Cyberlindnera jadinii yeast as a functional protein source for Atlantic salmon (Salmo salar L.): Early response of intestinal mucosal compartments in the distal intestine.

The interplay between nutrition and the immune system is well recognized, and several studies show that experimental diets elicit local morphological changes and alteration of gene and protein expression in the intestinal mucosa of Atlantic salmon. In this study the pathophysiological effects of experimental diets on mucosal responses in the distal intestine of Atlantic salmon were investigated. Atlantic salmon were fed diets with inclusion of soybean meal (SBM) and Cyberlindnera jadinii (CJ) yeast for 7 days. A standard fish meal (FM) diet was used as a control. Morphological, immunohistochemical and gene expression analyses were used to evaluate the presence of immune cells, proliferating cells, and stem cell populations in mucosal compartments of the simple folds in the distal intestine. Fish fed SBM developed morphological changes consistent with SBM induced enteritis. Immunohistochemistry showed an increased presence of apoptotic cells, CD3ϵ and CD8α labelled cells in the simple fold epithelium of SBM group compared with the CJ group. For the investigated genes, expression levels in all three groups were mostly higher in the epithelial compartment of the simple fold than in the compartment beneath the folds. Most changes within the epithelial compartment were observed in fish fed SBM, where expression of CD3ζ, CD8α, MHC I and MHC II were lower than the FM control group. The CJ group had an increased expression of the stem cell marker Lgr5 in the epithelial compartment compared with SBM group. The division of the simple fold into an apical and basal compartment showed that the increase in Lgr5 was evident along the whole length of the simple folds and not confined to the base of the folds. Similarly, proliferation (PCNA, MCM2) and apoptosis (Caspase-3) gene expression was present in the entire length of the simple folds, suggesting that intestinal epithelial cell turnover is not confined to the basal or apical part of the fold. This study shows that the epithelial compartment is active in the early immunoregulatory response towards dietary stimuli and that the level of an intestinal stem cell marker in salmon was influenced by a diet containing CJ yeast.

Effects of Yeast Species and Processing on Intestinal Health and Transcriptomic Profiles of Atlantic Salmon (Salmo salar) Fed Soybean Meal-Based Diets in Seawater.

The objective of the current study was to examine the effects of yeasts on intestinal health and transcriptomic profiles from the distal intestine and spleen tissue of Atlantic salmon fed SBM-based diets in seawater. Cyberlindnera jadinii (CJ) and Wickerhamomyces anomalus (WA) yeasts were heat-inactivated with spray-drying (ICJ and IWA) or autolyzed at 50 °C for 16 h (ACJ and AWA), followed by spray-drying. Six diets were formulated, one based on fishmeal (FM), a challenging diet with 30% soybean meal (SBM) and four other diets containing 30% SBM and 10% of each of the four yeast fractions (i.e., ICJ, ACJ, IWA and AWA). The inclusion of CJ yeasts reduced the loss of enterocyte supranuclear vacuolization and reduced the population of CD8α labeled cells present in the lamina propria of fish fed the SBM diet. The CJ yeasts controlled the inflammatory responses of fish fed SBM through up-regulation of pathways related to wound healing and taurine metabolism. The WA yeasts dampened the inflammatory profile of fish fed SBM through down-regulation of pathways related to toll-like receptor signaling, C-lectin receptor, cytokine receptor and signal transduction. This study suggests that the yeast species, Cyberlindnera jadinii and Wickerhamomyces anomalus are novel high-quality protein sources with health-beneficial effects in terms of reducing inflammation associated with feeding plant-based diets to Atlantic salmon.

Cyberlindnera jadinii yeast as a functional protein source: Modulation of immunoregulatory pathways in the intestinal proteome of zebrafish (Danio rerio).

Yeasts contain bioactive components that can enhance fish immune robustness and disease resistance. Our study focused on analyzing intestinal immunoregulatory pathways in zebrafish (Danio rerio) using iTRAQ and 2D LC-MS/MS to quantify intestinal proteins. Zebrafish were fed either control diet (C) or diet supplemented with autolyzed Cyberlindnera jadinii (ACJ). KEGG analysis revealed that ACJ yeast diet induced increased abundance of proteins related to arginine and proline metabolism, phagosome, C-lectin receptor signaling, ribosome and PPAR signaling pathways, which can modulate and enhance innate immune responses. ACJ yeast diet also showed decreased abundance of proteins associated with inflammatory pathways, including apoptosis, necroptosis and ferroptosis. These findings indicate boosted innate immune response and control of inflammation-related pathways in zebrafish intestine. Our findings in the well annotated proteome of zebrafish enabled a detailed investigation of intestinal responses and provide insight into health-beneficial effects of yeast species C. jadinii, which is relevant for aquaculture species.

In situ localisation of major histocompatibility complex class I and class II and CD8 positive cells in infectious salmon anaemia virus (ISAV)-infected Atlantic salmon.

It is assumed that the mobilisation of a strong cellular immune response is important for the survival of Atlantic salmon infected with infectious salmon anaemia virus (ISAV). In this study, the characterisation of immune cell populations in tissues of non-ISAV infected Atlantic salmon and during the early viraemia of ISAV was undertaken. Immunohistochemical investigations of spleen, head kidney and gills using monoclonal antibodies against recombinant proteins from MHC I, II and CD8 were performed on tissues from Atlantic salmon collected day 17 post-challenge in a cohabitant infection model. The localisations of MHC I and II in control salmon were consistent with previous reports but this study presents novel observations on the distribution of CD8 labelled cell populations in Atlantic salmon including the description of significant mucosal populations in the gills. The distribution of MHC I, MHC II and CD8 positive cell populations differed between control salmon and cohabitant salmon in the early stages of ISAV infection. The changes in MHC I labelled cells differed between organs in ISAV cohabitants but all investigated organs showed a decreased presence of MHC II labelled cells. Together with a clustering of CD8 labelled cells in the head kidney and a reduced presence of CD8 labelled cells in the gills, these observations support the early mobilisation of cellular immunity in the response of Atlantic salmon to ISAV infection. However, differences between the present study and the findings from studies investigating immune gene mRNA expression during ISAV infection suggest that viral strategies to interfere with protein expression and circumvent the host immune response could be operative in the early response to ISAV infection.

Expression of prion gene and presence of prion protein during development of mouse molar tooth germ.

In order to gain insight into possible cellular functions of the prion protein (PrP) during normal development, the expression of Prnp (encoding the PrP) and the distribution of the PrP were studied in murine tooth germs. Expression of Prnp in the mouse first molar tooth germ was highly dynamic, increasing several-fold during the secretory phase of odontogenesis, exhibiting a time-course of expression similar to that of genes coding for other extracellular proteins [e.g. enamel matrix proteins (Amelx, Ambn, Enam), Aplp1, Clstn1, and Clu]. Western blot analysis suggested that the amounts of PrP and amyloid beta (A4) precursor-like protein 1 (APLP1) in the tooth germ followed time-courses similar to those of the corresponding mRNAs. Immunohistochemical studies of the distribution of PrP in murine molar and incisor tooth germs at embryonic day (E)18.5 suggested that this protein was located in the cervical loop, outer enamel epithelium, pre-ameloblasts, and dental papilla. Different degrees of immunolabelling of pre-ameloblasts on the mesial and distal aspects of a lower molar cusp may be related to different enamel configurations on the two aspects. It is concluded that the dynamic patterns of expression of Prnp, and of distribution of PrP, suggest that PrP may have functions during secretory odontogenesis, perhaps in relation to amelogenesis.

Immunopathological characterization of red focal changes in Atlantic salmon (Salmo salar) white muscle.

Farmed Atlantic salmon (Salmo salar) are prone to various conditions affecting the quality of the fillet. A well-known but so far poorly understood condition is the focal red changes in muscle, often referred to as haemorrhages. Such changes are characterized by muscle necrosis, haemorrhages and acute inflammation. They can progress into focal melanised changes, a chronic inflammatory condition with melanin-producing leukocytes. The initial cause of intramuscular haemorrhages is unknown. In this study, we aimed to reveal some of their key immunological features. Samples of red focal changes were investigated by immunohistochemistry (IHC), in situ hybridization (ISH) and RT-qPCR for various immune markers. The results were compared with samples of melanised changes and control muscle, subjected to the same analyses. In all red changes, infiltrates with mononuclear cells were detected, consisting mostly of MHC class I/II+ cells, but also of CD3+ and CD8+ cells. ISH studies on IgM showed few to moderate amounts of B-cells in red focal changes. Trends in the RT-qPCR showed upregulation of genes related to innate immunity in the red changes, whereas genes related to adaptive immunity were upregulated in the melanised changes. An important result was the significant downregulation of the anti-inflammatory cytokine IL10 in all red changes. Our findings indicate that we can rule out an auto invasive nature of the changes. The downregulation of IL10 at an early phase is a trait for the condition.

Cyberlindnera jadinii Yeast as a Protein Source for Weaned Piglets-Impact on Immune Response and Gut Microbiota.

Supplying novel feed ingredients for pig production is crucial to enhance food security and decrease the environmental impact of meat production. Several studies have focused on evaluating the beneficial health effects of yeast in pigs. However, its use as a protein source has been partially addressed. Previously, we have shown that yeast at high inclusion levels maintains growth performance and digestibility, while nutrient digestibility, intestinal villi height and fecal consistency were improved. The present study combined microbiome, short-chain fatty acid, and immune parameter analysis to investigate the effect of high inclusion of yeast in diets for post-weaning piglets. Our results showed that yeast did not have a significant impact on the hematological or biochemical parameters in blood. The different immune cell subpopulations isolated from blood and distal jejunal lymph nodes (DJLN) were analyzed by flow cytometry and showed that yeast diet induced an increased number of the subtype of leukocytes CD45+/CD3-/CD8+, a special type of Natural Killer (NK) cells. Also, a very mild to moderate infiltration of neutrophilic granulocytes and lower IgA level were observed in the colon of yeast fed piglets. The microbiome profiling in different compartments of the gastrointestinal tract of piglets was performed using 16S rRNA metabarcoding. The results showed that 40% replacement of dietary protein had a statistically significant effect on the microbial communities in cecum and colon, while the microbial population in ileum and jejunum were not affected. Analysis of predicted microbial metabolic pathways analysis revealed significant upregulation of short-chain fatty acids, ether lipid metabolisms, secondary bile acids, and several other important biosynthesis pathways in cecum and colon of pigs fed yeast. In conclusion, the results showed that diet containing 40% of yeast protein positively shaped microbial community in the large intestine and increased the number of a specific subpopulation of NK cells in the DJLN. These results showed that yeast modulates the microbiome and decreases the secretion of IgA in the colon of post-weaning pigs.

Effect of Cyberlindnera jadinii yeast as a protein source on intestinal microbiota and butyrate levels in post-weaning piglets.

BACKGROUND: Dietary yeast inclusions in a pig diet may drive changes both in gut bacterial composition and bacterial functional profile. This study investigated the effect of Cyberlindnera jadinii as a protein to replace 40% of the conventional proteins in a diet for weanling pigs on the microbiota in the small and large intestine, colonic short-chain fatty acid concentration, and colonic histopathology parameters. Seventy-two pigs weaned at 28 days of age were randomly assigned to either a control or a C. jadinii-based diet and followed for 2 weeks. RESULTS: Compared with the controls, higher numbers of cultivable lactic acid-producing bacteria in the small and large intestine were registered in the yeast group. Alpha and beta bacterial diversity were different between the diet groups with lower alpha-diversity and distinct bacterial composition in the large intestine in the yeast group compared with those of the controls. The large intestine microbiota in the yeast group had higher numbers of Prevotella, Mitsuokella and Selenomonas compared with those of the controls. The concentrations of colonic acetate and butyrate were higher in the controls compared with that of the yeast group. The colonic crypt depth was deeper in the control group. The gut histopathology of colonic tissues revealed no differences between the diets. The colonic crypt depth tended to be deeper with higher relative abundance of an unclassified Spirochetes, higher colonic butyrate concentration, and higher bacterial richness. The concentration of colonic butyrate was positively associated with the relative abundance of the Faecalibacterium prausnitzii, Dialister, and an unclassified amplicon of the Spirochaetaceae family in the colon. CONCLUSIONS: The replacement of the conventional proteins by proteins from Cyberlindnera jadinii in a weanling pig diet reshaped the large intestine microbiota structure. The novel yeast diet appeared to be selective for Lactobacillus spp., which may represent an added value resulting from using the sustainably produced yeast protein ingredient as an alternative to conventional protein ingredients in animal diets. The large intestine bacterial composition and their metabolites may be involved in an adaptive alteration of the colonic crypts without pathological consequences.

NCR1+ cells appear early in GALT development of the ovine foetus and acquire a c-kit+ phenotype towards the end of gestation.

The amount, distribution and phenotype of ovine NCR1+ cells were investigated during developing GALT from day 70 of gestation. Antibodies against CD3 and CD79 were used to identify the compartments of GALT, and the localization of NCR1+ cells were correlated within these structures. Markers CD34 and c-kit, in addition to Ki67, were used to investigate possible origin and the stage of development of the NCR1+ cells. NCR1+ cells were present as single cells in the subepithelial tissue as early as 70 days of gestation, and were predominantly present in the T cell rich IFAs and domes as these intestinal wall compartments developed. While NCR1+ cells proliferated more intensively at mid-gestation (70-104 days), the number of NCR1+ cells also expressing c-kit, increased at the end of gestation. In conclusion, NCR1+ cells appeared early in T cell areas of the gut and displayed a phenotype consistent with intermediate stages of cNK cells and/or a subpopulation of ILC22.

The interbranchial lymphoid tissue of Atlantic Salmon (Salmo salar L) extends as a diffuse mucosal lymphoid tissue throughout the trailing edge of the gill filament.

The teleost gill forms an extensive, semipermeable barrier that must tolerate intimate contact with the surrounding environment and be able to protect the body from external pathogens. The recent discovery of the interbranchial lymphoid tissue (ILT) has initiated an anatomical and functional investigation of the lymphoid tissue of the salmonid gill. In this article, sectioning of gill arches in all three primary planes revealed an elongation of the ILT outward along the trailing edge of the primary filament to the very distal end, a finding not previously described. This newly found lymphoid tissue was investigated using a range of morphological and transcriptional tools. Avoiding potential salinity-related effects, the study focused on two fresh-water life stages-smoltifying juveniles and mature adults. Aggregates of T-cells continuous with the ILT were found within the thick epithelial lining of the trailing edge of the filament in considerably larger numbers than seen in the epithelium of the leading edge and of the interlamellar area. Only a few of these cells were identified as CD8α(+) -cells, and there was a significantly (P < 0.05) higher relative expression of CD4- than of CD8- related genes in all gill segments investigated. Numerous major histocompatibility complex class II(+) -cells were distributed uniformly throughout the filament epithelial tissue. Few Ig(+) -cells were detected. Overall, the morphological features and comparable immune gene expression of the previously described ILT and the filament trailing edge lymphoid tissue suggest a close functional and anatomical relationship. We propose that the anatomical definition of the ILT must be broadened to include both the previously described ILT (to be renamed proximal ILT) and the trailing edge lymphoid tissue (to be named distal ILT). This extended anatomical localisation identifies the ILT as a widely distributed mucosal lymphoid tissue in the gill of Atlantic salmon.

Establishment of Mycobacterium avium subsp. paratuberculosis infection in the intestine of ruminants.

Mycobacterium avium subsp. paratuberculosis (M. a. paratuberculosis) is the cause of paratuberculosis, which is a chronic enteritis of ruminants characterized by granulomatous inflammation. The transmission of the infection is mainly by faecal contaminated feed. The bacteria are transported from the intestinal lumen into the intestinal wall via M cells, which overlie the domes of Peyer's patches. It is proposed that integrin receptors on the apical surface of M cells bind fibronectin-opsonized bacteria, facilitating phagocytosis by these cells. After crossing the epithelial barrier of the intestine, the bacteria are phagocytosed by macrophages, which are the target cell for this microorganism. Macrophages internalize the bacteria by binding to different receptors, including the complement receptor 3, and phagosomes containing the organisms are formed. Macrophages can destroy M. a. paratuberculosis, but not by way of oxidative compounds. The bacteria manipulate macrophages in order to survive, inhibiting the maturation and acidification of the phagosomes, and modulating macrophage cytokine production and antigen-presentation.

Involvement of gut-associated lymphoid tissue of ruminants in the spread of transmissible spongiform encephalopathies.

Scrapie is a transmissible spongiform encephalopathy (TSE) and its spread across the intestine of sheep is linked to the biology of intestinal Peyer's patches (PPs). Specialized epithelial cells, M cells, would appear to be the portal of entry for the scrapie agent, PrP(Sc), while lymphoid nodules of PPs become major sites of accumulation of PrP(Sc) as the infection becomes established. Furthermore, evidence suggests that the enteric nervous system supplying the PPs is important for neuroinvasion. The gut-associated lymphoid tissue (GALT) of ruminants shows morphological and functional differences to the GALT of mice and humans. Recent investigations of aging scrapie-affected sheep revealed a substantial network of nerve fibres in the lymphoid nodules of PPs, contradicting the widely held notion that lymphoid nodules are poorly innervated. Advances in the understanding of the pathogenesis of scrapie may be achieved by a deeper appreciation of the development, morphology and function of GALT in small ruminants.

Comparison of flow cytometry and image morphometry in the quantitative analysis of cell population markers in the lymph node of sheep.

Two approaches to the quantitative analysis of cell population markers in tissues are flow cytometry and image morphometry. To compare these methods, sheep lymph nodes were collected and analysed for CD8+ and CD21+ cell populations, which were selected to represent dispersed and concentrated cell populations, respectively. These two populations were measured as a percentage of total cell count (flow) or total tissue area (morphometry). The two populations were also measured as a percentage of respective base populations (CD2+ cells for CD8 and MHC II+ cells for CD21). A simple linear regression analysis showed that when the cell populations were assessed as a percentage of total cell count or total area, measurements obtained with flow and morphometry only correlated significantly with the dispersed CD8+ population and not with the highly concentrated CD21+ population. However, when the cell populations were assessed as a percentage of their base population, measurements obtained with flow and morphometry showed a significant correlation for both the dispersed and concentrated cell populations. This study demonstrates that measurements of lymph node cell populations obtained with the two methods are comparable, but that tissue distribution of cell populations should be considered, when the unit of measurement is chosen.

Phenotypic characterization of cells participating in transport of prion protein aggregates across the intestinal mucosa of sheep.

The oral route is considered to be the main entry site of several transmissible spongiform encephalopathies or prion diseases of animals and man. Following natural and experimental oral exposure to scrapie, sheep first accumulate disease associated prion protein (PrP (d) ) in Peyer's patch (PP) lymphoid follicles. In this study, recombinant ovine prion protein (rPrP) was inoculated into gut loops of young lambs and the transportation across the intestinal wall studied. In particular, the immunohistochemical phenotypes of cells bearing the inoculated prion protein were investigated. The rPrP was shown to be transported across the villi of the gut, into the lacteals and submucosal lymphatics, mimicking the transport route of PrP (d) from scrapie brain inoculum observed in a previous intestinal loop experiment. The cells bearing the inoculated rPrP were mainly mononuclear cells, and multicolor immunofluorescence procedures were used to show that the rPrP bearing cells were professional antigen presenting cells expressing Major histocompatibility complex II (MHCII). In addition, the rPrP bearing cells labeled with CD205, CD11b and the macrophage marker CD68, and not with the dendritic cell markers CD11c and CD209. Others have reported that cells expressing CD205 and CD11b in the absence of CD11c have been shown to induce T cell tolerance or regulatory T cells. Based on this association, it was speculated that the rPrP and by extension PrP (d) and scrapie infective material may exploit the physiological process of macromolecular uptake across the gut, and that this route of entry may have implications for immune surveillance.

Depletion of CD8 alpha cells from tissues of Atlantic salmon during the early stages of infection with high or low virulent strains of infectious salmon anaemia virus (ISAV).

The virulence of an infectious salmon anaemia virus (ISAV) isolate is influenced by the response of the host's immune system to virus infection. Here we report the fate of immune responsive cells in head kidney, spleen and gills of Atlantic salmon during infection with high and low virulent strains of ISAV. A comparison of real-time PCR detection of virus and immunohistochemical detection of immune responsive cells revealed that peak viral load was coincident with both an elevated presence of MHC class I cells and a marked depletion of CD8 alpha cells. There was a larger CD8 alpha population in tissues from salmon infected with the low virulent strain compared with tissues from salmon infected with the high virulent strain at early stages of infection. These findings suggest a protective role for the CD8 alpha cell population in immune defences against ISAV.

Prion protein function and the disturbance of early embryonic development in zebrafish.

Transmissible Spongiform Encephalopathies (TSE) or prion diseases are a threat to food safety and to human and animal health. The molecular mechanisms responsible for prion diseases share similarities with a wider group of neurodegenerative disorders including Alzheimer disease and Parkinson disease and the central pathological event is a disturbance of protein folding of a normal cellular protein that is eventually accompanied by neuronal cell death and the death of the host. Prion protein (PrP) is a constituent of most normal mammalian cells and its presence is essential in the pathogenesis of TSE. However, the function of this normal cellular protein remains unclear. The prevention of PRNP gene expression in mammalian species has been undramatic, implying a functional redundancy. Yet PrP is conserved from mammals to fish. Recent studies of PrP in zebrafish have yielded novel findings showing that PrP has essential roles in early embryonic development. The amenability of zebrafish to global technologies has generated data indicating the existence of "anchorless" splice variants of PrP in the early embryo. This paper will discuss the possibility that the experimentalist's view of PrP functions might be clearer at a greater phylogenetic distance.

PrP expression, PrPSc accumulation and innervation of splenic compartments in sheep experimentally infected with scrapie.

BACKGROUND: In prion disease, the peripheral expression of PrP(C) is necessary for the transfer of infectivity to the central nervous system. The spleen is involved in neuroinvasion and neural dissemination in prion diseases but the nature of this involvement is not known. The present study undertook the investigation of the spatial relationship between sites of PrP(Sc) accumulation, localisation of nerve fibres and PrP(C) expression in the tissue compartments of the spleen of scrapie-inoculated and control sheep. METHODOLOGY/PRINCIPAL FINDINGS: Laser microdissection and quantitative PCR were used to determine PrP mRNA levels and results were compared with immunohistochemical protocols to distinguish PrP(C) and PrP(Sc) in tissue compartments of the spleen. In sheep experimentally infected with scrapie, the major sites of accumulation of PrP(Sc) in the spleen, namely the lymphoid nodules and the marginal zone, expressed low levels of PrP mRNA. Double immunohistochemical labelling for PrP(Sc) and the pan-nerve fibre marker, PGP, was used to evaluate the density of innervation of splenic tissue compartments and the intimacy of association between PrP(Sc) and nerves. Some nerve fibres were observed to accompany blood vessels into the PrP(Sc)-laden germinal centres. However, the close association between nerves and PrP(Sc) was most apparent in the marginal zone. Other sites of close association were adjacent to the wall of the central artery of PALS and the outer rim of germinal centres. CONCLUSIONS/SIGNIFICANCE: The findings suggest that the degree of PrP(Sc) accumulation does not depend on the expression level of PrP(C). Though several splenic compartments may contribute to neuroinvasion, the marginal zone may play a central role in being the compartment with most apparent association between nerves and PrP(Sc).

Effect of early infectious salmon anaemia virus (ISAV) infection on expression of MHC pathway genes and type I and II interferon in Atlantic salmon (Salmo salar L.) tissues.

A number of viral diseases affecting teleost fish are characterized but few studies have addressed the effects of viral infection on gene expression in vivo. In this study, we investigated the effect of the early stages of infectious salmon anaemia virus (ISAV) infection on important components of the innate and adaptive immune response by monitoring expression of five genes in the MHC class I pathway, MHC class IIbeta, type I IFN-alpha, Mx, and type II IFN-gamma from cohabitant-infected Atlantic salmon tissues using quantitative real-time PCR. There was an increased expression of type I IFN-alpha in all tissues analyzed in response to infection that was proportional to viral load (relative to virus RNA levels) in gills and head kidney. Basal expression of IFN-gamma was modest or absent in all tissues, but expression was strongly induced and proportional to ISAV RNA levels in heart, spleen and head kidney. A 10-fold or higher level of virally induced IFN-alpha, in addition to significantly elevated levels of IFN-gamma, enhanced transcription of MHC class I pathway genes in heart, spleen and head kidney. In gills, the main entry site for ISAV, there was no induction of MHC class I pathway genes. MHC IIbeta and PSMB9 were not significantly induced in any tissue. Thus, by analysing various immune genes in a range of tissues from early cohabitant ISAV-infected salmon, we demonstrate that ISAV infection induced a rapid type I and II IFN response in the major infected lymphoid tissues, which was concurrent with induced expression of MHC class I pathway genes but not MHC IIbeta. This may suggest that CD8(+) T cell responses are more important than CD4(+) T cell responses during early ISAV viraemia.

Increased PrP mRNA expression in lymphoid follicles of the ileal Peyer's patch of sheep experimentally exposed to the scrapie agent.

To understand the functional role of cellular prion protein (PrP(C)) in the initiation and maintenance of prion disease within the host, it is important to obtain a more detailed understanding of PrP(C) transcription in tissues during the development of disease. Using an experimental model with oral infection, we examined the effect of scrapie and the accumulation of the scrapie related form of the prion protein (PrP(Sc)) on the expression level of PrP mRNA in the ileal Peyer's patch of sheep. In the early phase of infection, prior to PrP(Sc) accumulation, no effect on the PrP expression was detected. However, it was found that lambs with PrP genotypes associated with high susceptibility for scrapie generally had higher PrP mRNA levels than lambs with less susceptible genotypes. Further, in highly susceptible VRQ/VRQ sheep at a stage of disease with high accumulation of PrP(Sc), real-time RT-PCR and microdissection were used to investigate levels of PrP mRNA in four different tissue compartments. An increased level of PrP mRNA was found in lymphoid follicles of infected sheep compared with controls, indicating upregulation of PrP expression in the follicles to compensate for the loss of PrP(C) converted to PrP(Sc), or that PrP(Sc) accumulation directly or indirectly influences the PrP expression. Still, the PrP expression level in the follicles was low compared with the other compartments investigated, suggesting that although increased PrP expression could contribute to PrP(Sc) accumulation, other factors are also important in the processes leading to accumulation of PrP(Sc) in the follicles.

Serum immunoglobulin M in Atlantic halibut (Hippoglossus hippoglossus): characterisation of the molecule and its immunoreactivity.

Three preparations of purified immunoglobulin (IgM) were isolated from serum of Atlantic halibut (Hippoglossus hippoglossus) by means of three different methods, and each of the three IgM preparations was used to produce a polyclonal rabbit anti-halibut IgM antiserum. One of the IgM preparations was employed in the characterisation of halibut serum immunoglobulin. Halibut IgM was shown to consist of two subunits, compatible with heavy (mu) and light (L) chains. A single mu chain at approximately 76 kDa, and six possible molecular weight (MW) variants of L chain were found (range approximately 25 to approximately 28.5 kDa). IgM was glycosylated on the heavy chain and N-linked carbohydrate constituted approximately 10.3% (w/w) of the total MW of IgM. The dominant form of non-reduced IgM had a MW of approximately 780 kDa, suggesting a tetrameric structure. Non-reduced IgM also showed a number of minor protein bands. Based on estimated MW, the relative carbohydrate content and the reactivity with all three anti-halibut IgM antisera, mono-, di- and trimeric redox forms of IgM were identified. The three antisera were characterised as to specificity and reactivity by means of enzyme linked immuno-sorbent assay (ELISA), crossed immuno-electrophoresis (CIE), and immunoblotting methods. The antisera showed a considerable diversity in their specificity to the suggested MW variants of halibut Ig light chain. A method for immunohistochemical detection of IgM in tissue was established. Protein A or protein G affinity for the IgM was not detectable.