gained increased interest as a means to induce both systemic and mucosal immunity while eliminating issues associated with the use of needles in parenteral vaccination. However, in contrast to the inhaled delivery of small molecule drugs, a dry powder carrier platform that is readily adaptable to the incorporation of biomacromolecules (e.g., vaccine antigens) as a common standard is lacking. Spray-dried trehalose with leucine has previously been characterized and demonstrated to produce highly aerosolizable powders containing an amorphous glassy matrix suitable for stabilization of biomacromolecules. This study aimed to further extend the understanding in the use of this formulation as a dry powder carrier platform in an in vivo setting, using influenza antigen as a model, for pulmonary delivery of biomacromolecules.

METHODS

Spray-dried influenza vaccine was produced using previously established spray-drying conditions. The formulations were characterized to examine the impact of influenza antigen on the solid-state properties of the spray-dried powders. The optimal vaccine formulation was then selected for in vivo immunogenicity study in rats to evaluate the efficacy of the reconstituted spray-dried vaccine compared to liquid vaccine administered via pulmonary and subcutaneous routes.

RESULTS

The formation of amorphous glassy matrix and morphology of the spray-dried particles, within the protein concentration range used in the study, was not affected by the incorporation of the influenza antigen. However, the amount of proteins incorporated increased water content and reduced the glass transition temperature (Tg) of the formulation. Nevertheless, the spray-dried vaccine induced strong mucosal and systemic immunity comparable to liquid vaccine after pulmonary and subcutaneous immunization without causing any inflammation to the lung parenchyma.

CONCLUSIONS

The study demonstrated the usability of the spray-dried carrier as a promising platform for pulmonary delivery of influenza vaccine. The potential utility of this delivery system for other biomacromolecules may also be further explored.

Placental restriction of fetal growth reduces cutaneous responses to antigen after sensitization in sheep

Prenatal and early childhood exposures are implicated as causes of allergy, but the effects of intrauterine growth restriction on immune function and allergy are poorly defined. We therefore evaluated effects of experimental restriction of fetal growth on immune function and allergic sensitization in adolescent sheep. Immune function (circulating total red and white blood cells, neutrophils, lymphocytes, monocytes, eosinophils, and basophils, and the antibody response to Clostridial vaccination) and responses to house dust mite (HDM) allergen and ovalbumin (OVA) antigen sensitization (specific total Ig, IgG1, and IgE antibodies, and cutaneous hypersensitivity) were investigated in adolescent sheep from placentally restricted (PR, n = 23) and control (n = 40) pregnancies. Increases in circulating HDM-specific IgE (P = 0.007) and OVA-specific IgE (P = 0.038) were greater in PR than control progeny. PR did not alter total Ig, IgG1, or IgM responses to either antigen. PR increased OVA-specific but not HDM-specific IgA responses in females only (P = 0.023). Multiple birth increased Ig responses to OVA in a sex-specific manner. PR decreased the proportion of positive cutaneous hypersensitivity responders to OVA at 24 h (P = 0.030) but had no effect on cutaneous responses to HDM. Acute wheal responses to intradermal histamine correlated positively with birth weight in singletons (P = 0.023). Intrauterine growth restriction may suppress inflammatory responses in skin downstream of IgE induction, without impairment in antibody responses to a nonpolysaccharide vaccine. Discord between cutaneous and IgE responses following sensitization suggests new mechanisms for prenatal allergy programming.

Changes in fetal thymic immune cell populations in a sheep model of intrauterine inflammation

Intrauterine inflammation is a common antecedent of preterm birth and can alter the development of the fetal thymus, the site of development, and maturation of T lymphocytes. The effects of intrauterine inflammation on specific thymic T lymphocyte populations are largely unknown. We hypothesized that intrauterine inflammation would alter fetal thymic T cell populations. Immunohistochemistry was used to quantitate the relative proportions of thymic cortical and medullary cell populations in fetal sheep 7 days after intra-amniotic lipopolysaccharide (LPS) injection. The proportions of CD8⁺and MHC II⁺ cells in the fetal thymus were reduced in response to LPS. The ratio of CD4:CD8 cells was increased by LPS exposure. No changes were observed in the percentage of CD4⁺, γδ(WC1)⁺, CD45R⁺B cells, or CD44⁺ cells. These studies indicate that intrauterine inflammation impacts thymic composition of CD8 T cells and the development and/or activation of CD4 T cells in the fetal thymus.

Exploiting mucosal surfaces for the development of mucosal vaccines

Mucosal immunity covers a variety of mucosal surfaces susceptible to different pathogens. This review highlights the diversity of mucosal tissues and the unique microenvironments in which an immune response is generated. It argues that tissue-specific factors present throughout mucosal tissues and lymph nodes determine the differentiation into IgA-producing B cells, which in turn determines their migration patterns. Mucosal immunity can therefore be induced when antigen is delivered at any mucosal tissue without the need for specific 'mucosal adjuvants' or targeting to specialised lymphoid structures. Non-oral vaccination strategies directed at alternative and more accessible mucosal tissue sites, may provide new avenues for both mucosal and systemic immunization, and will be greatly facilitated by the use of large animal models.

Visualizing the neutrophil response to sterile tissue injury in mouse dermis reveals a three-phase cascade of events

Neutrophil granulocytes traffic into sites of organ injury in which they may not only participate in tissue repair and pathogen clearance but may also contribute to collateral cell damage through the release of noxious mediators. The dynamics and mechanisms of neutrophil migration in the extravascular space toward loci of tissue damage are not well understood. Here, we have used intravital multi-photon microscopy to dissect the behavior of neutrophils in response to tissue injury in the dermis of mice. We found that, following confined physical injury, initially rare scouting neutrophils migrated in a directional manner toward the damage focus. This was followed by the attraction of waves of additional neutrophils, and finally stabilization of the neutrophil cluster around the injury. Although neutrophil migration in the steady state and during the scouting phase depended on pertussis toxin-sensitive signals, the amplification phase was sensitive to interference with the cyclic adenosine diphosphate ribose pathway. We finally demonstrated that neutrophil scouts also transit through the non-inflamed dermis, suggesting immunosurveillance function by these cells. Together, our data unravel a three-step cascade of events that mediates the specific accumulation of neutrophils at sites of sterile tissue injury in the interstitial space.

New developments in dry powder pulmonary vaccine delivery

Pulmonary immunization has gained increased recognition as a means of triggering both a mucosal and systemic immune response without the use of needles. The appropriate formulation of antigens in a dry, solid state can result in improved stability, thereby removing cold-chain storage complications associated with conventional liquid-based vaccines. The particulate nature of dry powder vaccines could also induce a better immune response. This review describes our current understanding of pulmonary immunization, including possible barriers facing the development of pulmonary vaccines, and discusses recent advances in spray-drying technologies applicable to the production of dry powder formulations for pulmonary vaccine delivery.

Immune mechanisms of resistance to gastrointestinal nematode infections in sheep

Infections with gastrointestinal nematode parasites are a major problem for the sheep industry in Australia and New Zealand and have been the subject of intensive research to define mechanisms of resistance. The ability to take continuous biopsy samples of infected organs and cannulate both afferent and efferent lymphatics of draining lymph nodes has been particularly useful in illuminating the kinetics of immune responses at the site of infection. Distinct localized immune responses were shown to occur within and between sheep breeds at different sensitization regimes, as well as at different developmental stages of the parasite within the host. Using localized antibodies derived from mucus and lymph nodes, two major antigens have been identified on the infective L3 stage, which may be responsible for inducing protection and have potential as vaccine targets. Recent advances in sheep genomics also offer the potential of gaining further insight into the underlying genetics of resistance to nematode infections.

Immune cell kinetics in the ovine abomasal mucosa following hyperimmunization and challenge with Haemonchus contortus

Sheep were sensitized by repeated infection with Haemonchus contortus L3, followed by a 12 week rest period, and an abomasal cannula was surgically implanted in all sheep. Seven of the sensitized sheep were subsequently challenged with 50 000 H. contortus L3 while 4 control sheep were challenged with saline. Biopsy samples were taken using a fibreoptic endoscope on days 0, 1, 2, 3, 5, 7 and 28 after challenge and leukocyte subpopulations quantified by (immuno)histology. Differential blood cell counts were performed on the same days. At the end of the trial, sheep showed significantly reduced worm burdens compared to unsensitized control sheep, confirming their resistance status. Both blood and tissue eosinophils, as well as tissue γδ TCR⁺ cells were rapidly elevated by day 1 post L3 challenge (pc), peaking at day 3 pc. There was a slight increase in tissue CD4 T cells at day 2 pc, peaking at day 3 pc while no significant changes in CD8 T cells were observed. B cells (CD45R⁺) increased later into challenged tissues with a peak at 5 days pc. All tissue lymphocyte subpopulations as well as tissue and blood eosinophils were reduced by day 7 pc before increasing again at day 28 pc, suggesting separate responses to larval and adult antigens. In contrast, globule leukocytes and mucosal mast cells only showed one peak at day 5 pc and 28 pc, respectively. Unexpectedly, globule leukocytes correlated significantly with tissue eosinophils but not mucosal mast cells. The results are consistent with an early eosinophil-mediated killing of L3, possibly recruited by IL-5 produced by γδ T cells. In contrast to post-mortem studies, abomasal cannulation allowed sequential analysis of both early and late time points in the same animal, providing a more complete picture of cellular interactions at both peripheral and local sites, and their correlation with the different stages of parasite development.

GammadeltaTCR+ cells of the pregnant ovine uterus express variable T cell receptors and contain granulysin

Gammadelta T cells are a prominent granulated cell population in the ruminant pregnant uterus and both their number and granule size increase dramatically during pregnancy. Anchor-RT-PCR was used to assess TCRdelta gene usage by gammadelta T cells from the uterine epithelium of pregnant sheep. The TCRdelta genes obtained exhibited distinct combinatorial and junctional diversity and only two out of nine V-D-J rearrangements sequenced were identical. Furthermore, two of the Vdelta elements used are also expressed in peripheral blood, indicating that gammadeltaTCR use in sheep epithelia is neither restricted nor site-specific, similar to humans but in contrast to findings in mice. Protein analysis of purified, granulated uterine gammadelta T cells revealed the presence of large amounts of the antimicrobial peptide, granulysin. The results of the present study indicate that ovine uterine gammadeltaTCR(+) intraepithelial lymphocytes have the potential to recognise diverse antigens and may have a role in protecting the uterus from infection during pregnancy and parturition. A similar protective role for gammadelta T cells may exist in the human decidua parietalis.

Functional characterization of an eosinophil-specific galectin, ovine galectin-14

Across mammalian species, human galectin-10 and ovine galectin-14 are unique in their expression in eosinophils and their release into lung and gastrointestinal tissues following allergen or parasite challenge. Recombinant galectin-14 is active in carbohydrate binding assays and has been used in this study to unravel the function of this major eosinophil constituent. In vitro cultures revealed that galectin-14 is spontaneously released by eosinophils isolated from allergen-stimulated mammary gland lavage, but not by resting peripheral blood eosinophils. Galectin-14 secretion from peripheral blood eosinophils can be induced by the same stimuli that induce eosinophil degranulation. Flow cytometric analysis showed that recombinant galectin-14 can bind in vitro to eosinophils, neutrophils and activated lymphocytes. Glycan array screening indicated that galectin-14 recognizes terminal N-acetyllactosamine residues which can be modified with alpha1-2-fucosylation and, uniquely for a galectin, prefers alpha2- over alpha2-sialylation. Galectin-14 showed the greatest affinity for lacto-N-neotetraose, an immunomodulatory oligosaccharide expressed by helminths. Galectin-14 binds specifically to laminin in vitro, and to mucus and mucus producing cells on lung and intestinal tissue sections. In vivo, galectin-14 is abundantly present in mucus scrapings collected from either lungs or gastrointestinal tract following allergen or parasite challenge, respectively. These results suggest that in vivo secretion of eosinophil galectins may be specifically induced at epithelial surfaces after recruitment of eosinophils by allergic stimuli, and that eosinophil galectins may be involved in promoting adhesion and changing mucus properties during parasite infection and allergies.

Chronic airway disease: deteriorating pulmonary function in sheep associated with repeated challenges of house dust mite

The aim of this work was to characterize lung function and cellular responses in a large animal model for chronic asthma. All sheep were sensitized to house dust mite (HDM) by subcutaneous injection of HDM before lung challenges. Groups of sheep were given weekly lung challenges with either HDM (n = 12) or saline (control, n = 5) for 3 months. Post challenge, there were significant increases in lung resistance in 7 out of 12 HDM-challenged sheep, compared to control sheep. In HDM-responding sheep, there was a progressive increase in the magnitude of HDM-induced resistance throughout the trial. All HDM-challenged sheep developed BAL eosinophilia and bronchial hyperresponsiveness. In conclusion, sheep chronically challenged intralung with HDM consistently develop airway hyperresponsiveness and eosinophilia, whereas allergen-specific bronchoconstriction is observed in just over half of these sheep.

RNAi in Haemonchus contortus: a potential method for target validation

RNA interference (RNAi) is a method for the functional analysis of specific genes, and is particularly well developed in the free-living nematode Caenorhabditis elegans. There have been several attempts to apply this method to parasitic nematodes. In a recent study undertaken in Haemonchus contortus, Geldhof and colleagues concluded that, although a mechanism for RNAi existed, the methods developed for RNAi in C. elegans had variable efficacy in this parasitic nematode. The potential benefits of RNAi are clear; however, further studies are required to characterize the mechanism present in parasitic nematodes, and to improve culture systems for these nematodes to monitor the long-term effects of RNAi. Only then could RNAi become a reliable assay of gene function.

Airway remodelling and inflammation in sheep lungs after chronic airway challenge with house dust mite

BACKGROUND

Remodelling of airway walls is a significant morbidity factor in patients suffering from chronic asthma. The relationship between airway remodelling and the inflammatory response is not well defined. Sheep have been used extensively to model airway disease in humans and represent a suitable model to examine airway remodelling.

OBJECTIVE

The aim of the present study was to develop a model for airway remodelling in sheep after repeated challenge with a relevant human allergen to assess the relationship of airway remodelling with inflammation.

METHODS

Repeated challenges of house dust mite (HDM) extract or saline (control) were administered to local lung segments of sheep for a period of 6 months. After the last challenge, lung tissues from both challenged and unchallenged lung compartments of the same sheep were compared using morphometric image analysis and (immuno) histological studies.

RESULTS

All HDM-challenged sheep developed significant bronchoalveolar lavage eosinophilia during challenge. At the end of the challenge period, significant increases in airway collagen and airway smooth muscle content were found in a proportion (3/7) of the HDM-challenged sheep. Hyperplasia of goblet cells and epithelial cells were observed in small bronchi and bronchioles exposed to allergen. Irrespective of airway remodelling changes, all HDM-challenged, but no saline-challenged sheep, displayed significant increases in mast cells in alveolar septa and airway walls of challenged lungs compared with untreated lung compartments of the same sheep. Significant increases were also observed in CD5 and gamma delta T cell subpopulations in all allergen-exposed lung parenchyma.

CONCLUSION

A proportion of atopic sheep develop typical airway remodelling changes after chronic allergen challenge, which is not directly related to the level of allergic inflammation.

Galectins in parasite infection and allergic inflammation

Galectins are increasingly recognised as important immunological mediators of homeostasis and disease regulation. This paper gives an overview of current knowledge of galectin involvement in parasite infection and allergic inflammation, two very different but immunologically linked phenomena. Galectins are produced by both the parasite and the host and appear to be intimately involved in parasite establishment, as well as directing the course of infection and the immune response. Host galectins have also been shown to be active participants in the recruitment of cells to sites of inflammation and modulating the effector function of mast cells, neutrophils and eosinophils. Moreover, the ability of galectins to induce differential expression of cytokine genes in leukocytes suggests that they are able to direct the nature of an adaptive immune response, in particular towards a T2-type allergic response.

Comparative T-cell responses during pregnancy in large animals and humans

PROBLEM

Placentation in different large animal species shows a remarkable diversity in the level of trophoblast invasion into the maternal endometrial tissues. We wish to determine the influence of implantation on T-cell responses during pregnancy.

METHOD OF STUDY

Review of the literature and current data.

RESULTS

alphabeta-TCR+ T cells are only prominent during early pregnancy in species with relatively non-invasive placentation (pig and horse) but are rapidly downregulated in species with more invasive placentae. gammadelta-TCR+ T cells are prominent in species with moderate trophoblast invasion (ruminants) where they increase dramatically during mid and late pregnancy. gammadelta-TCR+ T cells remain prominent during late gestation in species with highly invasive placentation (humans) and, in addition, a distinct gammadelta T-cell population is present in first trimester decidua where it may play a regulatory role in controlling natural killer cell activity. The gammadelta-TCR+ population present in both ruminants and humans shows large granular morphology and contains antimicrobial proteins, suggesting their function may be to protect the uterine environment from infection during pregnancy and parturition.

CONCLUSION

The comparative analysis of T-cell responses during pregnancy in different large animal species supports an increasing role for cells of the innate immune response (NK and gammadelta T cells) and a downregulation of the adaptive immune response with increasingly invasive placentation.

Regional immune responses with stage-specific antigen recognition profiles develop in lymph nodes of pigs following Ascaris suum larval migration

The early life-cycle of the pig round worm, Ascaris suum, involves well-defined larval development in the liver, lungs and finally the small intestine. Distinct regional immune responses to larval antigens of A. suum were observed in the draining lymph nodes of immunized and challenged pigs during larval migration. This was reflected in a transient enlargement of the stimulated lymph nodes, due to increases in numbers of B cells and CD4 T cells, and the production of A. suum-specific antibody by antibody secreting cell (ASC) cultures. Larval antigen recognition pattern of antibodies in serum, bile and draining lymph node ASC culture supernatant (ASC-probes) was examined by immunoblotting. This revealed distinct organ-specific recognition patterns of larval-specific antigens by the draining lymph nodes at different times after challenge. In particular, an early larval 42 kDa antigen was recognized specifically by ASC-probes of the liver lymph nodes at 7 but not 14 days postchallenge (pc) which was not detected in other lymph nodes, serum or bile of the same pig. Similarly, a late larval antigen of 34 kDa was uniquely detected by lung and jejunal ASC-probes at 14 days pc. These observations demonstrate how development of distinct regional immune responses in tissues with different antigen stimulation can be monitored with ASC-probes and flow cytometry.

A single-chain variable region immunoglobulin library from the abomasal lymph node of sheep infected with the gastrointestinal nematode parasite Haemonchus contortus

Sheep immunoglobulin (Ig) heavy-chain (V(H)DJ(H)) and lambda light-chain variable region (V(lambda)J(lambda)) nucleotide coding sequence was isolated by reverse transcriptase-polymerase chain reaction (RT-PCR) from abomasal lymph node (ALN) B cells of immune sheep challenged with the gastrointestinal nematode parasite Haemonchus contortus. Single-chain antibodies (scFv) were then constructed with the purified V(H)DJ(H) and V(lambda)J(lambda) Ig gene region DNA using oligonucleotides to PCR and join the variable regions to a central [Gly(4)Ser](3)-linker. In a similar fashion 5'-SfiI and 3'-NotI restriction endonuclease sites were added for cloning into a phagemid expression vector. Expression of sheep scFv from pHFA phagemid in an amber-suppresser strain of Escherichia coli, after infection with filamentous phage, resulted in 10(9) sheep scFv antibodies displayed as a library on phagemid particles. Western blot analysis demonstrated sheep scFv gene expression in E. coli cell lysate and on purified library phage. In addition, four rounds of scFv-library selection against H. contortus surface antigen resulted in a 300-fold increase in the elution titre of phage recovered from parasite surface antigen. Nearly 1000 of the selected and eluted scFvs were expressed in an attempt to identify monoclonal sheep scFv against parasite antigen. Only low affinity clones were isolated during screening of this sheep scFv-library, suggesting different strategies will be needed for isolation of specific high affinity recombinant antibody in future studies.

Isolation and characterization of a novel inducible mammalian galectin

A novel mammalian galectin cDNA (ovgal11) was isolated by representational difference analysis from sheep stomach (abomasal) tissue infected with the nematode parasite, Haemonchus contortus. The mRNA is greatly up-regulated in helminth larval infected gastrointestinal tissue subject to inflammation and eosinophil infiltration. Immunohistological analysis indicates that the protein is localized in the cytoplasm and nucleus of upper epithelial cells of the gastrointestinal tract. The protein is also detected in mucus samples collected from infected abomasum but not from uninfected tissue. The restricted and inducible expression of ovgal11 mRNA and limited secretion of the protein support the hypothesis that OVGAL11 may be involved in gastrointestinal immune/inflammatory responses and possibly protection against infection.

Characterisation of proteases involved in egg hatching of the sheep blowfly, Lucilia cuprina

A number of proteases were identified in the egg shell washings (ESW) collected during the egg hatching of Lucilia cuprina (sheep blowfly). Characterization of these proteases indicated a pH optima in a similar pH range that was optimal for L. cuprina egg hatching. Mechanistic characterization of these proteases indicated that they were predominantly of the serine class. Several protease inhibitors were tested for their ability to inhibit L. cuprina egg hatching in vitro. Egg hatching was significantly (P<0.05) inhibited by PMSF (61%), 1,10-Phenanthroline (42%) and Pepstatin (29%). The inhibition of egg hatching by PMSF showed a strong concentration dependence, with its effects ranging from inhibition at high concentrations to enhancement of egg hatching at low concentrations. Addition of ESW to unhatched eggs, significantly (P<0.05) enhanced their rate of hatching above untreated control eggs. This enhancement of egg hatching was significantly (P<0.05) reversed by the protease inhibitors Elastatinal (40%), 1,10-Phenanthroline (40%) and PMSF (38%). These studies indicate a role for serine and/or metallo-proteases in facilitating L. cuprina egg hatch.

Cellular profiles in the abomasal mucosa and lymph node during primary infection with Haemonchus contortus in sheep

Cellular changes in the abomasal tissue and draining abomasal lymph nodes were examined after primary infection of lambs with Haemonchus contortus for 3, 5 or 27-36 days. Infection with H. contortus larvae resulted in a rapid and selective increase in the percentage of CD4(+) T-cells in the abomasal lymph node at 3 days post-infection (PI). By 5 days PI, the lymph node weight had increased two-fold; however, the percentage of lymphocyte populations in the abomasal lymph node resembled that seen in uninfected sheep. Lymph node weights remained at increased levels in the adult nematode infected sheep and down-regulation of B-cell surface markers (sIg and MHC Class II) was apparent in this group. Significant increases in the percentage of CD4(+) T-cells co-expressing MHC Class II, but not CD25, were observed in the larval infected groups except in adult nematode infected sheep. Increased numbers of eosinophils, CD4(+), gamma delta(+) T-cells and B-cells were found in the abomasal tissue by 5 days PI, but no further increases in these cell populations were observed in the adult nematode infected group. In contrast, the level of both lamina propria and intraepithelial mast cells observed in the abomasal mucosa was highest in the sheep carrying an adult nematode burden. These findings indicate that sheep are able to generate an early immune response to infection with H. contortus larvae, characterised by the activation of CD4 T-cells and B-cells in the draining lymph nodes and recruitment of eosinophils, CD4(+) and gamma delta-TCR,WC1(+) T-cells and B-cells in larval infected tissues. However, these changes do not seem to be maintained during infection with the adult parasite where increases in mast cell numbers dominate the local response, indicating that different parasite stages may induce distinct and possibly counteractive immune responses.

The immunobiology of gastrointestinal nematode infections in ruminants

The major gastrointestinal nematode parasites of ruminants all belong to the Order Strongylida and the family Trichostrongyloidea. Despite this close evolutionary relationship, distinct differences exist in the microenvironmental niches occupied by the developmental stages of the various parasites, which may account for the variable susceptibility of the different parasite species to the immune effector mechanisms generated by the host. In addition, different manifestations of resistance have been observed against the adult and larval stages of the same parasite species, and even against the same parasite stage. In particular, both rapid and delayed rejection of infective larval stages of gastrointestinal nematode parasites has been documented. This review will give an overview of the various manifestations of resistance to gastrointestinal nematode parasites of ruminants, as well as the immune mechanisms and antigens associated with the generation of immunity by the ruminant hosts to these parasites. In addition, a working model is provided aimed at reconciling most of the present knowledge on the different immune responses generated during infection with the various parasite rejection profiles. Extrapolation of these results to field conditions will need to take into account the variability imposed by seasonal changes and management practices, as well as the individual variability in immune responsiveness present in outbred animal populations.

Do eosinophils have a role in the killing of helminth parasites?

Eosinophils have been shown to be potent effector cells for the killing of helminth parasites in in vitro cultures. However, an in vivo role for eosinophils has been more difficult to establish. Early data showed close associations between eosinophils and damaged or dead parasites in histological sections, and significant correlations between resistance to parasites and the capacity to induce eosinophilia after infection. However, more recent studies, using mice that have reduced or increased eosinophil levels through targeting of the eosinophil-specific cytokine interleukin 5, have not unanimously supported an in vivo role for eosinophils in resistance to parasites. Here, Els Meeusen and Adam Balic review these studies and suggest a major role for the innate immune response in unnatural mouse-parasite models to explain some of the findings. They conclude that the data so far are consistent with a role for eosinophils in the killing of infective larval stages, but not adults, of most helminth parasites.

Experimental Ascaris suum infection in the pig: protective memory response after three immunizations and effect of intestinal adult worm population

The protective immune response to larval migration in pigs, with or without adult intestinal worm populations, 10 weeks after 3 weekly Ascaris suum inoculations, was studied in 45 pigs. Controlled adult worm populations were achieved by oral transfer of 10 adult worms to previously immunized pigs after anthelmintic drenching. A significant reduction in larval recovery from lungs on day 7, and small intestine on day 14, was observed in immunized pigs compared with previously uninfected control pigs after challenge inoculation. The strong anamnestic response to larval migration was characterized by blood eosinophilia and specific immune responses measured by peripheral blood enzyme-linked immunospot and immunosorbent assays using larval excretory-secretory products and adult body fluid as well as Western blotting with a panel of stage-specific A. suum antigens. Immune detection of a previously unreported 10 kDa band, specific to the L2 larval stage and egg hatch fluid, emerged in all pigs after challenge, while the major adult body fluid constituent, ABA-1, remained unrecognized. No significant effect of an intestinal adult worm burden on the larval recovery after a challenge inoculation or on the immune response before or after challenge inoculation could be detected. These results indicate that a significant protective memory immune response to A. suum challenge inoculation can be induced in pigs, and that this protective immunity is not significantly modulated by the presence of adult parasites in the gut.

Immunology of helminth infections, with special reference to immunopathology

Immune responses resulting in immunity to infection or disease, share the same basic humoral and cellular mechanisms. While immunity to helminth infection has evolved to mediate rapid elimination of the parasite, the strategies evolved by the parasites themselves aim to delay this rejection process and ensure the survival and distribution of their progeny. Ineffective or incomplete immunity results in persistence of parasites or their products within the host tissues, inappropriate or chronic stimulation by parasite antigens, hyper-reactivity and tissue damage or immunopathology. A long standing classification by Gell and Coombs identifies four major types of hypersensitivity responses accounting for most of the immunopathogenesis, three of which are mediated by antibody and one, delayed type hypersensitivity (DTH), by T cells. This paper aims to give a short review of these four classical hypersensitivity reactions with particular reference to infections of large animals with helminth parasites. In addition, in view of the functionally different helper T cell subsets now identified, the existing DTH response is redefined as DTH Type 1 (Th-1 mediated) and two new classes of T cell-dependent DTH responses are proposed; DTH Type II, associated with the Th-2 type cytokines IL-4 and IL-5 and eosinophilic granuloma formation, and DTH Type III, associated with IL-4 and TGF-beta and fibrosis. Finally, some implications of immunopathology on parasite control strategies are discussed.

Vaccination against the gastrointestinal nematode, Haemonchus contortus, using a purified larval surface antigen

Sheep were immunized with a purified antigen (Hc-sL3) expressed on the surface of L3 larvae of the gastro-intestinal parasite, Haemonchus contortus, using different adjuvant and immunization routes. In the first experiment, intradermal immunization of sheep with Hc-sL3 and QuilA did not result in reductions in faecal egg counts after subsequent challenge infection while significant reductions were obtained when aluminium hydroxide (AH) was used as the adjuvant. Significant protection with Hc-sL3 absorbed on AH was confirmed in a second experiment and this protection was maintained when dextran sulphate was added to the Hc-sL3/AH mixture while the addition of pertussis toxin abrogated the protective effect. Significant levels of protection, as determined by reductions in both faecal egg counts and worm burdens, were also obtained when the Hc-sL3/AH mixture was injected into the rectal mucosa or the Hc-sL3 antigen was deposited on the surface of the rectal mucosa with cholera toxin. No correlations with antibody levels or isotype and protection were observed.

Progress and expectations for helminth vaccines

The large amount of scientific progress made in the last 5 years has allowed a more rational approach to the design of nematode vaccines to develop. Successful experimental trials have been published using two different approaches, one aiming to boost acquired host immunity through vaccination with natural immunogens, the other affecting parasite viability by targeting parasite molecules crucial for nutrition or survival in the host. The individual or combined action of these two vaccination procedures will need to be evaluated with respect to their potential effects on animal health and productivity in the field. To this effect, more data are required concerning the level and duration of immunity of the vaccine-induced protection using acceptable adjuvant systems. In addition, the age at which vaccination is effective and the effect of vaccination on highly susceptible or temporarily immunosuppressed individuals will need to be considered. In the case of gastrointestinal nematodes, the level of pasture contamination with infective larvae is dependent on the worm burdens in the host animal and, in turn, affects the buildup of natural resistance in the host. An appreciation of these complex interactive factors is best achieved through computer simulation models using the powerful simulation software that has recently become available. Further animal trials will need to be performed to establish the necessary data to incorporate into the models and to adapt the model outcomes to the trial results. These epidemiologic and simulation studies should be pursued in parallel with vaccine development so that a better appreciation is gained of the requirements of a successful commercial vaccine.

Effects of pregnancy on lymphocytes within sheep uterine interplacentomal epithelium

PROBLEM

Previous studies demonstrate increases in the number and granularity of gamma delta T cells within the sheep uterine interplacentomal epithelium during pregnancy. To further characterize their activation and function, gamma delta T-cell receptor (TCR)+ intraepithelial lymphocytes (IELs) from nonpregnant and pregnant uteri were phenotyped extensively. Cytokine mRNA expression in the epithelium and by gamma delta TCR+ IELs isolated from pregnant uteri was also examined.

METHOD OF STUDY

Cell suspensions were prepared from the uterine interplacentomal epithelium and from the peripheral blood of nonpregnant and pregnant ewes (120-140 days of gestation). Surface marker expression was determined by two-color flow cytometry and cytokine expression determined by reverse transcriptase--polymerase chain reaction.

RESULTS

Uterine gamma delta TCR+ IELs exhibited increased beta 1-integrin expression but decreased leukocyte function associated antigen (LFA)-1 and major histocompatibility complex class I expression during pregnancy. Major histocompatibility complex class II, CD44, CD2, and LFA-3 expression was unchanged during pregnancy, whereas CD25, VLA-4 and L-selectin were never expressed. The same cytokines were expressed in the pregnant and nonpregnant uterine interplacentomal epithelium with detectable mRNA for interferon (IFN)-gamma, tumor necrosis factor (TNF)-alpha, and interleukin (IL)-1 alpha, but not for IL-2 or IL-4. gamma delta TCR+ and CD8+ IEL purified from pregnant uteri expressed mRNA for IFN-gamma, TNF-alpha, transforming growth factor-beta, and IL-10.

CONCLUSIONS

gamma delta TCR+ IELs from pregnant uteri have cytoplasmic granules, and express CD8 and cytokines indicative of cytotoxic potential. Phenotypic changes induced during pregnancy differed from those observed after activation of circulating naive cells and may represent further stimulation of fully differentiated effectors. gamma delta TCR+ IELs are present only in interplacentomal areas of pregnant uteri and may control trophoblast invasion within these areas.

Lymphocyte surface marker and cytokine expression in peripheral and mucosal lymph nodes

Lymphocyte populations, adhesion molecule and cytokine expression were determined in lymph nodes draining peripheral (popliteal and prescapular) or mucosal (abomasal and jejunal) tissue sites using flow cytometry analysis, immunostaining and cytokine-specific reverse-transcription-polymerase chain reaction (RT-PCR). Similar proportions of lymphocyte subpopulations were present in all lymph nodes except for immunoglobulin A+ (IgA+) B cells which were only present in significant numbers in the gastrointestinal lymph nodes. Peripheral lymph nodes contained a significantly higher number of CD4+ cells expressing L-selectin and beta 1-integrin than mucosal lymph nodes while the alpha 4-integrin chain was expressed at similar levels in all lymph nodes. The peripheral node adressin recognized by the MECA 79 monoclonal antibody (mAb) was mainly expressed on peripheral lymph node vessels. RT-PCR analysis showed that interleukin (IL)-10 and IL-4 were preferentially induced in the gastrointestinal lymph nodes while IL-2 and interferon-gamma (IFN-gamma) were induced in all lymph nodes after polyclonal stimulation. These results indicate that there are substantial differences in the cell populations and microenvironments of lymph nodes draining mucosal and peripheral tissue sites in adult sheep.

Differential migration of Th1 and Th2 cells--implications for vaccine and infection studies

Most lymphocytes migrate continuously between the blood and lymphatic system. This migration does not occur randomly and shows some bias for specific tissue compartments. In particular, CD4+ memory T cells have been shown to preferentially migrate to either peripheral or mucosal lymph nodes depending on their site of origin. The selective migration of lymphocytes into lymph nodes is facilitated by the differential expression of adhesion molecules on the lymphocyte surface interacting with their respective ligands on endothelial cells lining the capillary vessels. The acquisition of these 'mucosal' or 'peripheral' homing receptors was thought to be dictated by the particular tissue site in which lymphocyte were activated. A large amount of recent experimentation has shown that memory T cells generated against infectious agents can have different functional phenotypes as determined by their cytokine secretion patterns. Two of these distinct functional phenotypes. Th1 and Th2 cells, are differentially induced in peripheral and mucosal lymph nodes and recent data has suggested that the observed tissue-specific migration of memory T cells may be determined by this functional phenotype rather than the site of activation. Data in support of this new hypothesis are presented in this paper. In addition, as both the functional and surface phenotype of lymphocytes is dependent on local hormonal and cytokine environments, lymphocyte migration patterns may be manipulated by vaccination and infection.

Eosinophil-mediated killing of Haemonchus contortus larvae: effect of eosinophil activation and role of antibody, complement and interleukin-5

Eosinophils have previously been shown to accumulate around the tissue invasive (L3) stage of sheep gastrointestinal parasites in vivo. In this study, eosinophils obtained from mammary washes of sheep, were shown to immobilize and kill H. contortus larvae in vitro in the presence of antibody specific against a defined L3 surface antigen. Eosinophils obtained from sheep primed by repeated infusion of H. contortus larvae were more effective than eosinophils obtained after a single infusion of parasite extract in Fasciola hepatica infected ewes suggesting the former were activated in vivo. The level of larval immobilization in the presence of antibody was significantly increased when complement was added to cultures containing activated eosinophils. The addition of interleukin-5 to larval cultures containing antibody and complement resulted in a significant increase in larval immobilization with unactivated eosinophils suggesting that eosinophil effector function is enhanced following priming with this cytokine. Ultrastructural analysis of the eosinophil/larvae interaction at 6 h of incubation revealed degranulation of adhering eosinophils onto the surface of larvae. By 24 h of incubation, many larvae showed signs of damage and most eosinophils had degenerated. These results suggest that eosinophil-mediated killing may be an effector mechanism for the elimination of L3 H. contortus larvae in immune sheep.

cDNA cloning of galectins from third stage larvae of the parasitic nematode Teladorsagia circumcincta

A monoclonal antibody raised to a Teladorsagia circumcincta 31-33 kDa doublet antigen was used to immunoscreen a T. circumcincta cDNA expression library. Sheep antibodies eluted from the proteins expressed by two clones immunopositive with the monoclonal antibody specifically recognised the doublet antigen on Western blots of third stage larval extract, confirming that these clones coded for the antigen. Database searches revealed high levels of similarity with beta-galactoside-binding lectin-like proteins (Ga1BPs or galectins) from Caenorhabditis elegans and Onchocerca volvulus. By analogy with these sequences, both T. circumcincta cDNA clones contain the full-length protein coding region. The native doublet proteins could be preferentially extracted from homogenates of third stage larvae with lactose and could be affinity purified on an asialofetuin column, confirming the identity of these bands as galectins. Reverse transcriptase-polymerase chain reaction amplification using a primer based on the C. elegans Spliced Leader SL1 sequence showed that the corresponding T. circumcincta mRNAs are also trans-spliced at their 5' ends. While there are considerable nucleotide differences between the two clones, the majority are located in the non-coding regions. Within the coding region there are 87 nucleotide differences but only three of these result in amino acid substitutions.

An in vivo mammary infusion model for tissue migration of leucocytes during inflammation

Infusion of LPS or nematode larvae into the mammary glands of sheep induces recruitment of neutrophils or eosinophils respectively. While neutrophil recruitment required only a single infusion of LPS, repeated infusions of parasite larvae were required to induce significant eosinophil migration into the lumen of the glands. Eosinophil recruitment was accompanied by a distinct population of lymphocytes consisting mainly of activated (MHC class II and CD25+) T cells. L-selectin was expressed at reduced levels on both neutrophils and eosinophils collected from the mammary gland compared with cells present in the blood of the same sheep. In addition, VLA-4 and beta 1-integrin were down-regulated or negative in mammary eosinophils compared with strong expression in the blood while neutrophils were negative for these markers in both mammary washes and blood. Eosinophils in blood and mammary glands were negative for MHC class II, CD25 and CD4. Mast cells and lymphocyte aggregates were present in the tissue of glands chronically stimulated with parasite larvae while eosinophils were only present if the gland had been recently stimulated. These studies show that detailed in vivo analysis of leucocyte migration can be easily performed in the sheep mammary infusion model which allows non-invasive and repeated sampling of inflammatory cells before and after tissue migration.

Vaccination of sheep against larvae of the sheep blowfly (Lucilia cuprina)

Four first stage larval antigens from the sheep blowfly were identified using supernatants from cultures of antibody secreting cells. These partially purified larval antigens, when added to Montanide ISA-25 containing recombinant ovine IL-1 beta (rovIL-1 beta) were used to successfully vaccinate sheep against larvae of the sheep blowfly. Significantly less strikes were recorded on vaccinated sheep compared to controls (P < 0.033) with surviving larvae from vaccinated sheep up to 85% smaller than larvae from control sheep. RovIL-1 beta was found to be an important component of the vaccine. Vaccinated sheep showed both humoral and cellular immune responses to the larval antigens. Antibody levels generally correlated directly with delayed-type hypersensitivity (DTH) responses, but neither antibody nor DTH correlated positively with protection in vaccinated sheep. Skin sections removed from individual sheep immediately after challenge revealed aggregations of CD4+, gamma delta-TCR+ and CD1+ cells located directly under the epidermis in vaccinated sheep.

Cytokines as adjuvants for ruminant vaccines

Successful vaccination against any potential pathogen is critically dependent on inducing an appropriate immune response. The pivotal role of cytokines in the immune response to vaccination suggests that non-protective responses or responses that exacerbate disease subsequent to infectious challenge may be the result of limiting or preferential production of one or a number of these mediators. This suggests that the use of recombinant cytokines as vaccine adjuvants may offer a mechanism whereby the magnitude and phenotype of the immune response to vaccination can be specifically modified. In mice, recombinant cytokines have been used extensively as therapeutics, while studies describing vaccine adjuvant activity are more limited. Recombinant (r) interleukin (IL)-1, IL-2 and interferon (IFN) gamma have been used primarily to enhance humoral responses with enhanced protection assessed where appropriate. Cytokine adjuvant studies in ruminants have been restricted to recombinant ovine (rov) and bovine (rbov) IL-1 and IL-2. In sheep, their application has been optimised with respect to dose, route of delivery and formulation, for induction of humoral and cell mediated immunity (DTH and cytotoxicity) to the model protein antigen (Ag) avidin. The level of adjuvant activity of IL-1 in particular compares favourably to that of a variety of other traditional and new chemical adjuvants and detailed analysis has indicated no adverse local or systemic side-effects. Recent studies in our laboratory demonstrating the effectiveness of rovIL-1 as an adjuvant in single and multi-component bacterial toxoid vaccines, and studies from other laboratories demonstrating the application of rbovIL-1 as an adjuvant for the response in cattle to live attenuated viral vaccines, suggest that rIL-1 may become the adjuvant of choice for diseases where protection is mediated by high levels of circulating antibody (Ab). With respect to helminth parasites, IL-1 may prove useful as a component of vaccines based on "hidden Ags" which rely on induction of Ab. Based on analysis in mouse models of helminth infection, other cytokines such as IL-4 and IL-10 may be appropriate for vaccines based on induction of mechanisms involved in natural immunity.

Rational design of nematode vaccines; natural antigens

Bacterial and viral vaccines have been used for several decades and have made an invaluable impact on the control of both human and animal diseases. As these vaccines are based on the induction of the "natural" protective immune response of the host, there is ample proof that this approach is effective and there is no a priori reason why a similar approach should not work for other infectious organisms, including helminth parasites. Two main stumbling blocks have so far precluded the development of effective anti-nematode vaccines: (i) the identification and isolation of the protective parasite antigens; and (ii) the induction of the appropriate protective immune effector mechanisms through vaccination. This paper will discuss the unique characteristics of nematode vaccine development and the significant progress that has been made in recent years in this area.

Developmentally regulated expression of a Haemonchus contortus surface antigen

All life cycle stages of Haemonchus contortus were screened with antibody-secreting cell (ASC) probes generated from immune sheep 5 days after a challenge infection. An antigen with an approximate molecular weight of 70-90 kDa was found to be predominantly expressed in the 3rd-stage larvae, while a molecule with an approximate molecular weight of 28-31 kDa was recognised by the ASC-probes in the earlier developmental stages. Antisera generated against the purified 70-90 kDa molecule and antibodies eluted from the 70-90 kDa region in the 3rd-stage larvae were found to react with the 28-31 kDa region in the 2nd-stage larvae. These results suggest that the 70-90 kDa antigen, previously identified as a major 3rd-stage surface antigen, is synthesised as a lower molecular weight molecule in the earlier larval stages and assembled into a higher molecular weight complex through non-reducible covalent bonds.

Distribution of antigen specific memory T cells in lymph nodes after immunization at peripheral or mucosal sites

The distribution of antigen-specific memory T cells in different lymph nodes of sheep was determined using an antigen-specific in vitro proliferation assay. Lymph nodes were collected from sheep immunized simultaneously with avidin or ovalbumin in a peripheral tissue site (hind leg muscle) and keyhole limpet haemocyanin (KLH) in an intestinal tissue site (gut wall or colonic mucosa). The results showed a consistently high proliferative response in typical peripheral lymph nodes (popliteal and prescapular) and a low or negative response in gastrointestinal lymph nodes (abomasal and jejunal) while the response in other nodes was variable. The low proliferative response in the gastrointestinal lymph nodes was not due to the presence of suppressor CD8- lymphocytes and the proliferative response could not be raised to peripheral lymph nodes levels with the addition to cultures of IL-2 or mitomycin-C treated peripheral lymph node cells. The high proliferative response in the peripheral lymph nodes was not suppressed by the addition of mitomycin-C-treated gastric lymph node cells but was dramatically reduced by the addition of mAb against the IL-2-receptor or by depletion of CD4- T cells. The results suggest that antigen-specific proliferative memory T cells, which may be Th1-like memory cells, preferentially migrate to peripheral lymph nodes independent of their site of induction.

Characterization of ES products involved in wound initiation by Lucilia cuprina larvae

Excretory/ secretory (ES) products were collected up to 6 h after egg hatch and analysed by SDS-PAGE. The larvae produced a complex array of molecules, the pattern of which changed dramatically over the time of culture. When larvae were cultured on isolated sheep skin, skin degradation was found to occur immediately upon egg hatch with digestion of the available soluble skin molecules virtually complete within 6 h of culture. Proteolytic activity of the larval ES products was assessed by gelatine substrate SDS-PAGE gels and revealed numerous secreted proteases, the majority of which belong to the serine class of protease. Several of these proteases appeared to be developmentally regulated including a 28 kDa protease which was secreted only during the time of egg hatch. Metabolic labelling experiments indicated that culture conditions can influence the production of ES products with larvae cultured in the absence of sheep skin producing greater amounts and numbers of specific proteins.

Fasciola hepatica: rapid switching of stage-specific antigen expression after infection

Early developmental stages of the trematode parasite Fasciola hepatica were collected from the peritoneal cavity and liver of mice during a ten day infection period. Using one dimensional SDS-PAGE, differences in protein expression profiles were observed in stages collected on the same day post-infection in different physiological locations and also in juvenile parasites collected from the same location on different days post-infection. Four rat monoclonal antibodies were raised against the parasite using lymph nodes draining infected tissues. Three monoclonal antibodies, FY3-1, FY3-2 and FY4-7, were generated using cells from the mesenteric lymph node of recently challenged immune rats, while FY1-6 was derived from hepatic lymph node cells of a chronically infected rat. The epitope recognized by FY3-2 appeared to be carbohydrate in nature and was present on the surface of newly excysted juveniles. Immunoblots revealed that the antigens recognized by FY3-1, FY3-2 and FY4-7 were only expressed for two days after infection. In contrast, FY1-6 recognized epitopes expressed across all developmental stages screened. The rapid changes in protein and antigen expression observed during the early stages of infection may assist the parasite to evade the host immune response.

Antibody secreting cells as specific probes for antigen identification

Parasite specific antibody probes were prepared by harvesting lymphocytes from infected tissue and incubating them in vitro to allow the spontaneous secretion of antibodies in the culture medium by antibody secreting B cells present in the lymphocyte cultures. The culture supernatant was then used to screen Western blots of parasite antigens and resulted in the detection of antigens specific for the parasite stages present in the tissue at the time of sampling. Similar antigen recognition patterns were also observed when the cells were taken from the draining lymph nodes but the same pattern was not observed with serum taken from the same animal. The use of antibody probes obtained from in vivo induced antibody secreting B cells (ASC probes) offers a unique and universal approach to study local antibody recognition during infection.

Identification of a novel antigen from Corynebacterium pseudotuberculosis that protects sheep against caseous lymphadenitis

A 40-kDa protein antigen from Corynebacterium pseudotuberculosis has been identified by application of a strategy that employs locally derived antibody-secreting cells (ASC). ASC probes generated by culture of ASC obtained from the lymph node draining the site of infection showed a specificity restricted to a 40-kDa antigen. Analysis of immunoblots with sequential serum samples taken from sheep during the course of experimental primary infection with C. pseudotuberculosis also revealed the 40-kDa antigen as an early immunodominant antigen. Sheep vaccinated with two 100-micrograms doses of a 40-kDa antigen preparation in aluminium hydroxide adjuvant were protected against infection with C. pseudotuberculosis, with an 82% reduction in the proportion of infected sheep and a 98% reduction in lung lesions. Sera from vaccinated sheep exhibited a strong response only to the 40-kDa antigen on immunoblots. These results strongly suggest that the 40-kDa antigen plays a major role in immunity to caseous lymphadenitis.

The immune response of sheep infected with larvae of the sheep blowfly Lucilia cuprina monitored via efferent lymph

Changes in lymphocyte traffic in efferent lymph from the prescapular lymph node of sheep were monitored during local primary and secondary infection with blowfly, Lucilia cuprina. During primary infections the response was characterised by an increase in the output of CD4+ T cells over CD8+ T cells for the first 48 h after wound initiation. By 72 h the output of CD8+ T cells exceeded that of CD4+ T cells. During secondary infections the increased output of CD8+ T cells was more pronounced and occurred earlier at approximately 48 h. The percentage of B lymphocytes as measured by sIg, CD45R and MHC class II expression increased at approximately 96-120 h after both primary and secondary infections, with the secondary response being greater than the primary. This increase in B cells corresponded with peak antibody titres recorded in the efferent lymph to a first instar antigen preparation as measured by ELISA. An increase in IFN-gamma and soluble IL-2 receptor was recorded after both primary and secondary infections, with the response after secondary infection being greater than that recorded after primary larval infections.

Recombinant cytokines as immunological adjuvants

This paper describes the bacterial expression and purification of bioactive recombinant ovine interleukin-2 (rovIL-2), interleukin-1 alpha (rovIL-1 alpha) and tumour necrosis factor alpha. These purified proteins had specific activities in appropriate bioassays of 1 x 10(7) 1 x 10(7) and 1 x 10(5) U/mg, respectively. Recombinant ovIL-1 alpha was assessed as an immunological adjuvant for the sheep response to the model protein avidin. When delivered either intradermally or intramuscularly in conjunction with avidin in aluminium hydroxide the rovIL-1 alpha significantly enhanced the secondary humoral response. Doses of 1, 10 or 100 micrograms per sheep enhanced the humoral response to a similar extent. Recombinant ovIL-1 beta had similar adjuvant activity in that it was demonstrated to significantly enhance the sheep humoral response to an experimental H. contortus antigen. This increase in specific antibody, however, did not correlate with enhanced protection against infection with third stage H. contortus larvae. In addition incorporation of rovIL-1 beta into the formulation was shown not to alter the isotype profile of H. contortus antigen specific antibody.