J.B.W.J. Cornelissen

The role of rodents and shrews in the transmission of Toxoplasma gondii to pigs

Inadequate rodent control is considered to play a role in Toxoplasma gondii infection of pigs. This issue was addressed in the current study by combining a 4-month rodent control campaign and a 7-month longitudinal analysis of T. gondii seroprevalence in slaughter pigs. Three organic pig farms with known rodent infestation were included in the study. On these farms, presence of T. gondii in trapped rodents was evaluated by real-time PCR. All rodent species and shrews investigated had T. gondii DNA in brain or heart tissue. Prevalence was 10.3% in Rattus norvegicus, 6.5% in Mus musculus, 14.3% in Apodemus sylvaticus and 13.6% in Crocidura russula. Initial T. gondii seroprevalence in the slaughter pigs ranged between 8% and 17% and dropped on the three farms during the rodent control campaign to 0-10%, respectively. After 4 months of rodent control, T. gondii infection was absent from pigs from two of the three farms investigated and appeared again in one of those two farms after the rodent control campaign had stopped. This study emphasizes the role of rodents and shrews in the transmission of T. gondii to pigs and the importance of rodent control towards production of T. gondii-free pig meat.

An experimental study on triclabendazole resistance of Fasciola hepatica in sheep.

The efficacy of triclabendazole in sheep experimentally infected with Fasciola hepatica was studied. Two groups of 12 lambs were infected with a susceptible (S) or a resistant (R) strain of F. hepatica. Eight weeks after infection, six lambs of each group (ST and RT) were treated with triclabendazole (10mg/kg). The other lambs were used as untreated controls (SC and RC). The parameters studied were: GLDH, gamma-GT, ELISA measuring antibodies against recombinant cathepsin-L(1) and eggs per gram faeces (epg). The lambs were slaughtered 16 weeks after infection and the number of flukes counted. The GLDH, gamma-GT levels and the OD value of the ELISA decreased as a result of the treatment in group ST. Patent infections were observed in all animals of groups SC, RT and RC. In group ST, occasionally a few eggs were found in five lambs. The percentage of flukes was 31.3 in SC and 37.6 in RC. In the treated groups ST and RT, the percentage of flukes was 0.06 and 33.6, respectively. These results corresponded to efficacies of 99.8% in the susceptible and 10.8% in the resistant strain. Since the resistant strain was isolated from a mixed cattle and sheep farm, it confirms the presence of triclabendazole resistance in the Netherlands.

Nematode parasites of adult dairy cattle in the Netherlands

Abomasa, blood samples and faecal samples for examination of nematode infections were collected from 125 dairy cows during the period November 1997-October 1998. Of these, 12 had no grazing history and were, therefore, excluded from this study. From the remaining 113, 88.5% had nematode eggs in the faeces. Larval identification of the positive cultures showed that Ostertagia spp. larvae were most frequent (97%), followed by Trichostrongylus spp. (29%), Oesophagostomum spp. (23%), Cooperia punctata (20%), Cooperia oncophora (4%), Haemonchus contortus (2%) and Bunostomum phlebotomum (1%). The geometric mean EPG was 2.4. Two cows excreted larvae of Dictyocaulus viviparus (0.1 and 0.6 LPG resp.). Worms were found in the abomasa of 108 cows (96%). In all these abomasa Ostertagia spp. was present (100%). Trichostrongylus axei was found in 47 abomasa (43.5%) and two cows (2%) were infected with Capillaria bovis. The geometric mean of the total abomasal worm counts was 1743 and of Ostertagia spp. alone 1615. Almost all male worms were Ostertagia ostertagi, only occasionally Skrjabinagia lyrata10,000) total worm burden. Ostertagia specific antibodies were highest in late summer and autumn and lowest in spring and early summer. The same pattern, although not so pronounced, was observed for the serum pepsinogen values. No clear seasonal pattern was found for the Cooperia specific antibodies. Antibodies against D. viviparus were detected in seven cows (6%).

Use of a pre-selected epitope of cathepsin-L1 in a highly specific peptide-based immunoassay for the diagnosis of Fasciola hepatica infections in cattle.

A peptide-based indirect ELISA to detect cattle antibodies against Fasciola hepatica was developed and evaluated for its sensitivity and specificity. An immunogenic antigen released in vitro by F. hepatica was purified. After purification the sequence of the first 20 N-terminal aa of this protein showed considerable homology with cathepsin L-like proteinase. Based on its homology with cathepsin-L1, we further focused on this protein for diagnostic purpose. Predicted B-cell epitopes of cathepsin-L1 were synthesised as single synthetic peptides and tested with respect to their diagnostic potential. An indirect ELISA based on one of these peptides was (i) evaluated further and (ii) compared to the potential of an indirect ELISA with excretion/secretion antigens from adult F. hepatica, or (iii) purified cathepsin-L1. Specificity and sensitivity of the three ELISAs were assessed using sera from calves experimentally infected with pure isolates of Dictyocaulus viviparus, Ostertagia ostertagi, Cooperia oncophora, Nematodirus helvetianus, Schistosoma mattheei, Ascaris suum, Taenia saginata or F. hepatica, respectively, and sera from parasite-naive calves. In addition, sera were analysed from calves naturally infected with F. hepatica. The sensitivities of all three ELISAs were also very high, 98.9% (i), 100% (ii) and 100% (iii). The specificity of the peptide ELISA was very high, 99.8%, whereas specificities of the ES antigens and cathepsin-L1 ELISAs were only 82.8% and 94.6%. In experimentally infected cattle, F. hepatica-specific antibodies were first detected between days 21 and 28 p.i. with all three ELISAs, and the antibody levels persisted in the peptide ELISA until day 183 p.i. All sera from naturally infected calves were positive in the peptide ELISA. These results demonstrate that the peptide-based F. hepatica ELISA is a useful method for detecting antibodies in the sera from cattle infected with F. hepatica. This type of immunodiagnostic will therefore contribute to more accurate diagnosis and to timely curative treatment of animals.

Host response to simultaneous infections with Eimeria acervulina, maxima and tenella: A cumulation of single responses

It is well known that broilers may be infected by different Eimeria strains at the same time and that different species infect specific parts of the gut. Cell mediated responses play a major role in the immune response in broilers after infection with Eimeria species. The cell mediated responses could be intestinal site specific and if this site specific cell mediated responses differ when other parts of the intestine are infected is unknown. To investigate this in the Eimeria infection model we analyzed the cell mediated responses to an infection with a single Eimeria species and with a mixture of different species of Eimeria such as E. acervulina, E. maxima or E. tenella in the duodenum, jejunum and caecum. The immune parameters we measured were intestinal T-cell and macrophage population dynamics as well as local cytokine mRNA expression. These parameters were related to the amount of Eimeria DNA that was measured in the intestine with an Eimeria strain specific quantitative PCR. The results showed that the strongest immune response was induced in the specific part of the intestine that was affected by each Eimeria strain. An E. acervulina infection mainly induced a duodenal CD8(+) T-cell and macrophage response as well as an increased IL-2, IL-4, IL-8, IL-10, and INF-gamma response. An E. maxima infection mainly induced a CD4(+) T-cell and macrophage response but also an increased IL-4, IL-8, and very strong INF-gamma (300-fold) expression in duodenum and jejunum. E. tenella induced a CD4(+) T-cell, macrophage response and an increase in the IL-2, IL-4, IL-8, IL-10, IL-18 and INF-gamma response in the caecum. The infection with a mixture of Eimeria species resulted in responses per intestinal segment that were similar to that observed following the single species infection. No synergistic or competitive effects were thus observed following a primary infection with a mixture of Eimeria species. In contrast, we observed an accumulation of the local effects of the single infections.

Highly pathogenic or low pathogenic avian influenza virus subtype H7N1 infection in chicken lungs: small differences in general acute responses

Avian influenza virus can be divided into two groups, highly pathogenic avian influenza virus (HPAI) and low pathogenic avian influenza virus (LPAI) based on their difference in virulence. To investigate if the difference in clinical outcome between LPAI and HPAI in chickens is due to immunological host responses in the lung within the first 24 hours post infection (hpi), chickens were infected with LPAI or HPAI of subtype H7N1. Virus was found in the caudal and cranial part of the lung. With LPAI, virus was localised around the intrapulmonary bronchus and secondary bronchi. In sharp contrast, HPAI was detected throughout the whole lung. However, based on viral RNA levels, no quantitative difference was observed between LPAI and HPAI infected birds. In infected areas of the lungs, an influx of CD8α+ cells as well as KUL01+ macrophages and dendritic cells (DC) occurred as fast as 8 hpi in both infected groups. No major difference between LPAI and HPAI infected birds in the induction of cytokines and interferons at mRNA level in lung tissue was found.In conclusion, the differences in lethality for chickens infected with LPAI or HPAI could be ascribed to difference in location of the virus. However similar amounts of viral RNA, similar cytokine mRNA levels, and similar influxes of CD8α+ and KUL01+ macrophages and DC were found between HPAI and LPAI in the lungs. A cytokine storm at mRNA level as described for mammals was not observed in the lungs of HPAI infected birds within 24 hpi.

Evaluation of an ELISA for the routine diagnosis of Dictyocaulus viviparus infections in cattle

An enzyme-linked immunosorbent assay (ELISA) that detects antibodies against Dictyocaulus viviparus in experimentally and naturally infected cattle was evaluated for its sensitivity, specificity, the moment of seroconversion and persistence of the anti-D. viviparus response and precision. The first three parameters were compared with those of an indirect haemagglutination assay (IHA). Specificity and sensitivity of both assays were assessed in sera collected from calves experimentally infected with pure isolates of D. viviparus, Ostertagia ostertagi, Cooperia oncophora, Nematodirus helvetianus, Ascaris suum or Fasciola hepatica, and from parasite-naive calves. The specificity of both the ELISA and IHA was very high, 99.2% and 99.6%, respectively. The sensitivity of the ELISA (100%) was significantly higher than that of the IHA (78.1%). In experimentally infected cattle, D. viviparus-specific antibodies were first detected with the ELISA between days 28 and 42 post-infection (p.i.), whereas the IHA only became positive between days 42 and 70. With the ELISA, antibody levels persisted until day 168 p.i. The IHA remained positive until the end of the experiment (day 196). None of the vaccinated animals were seropositive with the ELISA, whereas 25% of the calves were seropositive with the IHA. The seroprevalence of D. viviparus infections was determined in a field study with 467 sera from cattle of 64 herds; 227 (48.6%) of the animals were seropositive with the ELISA whereas only 38 (8.1%) scored positive with the IHA. To determine the precision of the ELISA, a total of five laboratories participated in trials, in which panels of strong positive, positive, and weak positive candidate sera were tested blind according to an international (International Standard ISO 5725, 1986) standard procedure. The repeatability and reproducibility of the ELISA were 0-16% and 14-26%, respectively. After these promising results it was decided to introduce this ELISA in 1995 as a routine test in all Animal Health Services in the Netherlands, replacing the IHA and faecal examinations for lungworm.

Protection against Fasciola hepatica in the intestine is highly correlated with eosinophil and immunoglobulin G1 responses against newly excysted juveniles

Rats were infected with Fasciola hepatica and challenged at regular intervals up to 38 weeks using an ex vivo gut loop, a technique developed in our laboratory. The kinetics of the observed immune responses against F. hepatica in gut tissue and serum were investigated and correlated to protection. Immunohistochemical methods were used to measure the frequency of eosinophils, immunoglobulin (Ig)E‐positive cells, and mucosal mast cells in the gut loop, and to determine whether the newly excysted juveniles were coated with IgG antibodies or surrounded by eosinophils, or both. Enzyme‐linked immunosorbent assays and a radioimmuno assay were used to measure serum antibody reactive with newly excysted juveniles. Results showed that protection was highly correlated with the frequency of eosinophils and IgE‐positive cells in the gut, but was only moderately correlated with the frequency of mucosal mast cells. Newly excysted juveniles taken from rats exhibiting high levels of protection were always coated with IgG antibodies and surrounded by eosinophils. Protection was highly correlated with titers of serum IgG1 antibodies directed against newly excysted juveniles, but was only weakly correlated with titers of serum IgA and IgE antibodies. Because protection was highly correlated with IgG1 in gut tissue and serum, and with eosinophils in gut tissue, we suggest that IgG1 and eosinophils are important in protecting rats against F. hepatica.

Protection to Fasciola hepatica in the gut mucosa of immune rats is associated with infiltrates of eosinophils, IgG1 and IgG2a antibodies around the parasites

We investigated the immune effector mechanisms that underlie protection against F. hepatica in the gut wall of immune rats, using (immuno)histochemistry. In the lamina propria of immune Wistar rats, four weeks after oral infection, frequencies of IgE‐positive cells, eosinophils and mucosal mast cells were significantly increased, compared with naïve rats. These factors represent the traditional effector mechanisms against helminths. No significant differences were detected between the two groups in frequencies of IgM‐, IgG2a‐, IgG1‐ and IgA‐ positive cells, CD4‐ and CD8‐positive cells, NK cells, macrophages, neutrophils or goblet cells. Upon challenge of immune rats with F. hepatica in an ex vivo gut segment, NEJs that migrated through the (sub)mucosa were coated with IgG1 and IgG2a antibodies and surrounded by eosinophils. No IgE or IgA antibodies were detected on the parasites. The onset of these immune effector responses, two h after challenge, was related to the expression of protection. These results suggest that NEJs are killed by an eosinophil‐mediated cytotoxic response involving IgG antibodies. These antibodies were not produced in the intestine, but infiltrated the gut upon challenge. The observed immune effector responses were not restricted to the site where the primary infection is located, namely the small intestine, but were also detected in the large intestine. The presence of the protective immune mechanisms in two other rat strains demonstrates the pivotal importance of these responses, irrespective the genetic background of the host.

Differential innate responses of chickens and ducks to low-pathogenic avian influenza

Ducks and chickens are hosts of avian influenza virus, each with distinctive responses to infection. To understand these differences, we characterized the innate immune response to low-pathogenicity avian influenza virus H7N1 infection in chickens and ducks. Viral RNA was detected in the lungs of chickens from day 0.8 to 7, in ducks mainly at day 4. In both species, viral RNA was detected in the bursa and gut. Infection in chickens resulted in up-regulation of interferon (IFN)-α and IFN-β mRNA, while in the ducks IFN-γ mRNA was strongly up-regulated in the lung and bursa. In chickens and ducks, all investigated pathogen recognition receptor (PRR) mRNAs were up-regulated; however, in the chicken lung Toll-like receptor (TLR)7 and melanoma differentiation-associated protein (MDA)-5 mRNA were strongly induced. TLR3, TLR7 and MDA-5 responses correlated with IFN-α and IFN-β responses in chickens, but in ducks a correlation between IFN-α and TLR7, retinoic acid-inducible gene-I and MDA-5 was absent. We studied the responses of duck and chicken splenocytes to poly(I:C) and R848 analogues to analyse the regulation of PRRs without the interfering mechanisms of the influenza virus. This revealed IFN-α and IFN-γ responses in both species. MDA-5 was only strongly up-regulated in chicken splenocytes, in which time-related PRR responses correlated with the IFN-α and IFN-β response. This correlation was absent in duck splenocytes. In conclusion, chickens and ducks differ in induction of MDA-5, TLR7 and IFN-α mRNA after an influenza virus infection in vivo and after in vitro stimulation with TLR antagonists.