Secretion of immunomodulating neuropeptides (VIP, SP) and nitric oxide synthase in porcine small intestine during postnatal development.

Immunohistological identification/localization of immunomodulating neuropeptides [vasoactive intestinal polypeptide (VIP) and substance P (SP)] and enzyme nitric oxide synthase (NOS) as well as histomorphometric analyses of kinetics of their release and development of respective nerve fibers density during postnatal ontogenesis of porcine intestinal mucosal immune system (IMIS), were performed in order to assess the role of these molecules involved in maturation of the IMIS. The kinetcs of reactions to VIP, SP and NOS were demonstrated in the samples of jejunum and ileum from conventionally reared pigs. The samples were obtained at 0, 7, 14, 21, 28, 35, 42 and 49 days of age and processed for immunohistological staining. The VIP+ reaction was prevalently visible in the epithelial layer, lamina propria and Lieberkühn crypts (Lc) but also in the submucosa and lamina muscularis along blood and lymphatic vessels. The SP+ fibers were regularily distributed along enteric neurons in the muscular layer. The reaction to NOS was demonstrated in both mucosa and submucosa of ileum and jejunum and in the ileal Peyer's patches (PP). Intensity of the reaction was more pronounced in the epithelial layer and numerous NOS+ cells were observed around the Lc and inside the follicles of the PP. Also, we have noticed NOS+ blood vessels, particular neurons and nerve fibers in the submucosa and muscular layer of the small intestine. By analyzing quantitative patterns of SP+, VIP+ fibers and release of NOS we have concluded that intensity of their reactions gradually increases with age, except a short period of stagnation after weaning (at age of 28 days), reaching the highest values in the pigs aged between 42 and 49 days. The values obtained by Sperman rank order correlation test (rs) between days of age of pigs and intensity of the reactions in their jejunum/ileum to VIP (rs=0.97/0.95), SP (rs=0.97/0.97) and NOS (rs=0.98/0.95), respectively, showed positive correlations (P<0.05) according to Roemer Orphal scale. Current study showed that postnatal development of porcine IMIS was accompanied by a substantial increase in the secretion of neuropeptides/enzyme tested and that these molecules may participate in the functional maturation of immunoregulatory/bactericidal mechanisms of the local (intestinal) immune defense in young pigs.

Histomorphometric evaluation of intestinal cellular immune responses in pigs immunized with live oral F4ac+ non-enterotoxigenic E. coli vaccine against postweaning colibacillosis.

Enterotoxigenic Escherichia coli (ETEC) infection is the most common type of porcine postweaning colibacillosis (PWC). Among fimbriae of porcine ETEC strains the best studied family of fimbriae are the members of F4 adhesins, existing in at least three variants: ab, ac, ad. Active immunization against porcine PWC is difficult due to: i) ETEC strains are only one of the essential predisposing factors, ii) the success of vaccinal antigen uptake depends on the presence of enterocyte receptors for F4 adhesins, iii) the intestinal immune system may react with tolerance or hypersensitivity to the same antigens depending on the dose and form of the vaccinal immunogen, and iv) kinetics of the specific immune responses may be different in the case of F4 (earlier) and the other ETEC adhesins, particularly F18 (later). The aim of this study was to test the effectiveness of a live attenuated F4ac+ non-ETEC vaccine against porcine PWC by analyzing quantitative differences in the small intestinal lymphoid and myeloid cell subsets of immunized (with or without levamisole given as an adjuvant) vs control non-immunized pigs. Four week-old pigs were intragastrically immunized with a vaccine candidate F4ac+ non-ETEC strain 2407 at day 0, challenged 7 days later with a virulent F4ac+ strain ETEC 11-800/1/94, euthanatized at day 13 and sampled for immunohistology. Non-immunized pigs received saline at day 0 and were processed as the principals. Immuno-phenotypes of lymphoid and myeloid cell subsets were demonstrated within jejunal and ileal mucosa by immunohistochemical avidin-biotin complex method and corresponding morphometric data were analyzed using software program Lucia G for digital image analyses. Monoclonal antibodies reactive with surface molecules on porcine immune cells such as CD3, CD45RA, CD45RC, CD21 and SWC3 enabled clear insight into distribution patterns and amount of these cells within the gut-associated lymphoid tissues (GALT) examined. The numbers of jejunal and ileal cell subsets tested were significantly increased (at P<0.5 or lower) in both principal groups (vaccinated or levamisole primed-vaccinated) of pigs, compared to those recorded in the control non-vaccinated pigs. Based on the histomorphometric quantification of porcine intestinal immune cells from the GALT compartments tested, it is possible to differentiate the responses of pigs immunized by an experimental mucosal vaccine from those of non-immunized pigs.

Increased number of intestinal villous M cells in levamisole -pretreated weaned pigs experimentally infected with F4ac⁺ enterotoxigenic Escherichia coli strain.

Immunoprophylaxis of porcine postweaning colibacillosis (PWC) caused by enterotoxigenic Escherichia coli (ETEC) expressing F4 fimbriae is an unsolved problem. Just as ETEC strains can exploit intestinal microfold (M) cells as the entry portal for infection, their high transcytotic ability make them an attractive target for mucosally delivered vaccines, adjuvants and therapeutics. We have developed a model of parenteral/oral immunization of 4-weeks-old pigs with either levamisole or vaccine candidate F4ac(+) non-ETEC strain to study their effects on de novo differentiation of antigen-sampling M cells. Identification, localization and morphometric quantification of cytokeratin 18 positive M cells in the ileal mucosa of 6-weeks-old pigs revealed that they were: 1) exclusively located within villous epithelial layer, 2) significantly numerous (P< 0.01) in levamisole pretreated/challenged pigs, and 3) only slightly, but not significantly numerous in vaccinated/challenged pigs compared with non-pretreated/challenged control pigs. The fact that levamisole may affect the M cells frequency by increasing their numbers, makes it an interesting adjuvant to study development of an effective M cell-targeted vaccine against porcine PWC.

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.

Levamisole synergizes proliferation of intestinal IgA+ cells in weaned pigs immunized with vaccine candidate F4ac+ nonenterotoxigenic Escherichia coli strain.

Levamisole (2, 3, 5, 6-tetrahydro-6-phenylimidazole 2,1-b thiazole) is a well-known nonspecific stimulator of host defence mechanisms. In previous investigations, we have found that levamisole acts on cell-mediated immunity in challenge-induced porcine postweaning colibacillosis (PWC). We assume that levamisole could also act synergistically on humoural immune response when applied as an adjuvant with vaccine candidate strains for oral immunization of weaned pigs against PWC. The influence of levamisole in combination with experimental F4ac(+) nonenterotoxigenic Escherichia coli (non-ETEC) vacinal strain on proliferation of IgA(+) cells was examined in 4-week-old weaned pigs experimentally infected with ETEC. We have performed identification and morphometric quantification of the plasma cell phenotype within jejunal/ileal mucosa. Plasma cells were identified by immunohistochemistry with monoclonal anti-IgA antibodies and quantifying by use of digital image analysis. Quantification of IgA(+) cells from levamisole-primed vaccinated and challenge-infected weaned pigs showed significantly increased number (P < 0.05 for both jejunum and ileum) compared with those observed in unprimed vaccinated/challenge-infected controls. It is suggested from these results that levamisole may contribute in initiation of local humoural immune response to enteric pathogens, such as enterotoxigenic E. coli.

Levamisole synergizes experimental F4ac+ Escherichia coli oral vaccine in stimulating ileal Peyer's patch T cells in weaned pigs.

Recent findings demonstrate that priming by levamisole of weaned pigs experimentally vaccinated against postweaning colibacillosis (PWC) contributes to immune protection from challenge-induced clinical disease through stimulation of the mesenteric lymph node cells that participate in cell-mediated immunity. With the objective of better understanding the mechanisms by which levamisole induces protective mucosal cell-mediated immune response to vaccination against PWC, it was tested whether the drug synergizes experimental F4ac+ Escherichia coli oral vaccine in stimulating T cells also in the jejunal lamina propria (JLP) and ileal Peyer's patch (IPP) upon virulent challenge. Commercial crossbred pigs weaned at 4 weeks were allocated into two equal groups. The experimental group was i.m. primed with levamisole at an immunostimulatory dose of 2.5 mg/kg once daily, for 3 consecutive days, and controls received saline. Both groups were vaccinated orally with the vaccinal E. coli strain on day 0 and challenged with the virulent E. coli strain 7 days later. All pigs were killed on postchallenge day 6. The results determined by immunophenotyping of isolated cells indicate that priming by levamisole of the vaccinated weaned pigs selectively recruited and activated T cells in the IPP, a lymphoid organ-generating B lymphocytes. The pig IPP is normally populated with up to 5% of CD3+ T cells and CD6 is an activation antigen expressed exclusively by T cells in swine. Therefore, a significantly higher number of CD3+ (P < 0.01) and CD6+ (P < 0.001) cells observed within the IPP follicles of the primed-vaccinated vs. unprimed-vaccinated challenge-infected pigs suggest enhanced T cell-mediated immunity in this B-cell compartment induced by the potentiating action of the drug and vaccine. The ability of levamisole to influence interaction between activated T cells and B cells in the IPP of primed-vaccinated weaned pigs, and the possibility that this interaction plays a role in regulating B-cell maturation within the IPP follicles, are discussed.

Immunophenotyping of leukocyte subsets in peripheral blood and palatine tonsils of prefattening pigs.

The quantitative and distribution patterns of porcine peripheral blood and tonsillar lymphoid/myeloid cell subsets were assessed in order to establish the immune status of farm pigs prior to their transfer to fattening units. Peripheral blood and tonsillar samples were taken from clinically healthy, nonvaccinated, 12-week-old pigs, either ex vivo or following euthanasia. Single-colour flow cytometry, using monoclonal antibodies (mAbs) reactive with the swine leukocyte cluster of differentiation (CD) antigens, gave the proportions of lymphoid (9.7% CD4+, 8.0% CD8+, 36.9% CD5a+, 20.3% CD16+, 6.9% CD21+, 86.3% CD45+, 41.8% CD45RA+, 48.3% CD45RC+), null cells (6.9%) and myeloid cells (23.7% CD11b+ and 5.4% SWC3a+) in peripheral blood. In situ identification and distribution of lymphoid cells in the tonsils (CD3a+, CD21+, CD45RA+, CD45RC+) was performed with anti-CD mAbs using the avidin-biotin complex method. Most CD3a+ cells were in the parafollicular areas, with many cells in the follicles. CD21+ cells were scattered throughout the parafollicular area, with only a few cells inside lymphoid follicles. CD45RA+ cells were mostly concentrated in the follicles but many positive cells were present in the parafollicular area. Many CD45RC+ cells were visible in the parafollicular area, a few positive cells were in the crypt epithelium, and single cells were inside the follicles.

Overview of the Third International Workshop on Swine Leukocyte Differentiation Antigens.

The aim of the Third International Workshop on Swine Leukocyte Differentiation Antigens (CD workshop), supported by the Veterinary Immunology Committee (VIC) of the International Union of Immunological Societies (IUIS), was to standardize the assignment of monoclonal antibodies (mAb) reactive with porcine leukocyte differentiation antigens and to define new antibody clusters, using nomenclature in accordance with human and ruminant CD nomenclature, as agreed at the summary meeting of the Second International Swine CD Workshop in Davis, 1995: only mAb with proven reactivity for the orthologous porcine gene product or cross-reactivity for the human gene products, were given the full CD nomenclature, all other allocations were prefixed with "w". As in previous workshops, the overall organization was entrusted to the chair and first author, with support by the chair of the previous workshop and second author. In addition to the existing 26 pig leukocyte CD/SWC determinants established in previous workshops, this workshop established/confirmed another 11 CDs for pig leukocytes, identified by a total of 21 mAb: CD11R1 (2 mAb), CD11R2 (1 mAb), CD11R3 (4 mAb), wCD40 (1 mAb), wCD46 (4 mAb), wCD47 (3 mAb), wCD49d (1 mAb), CD61 (1 mAb), wCD92 (1 mAb), wCD93 (1 mAb) and CD163 (2 mAb).

Summary of the first round analyses of the Third International Workshop on Swine Leukocyte Differentiation Antigens.

The reactivity of 155 monoclonal antibodies submitted to the Third International Workshop on Swine Leukocyte Differentiation Antigens, together with 41 internal standards, was analysed by flow cytometry on 29 different pig cell targets as well as two human cell targets as a means of establishing suitable panels of monoclonal antibodies for more detailed clustering analyses by the various subsections of the workshop. Results were collected either without further gating, with gating based on FS/SS characteristics or with gating based on the co-expression of a reference antibody in two-colour flow cytometry. The CD or SWC reactivity of the internal standards had been established in previous workshops. Data sets were subsequently analysed by statistical clustering using the Leucocyte Typing Database IV software. The resulting 18 cluster groups were allocated to the appropriate second round sections of the workshop, after reviewing the overall cellular reactivity of each cluster as well as the specificity of known standards which clustered in a group.

Distribution of immune cells expressing CD3a, CD21 and S-100 protein markers in the porcine gut-associated lymphoid tissues.

The distribution of immune cells within the gut-associated lymphoid tissues (GALT) of swine is highly organized. The appearance of such cells could not be separated from the effects of age, weaning and exposure to environment. Here, we have examined the distribution patterns of a subset of CD3a+ T and CD21+ B cells as well as S-100 protein+ cells and secretory (s) IgA+ cells within GALT compartments (such as jejunal lamina propria = JLP, ileal Peyerís patches = IPP, and mesenteric lymph node = MLN) of juvenile 8-week-old conventionally reared pigs using either two monoclonal antibodies (mAbs) or polyclonal antibodies (pAbs) in the immunohistochemical staining techniques with avidin-biotin complex (ABC) or peroxidase-antiperoxidase complex (PAP), respectively. The most potent porcine T-cell marker--CD3 surface antigen--is expressed as CD3a epitope on ileal intraepithelial lymphocytes, and numerous lymphocytes in the extrafollicular areas of MLN and dome region of IPP. Conversely, the cells expressing CD21 surface molecules were only demonstrable in the interfollicular areas of MLN and in the germinal centers of IPP. A strong reaction to sIgA was displayed by the plasma cells in the lumen of crypts and those residing the lamina propria of jejunum and ileum. The S-100 protein+ cells were numerous in JLP around the crypts and in IPP of weaned pigs. Both applied mAbs proved to be useful reagents for phenotypic and functional analyses of porcine lymphoid cell subsets by the ABC technique. However, further investigation of the S-100 protein marker is needed to determine which (if any) subset of porcine CD3+ CD4- CD8+ T cells could be designated as orthologue of human CD8+ CD11b+ suppressor T cells.

Immunohistochemical study of normal and mange (S. scabiei var. rupicaprae) infested chamois (Rupicapra rupicapra L.) skin.

The immunohistochemical study of chamois (Rupicapra rupicapra L.) skin showed that a limited number of available monoclonal and polyclonal antibodies expressed reactivity with skin cell components. These included cytokeratins, vimentin, desmin, neuron-specific enolase and S-100 protein with almost the same distribution pattern as already described in the skin of humans and animals. Antibodies used for labelling skin-associated lymphoid tissues and other cells with the immunologic function in human skin failed to demonstrate these cells in the chamois skin with the exception of LCA and OKT6 antibodies. Epidermal Langerhans cells were reliably demonstrated only by the enzyme histochemical method for adenosine triphosphatase, while the majority of mononuclear cells in dermal infiltrates showed a strong immunoreaction with OKT6 antibody. The histologic and histochemical analysis showed that the dermal infiltrations in infested skin consisted of macrophages, lymphocytes, granulocytes, mastocytes and fibroblasts. The chamois skin affected with sarcoptes mange showed a significant loss of cytokeratins in the epidermis and its derivatives. Particular keratinocytes showing nonspecific staining with several antibodies were also described and discussed in this paper.

Analyses of monoclonal antibodies reacting with porcine CD3: results from the Second International Swine CD Workshop.

Among the 57 monoclonal antibodies (mAb) analyzed within the T-cell group from the Second Swine CD Workshop, six mAb fell within clusters T10 and T11 (No. 088, STH164; No. 148, FY1A3; No. 149, FY2C1; No. 150, FY1H2; No. 151, FY2A11; No. 169, BB23-8E6). The mAb within these two groups gave a similar appearance on flow cytometry and stained all peripheral blood T-cells as defined by CD4 and wCD8 staining. All six mAb precipitated a 24 kDa protein. On the basis of inhibition analyses performed as part of the workshop and from published data, the mAb define at least three epitopes. There is only minimal stimulation of resting peripheral lymphocytes, but four of the mAb produce strong stimulation in the presence of PMA. With the exception of STH164, all have been shown to react with CD3 epsilon-transfected COS cells. The new mAb, therefore, react with three epitopes on porcine CD3 epsilon designated CD3a (BB23-8E6, FY2A11), CD3b (FY1A3, FY2C1), and CD3c (FY1H2). mAb STH164 appears to be reactive with another epitope, however, since its reactivity with CD3 has not been confirmed it is designated as wCD3.

Histopathological features in the small intestine of pigs infected with F4ac+ non-enterotoxigenic or enterotoxigenic strains of Escherichia coli.

Four porcine strains of Escherichia coli were examined for their effects on the small intestine of 4-week-old weaned pigs infected orogastrically. The strains used experimentally were: strain 1467 (adhesin negative, non-toxigenic); strains 2407 and 1466 (adhesin positive, non-toxigenic), derived by genetical engineering from strain 1467 and containing a wild type plasmid and a recombinant plasmid, respectively, encoding the F4 antigen (adhesin); and strain M1823 (adhesin positive, toxigenic). In addition, 2-week-old pigs that died from natural colibacillosis associated with two strains ("Ihan 1 and 2"; adhesin positive, toxigenic) were examined. Strain M1823 and the Ihan strains produced moderate and marked lesions, respectively. Strain 1467 did not cause mucosal damage or an inflammatory response. Strains 1466 and 2407 caused a mild to moderate leucocyte (mononuclear and polymorphonuclear) infiltration in the jejunal (but not ileal) lamina propria. However, unlike strain 1466, strain 2407 did not cause damage to the small intestinal mucosa and should be further studied as a potential oral vaccine strain for post-weaning E. coli diarrhoea.

Langerhans cells in the immunopathology of contact allergic dermatitis.

The functional morphology, topography and frequency of Langerhans cells (LCs), which are significant factors in the pathogenesis of contact allergic dermatitis (CAD), were studied by histoenzymatic methods (adenosine triphosphatase (ATP-ase), acid phosphatase (AF) and alpha naphtylacetate esterase (ANAE), immunohistochemical methods (indirect immunoperoxidase (IPO) with the monoclonal antibody OKT 6), and the peroxidase-antiperoxidase (PAP) method with the polyclonal S-100 antibody in skin biopsies of 24 patients with CAD, as well in skin biopsies in experimental models in guinea pigs. The results confirmed the significant role of LCs in the pathogenesis of contact allergic dermatitis.

Immunohistochemical and stereological study of neuroendocrine cells in human antrum during the perinatal period.

A correlative immunohistochemical and stereological study of neuroendocrine cells (NEC) was carried out in the antrum of twenty human fetuses with gestational ages from 18 to 42 weeks and of two specimens postnatally. Neuron-specific enolase (NSE) as a common marker of neurons and NEC, as well as gastrin (G-) and somatostatin (D-) immunoreactive cells served for evaluation of volume density, which proved to be the most convenient method for quantitative analysis of NEC. It was observed that a considerable frequency of NEC appeared at 23-24 weeks of gestation (8% of NSE- and 6% of G- cells) and coincided with the adult pattern of intramural innervation. After a repeated increase of NEC in the 26-week-old fetus, the frequency of NEC remained persistant during the perinatal period (10-12% of NSE- and 7-8% of G- cells). An exception was a specimen with a prolonged pregnancy (42 weeks) in which the percentage of NSE- (17%) and G- (10%) cells was almost the same as at 6 weeks postnatally. The maximal quantitative difference of NEC was noted between 6- and 8-week specimens postnatally, e.g. 9% to 22% of G- cells, respectively. Observations obtained by NSE and S-100 protein were also demonstrated in lymphoid cells of gut associated and mesenteric lymphoid tissue.