Improved uptake of plant-derived LTB-linked proteins in carp gut and induction of specific humoral immune responses upon infeed delivery.

Oral vaccination of fish is an effortless and stress free immunisation method which can be used for almost any age. However, vaccination via the mucosal route does have disadvantages. For example, the vaccine may induce tolerance and has to be protected to escape digestion. Also the vaccine should be efficiently delivered to immune-competent cells in the gut or other lymphoid organs. In addition, it should be cost effective. Here we present a novel fish vaccination model using potato tubers as vaccine production and delivery system. The model vaccines discussed here include fusion proteins consisting of a gut adhesion molecule (LTB) and a viral peptide or green fluorescent protein (GFP) expressed in potato tubers. The adhesion molecule mediates binding to and uptake from the gut, whereas the viral peptide or GFP functions as model vaccine antigen provoking the induction of an immune response. We demonstrate that fusion to LTB facilitates an elevated uptake of the model vaccines in carp gut mucosa. The plant-derived fusion proteins also elicit a specific systemic humoral immune response upon oral application of crude tuber material incorporated into a standard dietary feed pellet. The data presented here show the promising potentials of the plant as a production system for oral vaccines in aquaculture and feed mediated immunisation of fish.

Development of a cost-effective oral vaccination method against viral disease in fish.

Different vaccination methods have been applied to protect fish against the detrimental effects of various pathogens. Several studies have shown the potentials of oral vaccination. In theory oral vaccination is an effortless and stress-free method which can be applied at almost any age. In general, however, the vaccine has to be protected to avoid digestion, which results in high costs for application in aquaculture. In this paper we introduce a cost-effective oral vaccination strategy for viral diseases of fish. The vaccines discussed here include fusion proteins consisting of a gut adhesion molecule and a viral peptide expressed in plants. The adhesion molecule mediates binding to and uptake from the gut, whereas the viral peptide functions as vaccine antigen mediating the induction of a humoral immune response. The first pilot studies using a fusion of the gut adhesion molecule and well-characterised heterologous linear B- and T-cell viral epitopes, produced in potato tubers, showed a promising binding and subsequent uptake in the end gut of carp. The results further indicated that a specific humoral immune response was evoked.

A modified ex vivo skin organ culture system for functional studies.

To investigate the immunological function of cells in normal and diseased skin under conditions approximating the in vivo situation, it is necessary to maintain the structural integrity of the tissue. To achieve this, freshly isolated skin has to be cultured ex vivo, or an in vitro-constructed complete skin equivalent may be used. Different skin organ culture systems have been described. Basically two systems prevail: submerged or air-exposed skin organ cultures. The former model has been used for measuring cytokine secretion by skin cells in the medium, and the latter to study the expression of cell membrane proteins in situ and the kinetics of epidermal Langerhans cells. Here we present a modified ex vivo skin organ culture system which approaches the in vivo situation by maintaining the normal skin architecture without spontaneous induction of the regenerative maturation markers. This method allowed the expression of cell membrane proteins in situ to be measured, and the cytokine secretion by skin cells in the culture medium to be quantitated in the same experiment. In this system, both general and specific stimuli (LPS and IL-1beta) upregulated the expression of skin-derived cytokines IL-8 and IL-6 in the medium and different markers (ICAM-1, CD40 and CD86) on cells in the tissue in a 24-hour culture-formed. Elevation of both cytokine and cell marker expression could be blocked by dexamethasone and by IL-1ra which acts specifically on IL-1beta-mediated responses. The system presented here is both quick and simple and can be used as a model to study the behaviour of skin cells in their natural microenvironment.

Human keratinocytes are major producers of IL-18: predominant expression of the unprocessed form.

The cytokine network in the skin is a tightly regulated system in which IL-1 isoforms, as well as their receptors and antagonists have a central role. The recently discovered IL-1 isoform IL-18 (also known as interferon gamma-inducing factor (IGIF) or IL-1gamma), promotes IFN-gamma expression by T cells in concert with IL-12. Because IFN-gamma plays an important role in many inflammatory skin diseases by facilitating the development of Th1 cells, it is important to elucidate the role of mediators which regulate the production of this cytokine. We demonstrate that human keratinocytes constitutively express IL-18 at the mRNA as well as at the protein level. The protein was mainly expressed intracellularly in the 24 kD unprocessed pro-form, but was also secreted. Histochemistry revealed a diffuse staining of IL-18 in the epidermis of normal skin, which is in line with our in vitro data. Furthermore, we show that the level of IL-18 expressed in freshly isolated normal human epidermal cells, whether or not containing HLA-DR+ cells, significantly exceeded the expression levels of other cell types such as monocytes and bronchial epithelial cells. Finally, our results show that stimulation of the keratinocyte cell line HaCaT with PMA LPS or IL-1beta, does not significantly affect intracellular or released (pro) IL-18 levels. These experiments show for the first time that human keratinocytes relative to monocytes, PBMC or leukocytes produce a considerably larger amount of pro-IL-18, which is also readily released. High constitutive levels of IL-18 may contribute to the skewing towards a Th1-like environment, which is apparent in many human inflammatory skin diseases.

Pararosaniline fixation for detection of co-stimulatory molecules, cytokines, and specific antibody.

Integral immunohistochemical analysis of immune responses in frozen sections requires that, in addition to constitutively expressed membrane CD markers, less stable determinants can be reliably visualized. Therefore, we compared the commonly used acetone fixation method with pararosaniline fixation for six determinant categories. These categories included selected constitutively expressed markers, inducible co-stimulatory molecules, pro- and anti-inflammatory cytokines (including the novel cytokine IL-18, also known as IGIF and IL-1gamma), antigen-specific antibody in plasma cells, bacterial peptidoglycan, and lysosomal acid phosphatase activity. Human spleen and mouse spleen activated by agonistic anti-CD40 antibody or TNP-Ficoll immunization were analyzed in parallel with brain tissue from multiple sclerosis (MS) patients and marmoset monkeys with experimental autoimmune encephalomyelitis (EAE), an animal model for MS. Fixation with pararosaniline resulted in better morphology of all tissues and inhibited endogenous alkaline phosphatase activity in brain tissue. Most determinants could be reliably detected. Staining sensitivity and intensity were markedly increased for selected determinant-tissue combinations, e.g., for IL-4 in human spleen and CD40 in human and mouse spleen. These data show that pararosaniline is a useful alternative to acetone, resulting in superior morphology and specific staining for selected determinant-tissue combinations. This provides additional flexibility for in situ analysis of immune reactivity.

Biological activity of human epidermal interleukin-1beta: comparison with recombinant human interleukin-1beta.

We have recently presented evidence that human plantar stratum corneum and psoriatic scales contain biologically active interleukin-1beta (IL-1beta) which has been activated in a process not involving interleukin-1beta-converting-enzyme. The aim of the present study was to compare this form of native IL-1beta with recombinant mature human IL-1beta as regards activity and the effects of inhibitors. In an assay based on the ability of IL-1 to induce the expression of E-selectin in cultured endothelial cells, the maximal activity of IL-1beta partially purified from plantar stratum corneum and recombinant IL-1beta was approximately the same. The specific activity was slightly higher for recombinant IL-1beta, although this difference was within one order of magnitude. An antibody to IL-1beta caused total inhibition of both forms of IL-1beta with no significant differences in the dose-response curves for the antibody. Immunochemical analyses and experiments with neutralising antibodies specific for IL-1alpha and tumor necrosis factor-alpha (TNF-alpha) verified that the observed activity in the partially purified preparation was due to IL-1beta, and not to IL-1alpha or TNF-alpha. There were no significant differences between the two forms of IL-1beta as regards the inhibitory effects of recombinant IL-1 receptor antagonist. Partially purified IL-1beta from plantar stratum corneum and from psoriatic scales were both highly active in the D10 proliferation assay. This activity could be totally inhibited with an IL-1beta specific antibody. This work thus confirms the presence of biologically active IL-1beta in plantar stratum corneum and psoriatic scales. Alternatively activated IL-1beta in the epidermis should be considered in future studies on skin biology and pathophysiology.