Vesna Melkebeek

ETEC vaccination in pigs

Enterotoxigenic Escherichia coli (ETEC) remain an important cause of neonatal and post-weaning diarrhoea in pigs. In general, neonatal infections can be prevented effectively by passive colostral and lactogenic immunity obtained by vaccination of the sow. In this respect, several maternal vaccines are on the market. These are applied mainly parenterally in the pregnant sow. However at weaning, lactogenic protection disappears. Strains involved in post-weaning diarrhoea mostly express F4 or F18 fimbriae. These fimbriae are important virulence factors since they allow the bacteria to bind to specific receptors on small intestinal enterocytes, resulting in colonization and subsequently the secretion of enterotoxins causing diarrhoea. Consequently, an active mucosal immunity, in which the local production of F4- and/or F18-specific sIgA plays an important role, is required to protect pigs against post-weaning diarrhoea. This review aims to give an overview of the immunization strategies applied in the pig model to prevent post-weaning diarrhoea caused by F4- and/or F18- positive ETEC in pigs. These include the use of oral live and subunit vaccines, encapsulation strategies and parenteral immunization.

Local and systemic immune responses in pigs intramuscularly injected with an inactivated Mycoplasma hyopneumoniae vaccine.

The immune response induced by intramuscular administration of a commercial inactivated Mycoplasma hyopneumonie whole-cell vaccine (Suvaxyn(®)MH One) was investigated in conventional M. hyopneumoniae-free pigs. The animals were assigned randomly to two groups: non-vaccinated and vaccinated. Pigs in the vaccinated group were injected intramuscularly with the vaccine at 7 days of age, whereas non-vaccinated pigs received physiological saline solution (PBS). Pigs were euthanized and necropsied at 30, 36 and 58 days of age. Blood, bronchoalveolar lavage (BAL) fluid, spleen, lung and bronchial lymph nodes (BLN) were collected. Serum and BAL fluid were tested for the presence of antibodies by ELISA. Monomorphonuclear cells from the peripheral blood and tissues were isolated to quantify the T cell subsets by flow cytometry, and cytokine production by ELIspot and ELISA. Antibodies against M. hyopneumoniae were detected in serum of most vaccinated pigs at 30 days of age. M. hyopneumoniae specific IgG, IgM and IgA were detected in BAL fluid from vaccinated animals, but not from control animals. Significantly higher numbers of IL-12 secreting cells were observed in the lung at day 58 in the vaccinated than in the non-vaccinated group (p<0.05). The number of IL-10 secreting cells from BLN was also higher in the vaccinated group at day 58 (p<0.05). After restimulation in vitro, lymphocytes from BLN and lungs secreted significantly higher levels of IL-12 in the vaccinated group at day 58. These results show that the vaccine induced both systemic and mucosal cellular and humoral immune responses.

Targeting aminopeptidase N, a newly identified receptor for F4ac fimbriae, enhances the intestinal mucosal immune response

Enterotoxigenic Escherichia coli (ETEC) are a major cause of diarrhea in human and animal. In piglets, ETEC having F4 fimbriae (F4+ ETEC) induce severe diarrhea, dependent on the presence of receptors for F4 (F4R). In this study, porcine aminopeptidase N (pAPN) was identified as an F4R by comparative proteomic analysis of brush border proteins of F4R+ and F4R− pigs and by adherence/internalization experiments on pAPN-transfected cells. Binding of F4 fimbriae to pAPN depended on sialic acid containing carbohydrate moieties, and resulted in clathrin-mediated endocytosis of the fimbriae. Endocytosis via pAPN was not restricted to F4 fimbriae, but was also observed for anti-pAPN antibodies. Both F4 fimbriae- and pAPN-specific antibodies were taken up in vivo by porcine enterocytes and induced subsequently a rapid immunoglobulin A and G response. In conclusion, we identified pAPN as an endocytotic receptor for F4 fimbriae and highlight the opportunity to target vaccine antigens to this epithelial receptor.

IFN-γ expression and infectivity of Toxoplasma infected tissues are associated with an antibody response against GRA7 in experimentally infected pigs

Toxoplasma gondii, an obligate intracellular parasite, can be transmitted to humans via the consumption of infected meat. However, there are currently no veterinary diagnostic tests available for the screening of animals at slaughter. In the current work, we investigated whether cytokine responses in the blood, and antibody responses against recombinant T. gondii GRA1, GRA7, MIC3 proteins and a chimeric antigen EC2 encoding MIC2-MIC3-SAG1, are associated with the infectivity of porcine tissues after experimental infection with T. gondii. Two weeks after experimental infection of conventional 5-week-old seronegative pigs, an IFN-γ response was detected in the blood, with a kinetic profile that followed the magnitude of the GRA7 antibody response. Antibody responses to GRA1, MIC3 and EC2 were very weak or absent up to 6 weeks post infection. Antibodies against GRA7 occurred in all infected animals and were associated with the presence of the parasite in tissues at euthanasia a few months later, as demonstrated by quantitative real-time PCR and isolation by bio-assay. Remarkably, although brain and heart tissue remained infectious, musculus gastrocnemius and musculus longissimus dorsi were found clear of infectious parasites 6 months after experimental infection. Seropositive response in a GRA7 ELISA indicates a Toxoplasma infection in pigs and is predictive of the presence of infectious cysts in pig heart and brain. This new ELISA is a promising tool to study the prevalence of Toxoplasma infection in pigs. Clearance of the infection in certain pig tissues suggests that the risk assessment of pig meat for human health needs further evaluation.

Differentiation of F4 receptor profiles in pigs based on their mucin 4 polymorphism, responsiveness to oral F4 immunization and in vitro binding of F4 to villi

F4(+) enterotoxigenic Escherichia coli (F4(+) ETEC) are an important cause of diarrhoea and mortality in piglets. F4(+) ETEC use their F4 fimbriae to adhere to specific receptors (F4Rs) on small intestinal brush borders, resulting in colonization of the small intestine. To prevent pigs from post-weaning diarrhoea, pigs should be vaccinated during the suckling period. Previously, we demonstrated that F4acR(+), but not F4acR(-) piglets could be orally immunized with purified F4 fimbriae resulting in a protective immunity against F4(+) ETEC infections, indicating that this immune response was F4R dependent. Recently, aminopeptidase N has been identified as a glycoprotein receptor important for this oral immune response. However, in some oral immunization experiments, a few F4acR(+) piglets did not show an antibody response upon oral immunization, suggesting additional receptors. Therefore, the binding profile of F4 to brush border membrane (glyco)proteins was determined for pigs differing in F4-specific antibody response upon oral immunization, in in vitro adhesion of F4(+)E. coli to small intestinal villi, and in Muc4 genotype. Six groups of pigs could be identified. Only two groups positive in all three assays showed two high molecular weight (MW) glycoprotein bands (>250kDa) suggesting that these high MW bands are linked to the MUC4 susceptible genotype. The fact that these bands were absent in the MUC4 resistant group which showed a positive immune response against F4 and was positive in the adhesion test confirm that at least one or perhaps more other F4Rs exist. Interestingly, two pigs that were positive in the villous adhesion assay did not show an immune response against F4 fimbriae. This suggests that a third receptor category might exist which allows the bacteria to adhere but does not allow effective immunization with soluble F4 fimbriae. Future research will be necessary to confirm or reveal the identity of these receptors.

Influence of reaction medium during synthesis of Gantrez AN 119 nanoparticles for oral vaccination.

Two synthesis methods of poly(methyl vinyl ether-co-maleic anhydride) (Gantrez AN 119) nanoparticles (NP) (used for oral vaccination) were compared. Wheat germ agglutinin (WGA) was used as ligand to enhance the bioadhesive properties of NP and beta-galactosidase as antigen. The first method encapsulated beta-galactosidase in NP by co-precipitation in an acetone/water mixture containing 44% acetone. In the second method, antigen addition occurred in 100% acetone. To improve stability, NP were crosslinked with 1,3-diaminopropane. The stability of WGA-conjugated NP with encapsulated antigen diminished at lower pH and when decreasing the amount of crosslinker. The binding type between WGA and polymer depended on the synthesis method: predominantly ionic bonds were formed using the 44% acetone method, whereas synthesis via the 100% acetone method resulted in covalent bonds. The biological activity of the WGA coating, evaluated via a pig gastric mucin binding test, was lower in NP prepared via the 100% acetone method. No release of native antigen was detected after hydrolysis of NP, due to the covalent antigen binding during antigen encapsulation and the high reactivity of the polymer. Moreover, the mucosal irritation capacity was evaluated upon nanoparticle hydrolysis using a slug mucosal irritation assay. Herein, hydrolysed NP of the 44% acetone method were classified as mild irritative.

Refined candidate region for F4ab/ac enterotoxigenic Escherichia coli susceptibility situated proximal to MUC13 in pigs

F4 enterotoxigenic Escherichia coli (F4 ETEC) are an important cause of diarrhea in neonatal and newly-weaned pigs. Based on the predicted differential O-glycosylation patterns of the 2 MUC13 variants (MUC13A and MUC13B) in F4ac ETEC susceptible and F4ac ETEC resistant pigs, the MUC13 gene was recently proposed as the causal gene for F4ac ETEC susceptibility. Because the absence of MUC13 on Western blot from brush border membrane vesicles of F4ab/acR+ pigs and the absence of F4ac attachment to immunoprecipitated MUC13 could not support this hypothesis, a new GWAS study was performed using 52 non-adhesive and 68 strong adhesive pigs for F4ab/ac ETEC originating from 5 Belgian farms. A refined candidate region (chr13: 144,810,100–144,993,222) for F4ab/ac ETEC susceptibility was identified with MUC13 adjacent to the distal part of the region. This candidate region lacks annotated genes and contains a sequence gap based on the sequence of the porcine GenomeBuild 10.2. We hypothesize that a porcine orphan gene or trans-acting element present in the identified candidate region has an effect on the glycosylation of F4 binding proteins and therefore determines the F4ab/ac ETEC susceptibility in pigs.

Adjuvant effect of Gantrez®AN nanoparticles during oral vaccination of piglets against F4+enterotoxigenic Escherichia coli

In this study, the adjuvanticity of methylvinylether-co-maleic anhydride (Gantrez(®)AN) nanoparticles (NP) was investigated in an oral immunisation experiment of pigs against F4+enterotoxigenic Escherichia coli (F4+ETEC). In addition, Wheat Germ Agglutinin (WGA)-coating of the nanoparticles was tested for enterocyte-targeting. Pigs were either vaccinated with F4 fimbriae, F4 encapsulated in Gantrez(®)AN NP, F4 encapsulated in Gantrez(®)AN NP coated with WGA or F4 fimbriae mixed with empty Gantrez(®)AN NP. Only vaccination with the combination of F4 mixed with empty Gantrez(®)AN NP improved protection against F4+ETEC infection. In addition, vaccination with this formulation also resulted in an F4-specific serum antibody response prior to F4+ETEC challenge. Encapsulation of F4 in Gantrez(®)AN NP only raised the serum antibody response after F4+ETEC challenge compared to soluble F4, but did not improve protection, whereas WGA-coating almost completely abolished the serum antibody response. These data indicate that nanoparticle effects after F4 encapsulation were of lesser importance for the adjuvant effect of Gantrez(®)AN NP, contrarily to the reactivity of the Gantrez(®)AN polymer used to prepare the nanoparticles.

Influence of polymer hydrolysis on adjuvant effect of Gantrez®AN nanoparticles: implications for oral vaccination.

The adjuvant effect of methylvinylether-co-maleic anhydride (Gantrez®AN) nanoparticles was investigated during oral vaccination of mice with F4 adhesins of F4-positive Escherichia coli. To differentiate whether the adjuvant effect originated from a nanoparticle effect or a polymer effect, 20 μg F4 was administered as slightly crosslinked F4-containing nanoparticles (g(F4)(0.01)) or as F4 mixed with slightly crosslinked pure nanoparticles (F4+g(0.01)). The F4-specific immune response was reduced using F4-containing nanoparticles due to complete shielding of F4, whereas oral administration of F4+g(0.01) increased the level of F4-specific antibody-secreting cells (ASC) in the spleen. When repeating the vaccination study after 6months using freshly prepared nanoparticles, the adjuvant effect of F4+g(0.01) was lost due to an altered polymer reactivity caused by partial hydrolysis of anhydride groups of Gantrez®AN. Combining F4 with nanoparticles stabilised with a higher crosslinker amount during nanoparticle synthesis (F4+g(0.22)) could overcome the effect of partial polymer hydrolysis, as higher levels of ASC were detected. Hence, an in-depth characterisation of the Gantrez®AN polymer is required as stability issues can alter its biological effect during oral vaccination.

Effect of fatty acid composition of the sow diet on the innate and adaptive immunity of the piglets after weaning

This study investigated whether the immunocompetence of piglets at weaning was modulated by including different sources of n-3 polyunsaturated fatty acids (PUFA) in the maternal diet. From day 73 of gestation until weaning at 4 weeks, 32 pregnant sows were fed a palm oil-based diet (control group) or a diet including 1% linseed oil (C18:3n-3), 1% echium oil (C18:3n-3, C18:4n-3, C18:3n-6) or 1% fish oil (C20:5n-3, C22:6n-3). It was hypothesized that each diet would differently affect immune function through effects such as specific eicosanoid production. Piglets were fed a conventional diet without added n-3 PUFA from weaning until day 35 post-weaning. At weaning and 21 days post-weaning, four piglets per litter were immunized with bovine thyroglobulin. Blood samples were taken from weaning until day 35 post-weaning to determine thyroglobulin-specific antibodies, serum amyloid A (SAA) concentration and fatty acid composition. The fatty acid composition of the maternal diets was reflected in the plasma and red blood cells of the weaned piglets. The onset of the thyroglobulin-specific IgM response differed between dietary groups, with a delay in response for piglets from sows fed the fish oil diet. No significant dietary effects were observed on the thyroglobulin-specific IgG and IgA titres or on SAA concentrations in the piglet serum. Including n-3 PUFA in the maternal diet at the concentrations used in the present study had no major effects on the adaptive and innate immunity of the piglets after weaning.