Immunology of the porcine gastrointestinal tract

Use of Translational, Genetically Modified Porcine Models to Ultimately Improve Intestinal Disease Treatment

For both human and veterinary patients, non-infectious intestinal disease is a major cause of morbidity and mortality. To improve treatment of intestinal disease, large animal models are increasingly recognized as critical tools to translate the basic science discoveries made in rodent models into clinical application. Large animal intestinal models, particularly porcine, more closely resemble human anatomy, physiology, and disease pathogenesis; these features make them critical to the pre-clinical study of intestinal disease treatments. Previously, large animal model use has been somewhat precluded by the lack of genetically altered large animals to mechanistically investigate non-infectious intestinal diseases such as colorectal cancer, cystic fibrosis, and ischemia-reperfusion injury. However, recent advances and increased availability of gene editing technologies has led to both novel use of large animal models in clinically relevant intestinal disease research and improved testing of potential therapeutics for these diseases.

Effect of the EM Bokashi® Multimicrobial Probiotic Preparation on the Non-specific Immune Response in Pigs

The aim of the study was to determine the effect of EM Bokashi® on the phagocytic activity of monocytes and granulocytes, oxidative burst, SWC3, and CD11b + CD18+ expression on monocytes and granulocytes, and the serum concentration of cytokine and lysozyme in pig. 60 Sixty female piglets were divided into two groups: I – control and II – experimental. For the experimental group, a probiotic in the form of the preparation EM Bokashi® was added to the basal feed. Flow cytometry was used to determine selected non-specific immune response parameters, intracellular production of hydrogen peroxide by peripheral granulocytes and monocytes, and surface particles in peripheral blood. The EM Bokashi® preparation used in the study was found to increase phagocytic activity mainly in monocytes, with an increased percentage of phagocytic cells in the experimental group. The highest serum lysozyme concentration in the piglets in the experimental group (2.89 mg/dl), was noted on day 42 of the study. In the group of pigs receiving EM Bokashi®, the percentage of phagocytic cells with SWC3 (monocyte/granulocyte) expression was statistically significantly higher than in the control. The increase in the number of cells with SWC3 (monocyte/granulocyte) expression in the peripheral circulation in combination with the greater capacity of the cells for phagocytosis and respiratory burst confirms that the non-specific immune response was modulated in the pigs supplemented with EM Bokashi®.

The expression of NKG2D on porcine IEL and its possible relation to the adaptive intestinal immune system

The gastrointestinal tract contains a multitude of components which include intraepithelial lymphocytes (IEL). IELs have been reported to express a variety of surface receptors that enable cross talk among various cell populations. The purpose of the reported investigation was to determine which IEL populations express the natural killer cell receptor NKG2D which is an activating receptor that plays a role in cytolytic responses. In a feeding experiment with piglets, IELs were isolated from jejunal tissue at three different stages post weaning. The time dependent development of different cell populations was evaluated and an elevated number of lymphocytes (CD45+) shortly after weaning was observed compared to later time points. The number of T cells (CD3), including cytotoxic T cells (CD8β/CD16-), appeared to be particularly affected by the weaning period. Correlation analysis revealed an association between the NKG2D expression in jejunal tissue and the frequency of lymphocytes, esp. CD8β+ cytotoxic T cells. Gene expression analysis of NKG2D were performed on several isolated IEL populations and support the hypothesis that cytotoxic T cells (CD8β) in the porcine gut epithelium are capable of communicating with the surrounding enterocytes and inducing immune reactions via NKG2D. Unlike previous observations in porcine blood, the γδ T cells of the gut epithelium also showed expression of the stress factor binding NKG2D receptor. Subsequent analysis of the isolated IELs revealed that T cells appear to only express the receptor after isolation with an anti-CD3 mab, indicating that a previous stimulation of the TCR/CD3 complex may reinforce this signal transduction pathway.

Effects of two commercial diets and technical feed treatment on stomach lesions and immune system of fattening pigs

The impact of technical feed treatment and diet on stomach lesions and traits of the local and systemic immune system were investigated in fattening pigs. Feeding groups differed in technical feed treatment (standard ground meal vs. finely ground and pelleted feed) and diet (soya bean meal vs. rapeseed meal/DDGS/soya beans). Pigs were fattened approximately 10 weeks by ad libitum feeding and slaughtered subsequently. Gastric alterations were assessed by a macroscopic scoring system [macroscopic stomach score (MSC) 0 =  normal to 4 =  severe lesions]. For immunological investigations, lymphocytes from blood and jejunal tissues were isolated. T-cell phenotyping was carried out by staining intestinal lymphocytes with monoclonal antibodies for CD4 and CD8 and flow cytometric measurements. MSC was higher in animals fed finely ground and pelleted feed compared with their counterparts. Significant interactions between diet and feed treatment considering the MSC were observed (p = 0.027). There was no effect of diet or technical feed treatment on T cells of blood, Lymphonodi gastrici or lamina propria (LP) and intraepithelial cells. However, technical feed treatment significantly affected subsets of CD4⁺ , CD8⁺ , CD8^low , CD4/CD8 double-positive T cells, the mean fluorescence intensity of CD4⁺ T cells and the ratio of CD8^low /CD8^high T cells in Peyer's patches (PP). All named parameters were reduced in PP of animals fed finely ground and pelleted feed compared with animals fed standard ground meal. Furthermore, significant differences between T cells of lymph nodes and LP were observed between animals with middle MSC (MSC = 1-2.5) and animals with high MSC (MSC = 3-4). Significant alterations in T cells of PP were observed between animals of low (MSC = 0-0.5) and high MSC. The observed effects provide the evidence that the impact of technical feed treatment is not limited on the stomach lesions. Possible stimuli and consequences of the immune system should be studied in more detail.

Histomorphometric characteristics of immune cells in small intestine of pigs perorally immunized with vaccine candidate F18ac nonenterotoxigenic E. coli strain

Colidiarrhea and colienterotoxemia caused by F4⁺ and/or F18⁺ enterotoxigenic E. coli (ETEC) strains are the most prevalent infections of suckling and weaned pigs. Here we tested the immunogenicity and protective effectiveness of attenuated F18ac⁺ non-ETEC vaccine candidate strain against challenge infection with F4ac⁺ ETEC strain by quantitative phenotypic analysis of small intestinal leukocyte subsets in weaned pigs.We also evaluated levamisole as an immune response modifier (IRM) and its adjuvanticity when given in the combination with the experimental vaccine. The pigs were parenterally immunized with either levamisole (at days -2, -1 and 0) or with levamisole and perorally given F18ac⁺ non-ETEC strain (at day 0), and challenged with F4ac⁺ ETEC strain 7 days later.At day 13 the pigs were euthanatized and sampled for immunohistological/histomorphometrical analyses. Lymphoid CD3⁺, CD45RA⁺, CD45RC⁺, CD21⁺, IgA⁺ and myeloid SWC3⁺ cell subsets were identified in jejunal and ileal epithelium, lamina propria and Peyer’s patches using the avidin-biotin complex method, and their numbers were determined by computer-assisted histomorphometry. Quantitative immunophenotypic analyses showed that levamisole treated pigs had highly increased numbers of jejunal CD3⁺, CD45RC⁺ and SWC3⁺ cells (p<0.05) as compared to those recorded in nontreated control pigs.In the ileum of these pigs we have recorded that only CD21⁺ cells were significantly increased (p<0.01). The pigs that were treated with levamisole adjuvanted experimental vaccine had significantly increased numbers of all tested cell subsets in both segments of the small intestine. It was concluded that levamisole adjuvanted F18ac⁺ non-ETEC vaccine was a requirement for the elicitation of protective gut immunity in this model; nonspecific immunization with levamisole was less effective, but confirmed its potential as an IRM.

Supplementation of diets for lactating sows with zinc amino acid complex and gastric nutriment-intubation of suckling pigs with zinc methionine on mineral status, intestinal morphology and bacterial translocation in lipopolysaccharide-challenged weaned pigs

Sixty-four pigs from 16 sows were used to evaluate addition of zinc amino acid complex (ZnAA) to lactating sows and gastric nutriment-intubation of zinc methionine (ZnMet) to suckling pigs on mineral status, intestinal morphology and bacterial translocation after weaning. Sows were fed a barley-based diet supplying 120 ppm zinc (Zn; control) or the control diet supplemented with 240 ppm Zn from ZnAA. At birth, day-10 and day-21 (weaning) of age, pigs from each litter were nutriment-intubated with 5 ml of an electrolyte solution without or with 40 mg Zn from ZnMet. At weaning, 24 h prior to the collection of small and large intestinal lymph nodes and sections of the duodenum, jejunum and ileum, the pigs received an intramuscular injection of saline without or with 150 microg/kg body weight of Escherichia coli O26:B6 lipopolysaccharide (LPS). With the exception of a tendency (p = 0.09) for lower serum concentration of copper in pigs at weaning from ZnAA-supplemented sows, there were no differences (p > 0.1) than for pigs from control-fed sows for mineral status or intestinal morphology. Nutriment-intubation of ZnMet increased serum (p = 0.001) and liver (p = 0.003) Zn concentrations, number of goblet cells per 250 microm length of jejunal villous epithelium (p = 0.001) and tended (p = 0.06) to enhance jejunum mucosa thickness. Interactive effects (p < 0.05) for higher jejunal villi height and villi:crypt ratio and increased ileal goblet cell counts were apparent for pigs from ZnAA-supplemented sows that also received nutriment-intubation of ZnMet. Challenge with LPS increased (p = 0.05) ileal villous width. Nutriment-intubation of ZnMet decreased (p = 0.05) anaerobic bacteria colony forming unit counts in the large intestinal mesenteric lymph nodes. In conclusion, nutriment-intubation of ZnMet increased serum and liver tissue concentrations of Zn and resulted in limited improvement to intestinal morphology of weaned pigs.

Supplementation of diets for gestating sows with zinc amino acid complex and gastric intubation of suckling pigs with zinc-methionine on mineral status, intestinal morphology and bacterial translocation in lipopolysaccharide-challenged early-weaned pigs

Eighty male pigs from 20 litters were used to evaluate dietary addition of 250mg/kg of Zn from zinc amino acid complex (ZnAA) to sows during the last trimester of gestation and gastric intubation of 40mg Zn from soluble zinc methionine (ZnMet) to suckling pigs at birth and on day 7 and 14 (weaning) on small intestinal morphology, Zn status and bacterial translocation in early-weaned pigs. At weaning, pigs were challenged with an intramuscular injection of saline without or with 120microg/kg BW of lipopolysaccharide (LPS; from Escherichia coli O26:B6) and were euthanized 24h later prior to collection of intestinal lymph nodes and small intestinal sections. Zinc concentration in serum 7 days after birth and at weaning were higher in pigs from ZnAA-supplemented sows and those receiving gastric intubation with ZnMet (P=0.05 and P<0.0001, respectively). Post-weaning liver tissue concentrations for Zn (P<0.0001) and Fe (P=0.04) were higher and for Cu lower (P<0.0001) in pigs intubated with ZnMet. Pigs from ZnAA-supplemented compared with control-fed sows tended (P<0.1) to have increased villi height and villus:crypt ratio in the jejunum and higher (P=0.1) goblet cell counts in the ileum. Goblet cell counts of ZnMet-intubated (P=0.03) and LPS-challenged pigs (P=0.05) were also higher in the jejunum. Supplementation of ZnAA to gestating sows increased (P=0.04) E. coli colony forming unit counts in the small intestinal mesenteric lymph nodes of early-weaned pigs. In conclusion, dietary addition of ZnAA to gestating sows and gastric intubation of ZnMet improved Zn status of suckling pigs.

Board-invited review: porcine mucosal immunity of the gastrointestinal tract

The gastrointestinal tract (GIT) constitutes one of the largest immunological organs of the body. The GIT must permit absorption of nutrients while also maintaining the ability to respond appropriately to a diverse milieu of dietary and microbial antigenic components. Because of the diverse population of antigenic components within the GIT, a sophisticated mucosal immune system has evolved that relies on collaboration between the innate and adaptive arms of immunity. The collaborative, mucosal immune effort offers protection from harmful pathogens while also being tolerant of dietary antigens and normal microbial flora. Knowledge with respect to porcine mucosal immunity is important as we strive to understand the interrelationships among GIT physiology, immunology, and the resident microbiota. The aim of this review is to provide a descriptive overview of GIT immunity and components of the mucosal immune system and to highlight differences that exist between the porcine species and other mammals.

Genomic dissection of mucosal immunobiology in the porcine small intestine

The enteric immune system of swine protects against infectious and noninfectious environmental insults and discriminates ingested nutrients, food, and commensal microflora from pathogenic agents. The molecular and cellular elements of the immune system have been selected over evolutionary time in response to the specific environment of pigs. Thus, models of immune function based on mouse and human need to be applied cautiously in the pig. To better understand how the mucosal immune system of the small intestine accomplishes the conflicting functions of food tolerance and immunity to enteric infection, we used a genomic approach to profile gene expression in the Peyer's patch. More than 40% of mRNA enriched by differential subtraction for Peyer's patch-specific expressed sequences represented genes of unknown function or had no match in GenBank. Microarray analysis and radiation hybrid mapping validated their porcine origin and provided additional insights into putative functions. The abundance of expressed genes of unknown function indicates that a substantial fraction of the immunological and physiological processes of the Peyer's patch remains to be discovered. It further suggests that swine have evolved specialized biochemical and immunological processes in the small intestine. Further elucidation of these processes are expected to provide novel insights into swine enteric mucosal immune function.

Short-term immunoglobulin A B-cell memory resides in intestinal lymphoid tissues but not in bone marrow of gnotobiotic pigs inoculated with Wa human rotavirus

Immunological memory is important for protecting the host from reinfection. To investigate the development and sites of residence of intestinal memory B cells, and their role in protective immunity to reinfection with an enteric virus, we assessed the association between memory B cell and antibody-secreting cell (ASC) responses and protection using a gnotobiotic pig model for human rotavirus (HRV) infection and diarrhoea. The isotypes, quantities and tissue distribution of rotavirus-specific memory B cells and ASC were evaluated prechallenge (28 and 83 postinoculation days [PID]) and postchallenge (7 postchallenge days [PCD]), using enzyme-linked immunospot (ELISPOT) assay, in gnotobiotic pigs inoculated once with virulent or three times with attenuated HRV and challenged at PID 28 with the corresponding virulent HRV. Complete protection against HRV shedding and diarrhoea was associated with significantly higher numbers of immunoglobulin A (IgA) and immunoglobulin G (IgG) memory B cells and ASC in the ileum of virulent HRV-inoculated pigs at challenge. In contrast, pigs inoculated with attenuated HRV had lower numbers of IgA and IgG memory B cells and ASC in intestinal lymphoid tissues, but higher numbers in the spleen. The bone marrow had the lowest mean numbers of IgA and IgG memory B cells and ASC prechallenge in both groups of HRV-inoculated pigs. Therefore, bone marrow was not a site for IgA and IgG rotavirus-specific antibody production or for memory B cells after inoculation with live rotavirus, from 28 PID up to at least 83 PID. The effect of in vitro antigen dose was examined and it was determined to play an important role in the development of ASC from memory B cells for the different tissues examined.

Immune cell distribution in gut-associated lymphoid tissue and synthesis of IL-6 in experimental porcine peritonitis

This study aimed to evaluate the possibility to detect early changes in gut-associated lymphoid tissue related to an inflammatory response. Anaesthetised pigs were subjected to faecal peritonitis (n = 9) or to a sham procedure (n = 8). Blood from the vena cava and the superior mesenteric vein was repeatedly sampled, and the levels of interleukin-6 (IL-6) were analysed. Biopsies of the small intestine and mesenteric lymph nodes (MLNs), harvested at 300 min, were incubated with monoclonal antibodies specific for CD2 (T lymphocytes), IgM (B lymphocytes) and CD11a/CD18 (leucocyte adhesion molecule). The number of positive (+) cells was scored. During peritonitis, IL-6 increased significantly. Compared to controls, the number of CD2+ cells decreased, IgM+ cells tended to increase and CD11a/CD18+ cells increased in the mucosa during peritonitis. In MLNs, the number of cells positive for all studied markers increased during peritonitis. We conclude that peritonitis causes an inflammatory response in the gut reflected by changes in the distribution of immune cells in gut-associated lymphoid tissue and release of IL-6 to venous blood.

Microencapsulated enterotoxigenic Escherichia coli and detached fimbriae for peroral vaccination of pigs

The feasibility of peroral immunisation with microencapsulated Escherichia coli and detached fimbriae to prevent enterotoxigenic E. coli infections in pigs was examined. For this E. coli and fimbriae were microencapsulated into poly(lactide-co-glycolide) microspheres by spray-drying. Various microsphere formulations designed to deliver priming and booster doses were fed to new-born and weaned pigs. The pigs were challenged 19 days after the booster dose by peroral administration of an infective dose of the homologous E. coli. Serum IgA antibody titres and excretion of challenge E. coli, as indicators for colonisation, were determined. The data showed that no significant serum antibodies were induced, and E. coli colonisation was not reduced by the peroral administration of the various antigen-loaded microspheres. These results are in contradiction to some of the previously published experiments typically in rats or rabbits, where model antigens or unpractical immunisation procedures have frequently been used.

Molecular characterization of VDJ transcripts from a newborn piglet

The sequences of 42 transcripts, expressed with IgM, IgG and IgA and cloned from the mesenteric lymph node of a newborn piglet, are described. Forty transcripts used either DHA and DHB and their FR4 were identical to the single swine germline JH. The low frequency of somatic mutation made it possible to identify 35/41 as originating from five putative germline VH genes, of which VHA, VHB and VHC accounted for > 85%. The remaining six transcripts were hybrids of these five germline genes. The most 3' functional VH gene (VH2 = VHB) was the only one exclusively expressed with IgM although VHA, of unknown location in the genome, accounted for half of all transcripts. Junctional diversity in CDR3 was extensive and asymmetrical, in that D-J joining contributed more diversity than V-DJ joining. Reading frame II was used twice as frequently as frame III and the CDR3 generated using the former would have a higher expected R/S ratio. This study indicated that the expressed VH repertoire of the newborn piglet is restricted and nearly germline although junctional diversity is mature and better developed than in fetal mice. The hybrid clones suggest that swine compensate for their < 20 VH genes and single JH by using somatic gene conversion. There was no evidence for exclusive or preferential expression of the most 3' VH gene as occurs in chickens and rabbits respectively, and switching to downstream constant regions probably occurs in utero, even in the theoretical absence of environmental antigens and maternal regulatory molecules. Preferential VHA expression is probably a selection phenomenon.