A polysaccharide extracted from sphagnum moss as antifungal agent in archaeological conservation

On the basis of the well-known preservative properties of Sphagnum moss, a potential opportunity to use moss polysaccharides (Sphagnan) in art conservation was tested. Polysaccharides were extracted from the moss (S. palustre spp.) in the amount of 4.1% of the Sphagnum plant dry weight. All lignocelluloses were removed from this extract as a result of the treatment of the moss cellulose with sodium chlorite. The extracted polysaccharide possessed a strong acidic reaction (pH 2.8) and was soluble in water and organic solvents. The extract was tested on laboratory bacterial cultures by the disk-diffusion method. The antibacterial effect was demonstrated for E. coli and P. aeruginosa (both gram-negative) while Staphylococcus aurelus (gram-positive) was shown to be insensitive to Sphagnum polysaccharides. The antifungal effect of Sphagnum extract was tested by the disk-diffusion method on the spores of seventeen fungal species. These fungi were isolated from ethnographic museum objects and from archaeological objects excavated in the Arctic. Twelve of these isolates appeared susceptible to the extract. The inhibiting effect of the extract was also tested by the modified broth-dilution method on the most typical isolate (Aspergillus spp.). In this experiment, in one ml of the nutritious broth, 40µl of 3% solution of polysaccharides in water killed 10,000 fungal spores in 6 hours. The inhibiting effect was not connected to the acidity or osmotic effect of Sphagnum polysaccharides. As an example of the application of Sphagnum polysaccharides in art conservation, they were added as preservative agents to conservation waxes. After three weeks of exposure of microcrystalline wax to test fungi (Aspergillus spp.), 44% of wax was consumed. When, however, ~ 0.1% (w/w) of Sphagnum extract was mixed with wax, the weight loss of wax was only 4% in the same time interval. On the basis of this study it was concluded that Sphagnum moss and Sphagnum products can be recommended for use in art conservation as antifungal agents.

ROLE OF MULTIPLE TOLL-LIKE RECEPTOR ACTIVATION IN REGULATING CYTOTOXIC T CELL PRIMING TO LYMPOCYTIC CHORIOMENINGITIS VIRUS INFECTIONS

Foreign pathogens are recognized by toll-like receptors (TLR), present on various immune cells such as professional antigen-presenting cells (pAPCs). On recognition of its ligand, these receptors activate pAPCs, which may in turn influence naïve CD8+ T cell activation and affect their abilities to clear viral infection. However, how TLR ligands (TLR-L) can regulate CD8+ T cell responses have not been fully elucidated. This thesis will focus on examining how the presence of components from foreign pathogens, e.g. viral or bacterial infection, can contribute to shaping host immunity during concurrent viral infections. Since nitric oxide (NO), an innate effector immune molecule, was recently suggested to regulate proteasome activity; we sought to examine if NO can influence MHC-I antigen presentation during viral infections. The data in this section of the thesis provides evidence that combined TLR engagement can alter the presentation of certain CD8+ epitopes due to NO-induced inhibition in proteasome activity. Taken together, the data demonstrate that TLR ligation can influence the adaptive immune response due to induction of specific innate effector molecules such as NO. Next, the influence of combined TLR engagement on CD8+ T cell immunodominance hierarchies during viral infections was examined. In this section, we established that dual TLR2 and TLR3 stimulation alters immunodominance hierarchies of LCMV epitopes as a result of reduced uptake of cell-associated antigens and reduced cross-presentation of NP396 consequently suppressing NP396-specific CD8+ T cell responses. These findings are significant as they highlight a new role for TLR ligands in regulating anti-viral CD8+ T cell responses through impairing cross-presentation of cell-associated antigens depending on the type of TLR present in the environment during infections. Finally, we addressed TLR ligand induced type I interferon production and the signalling pathways that regulate them in two different mouse macrophage populations – those derived from the spleen or bone marrow. In this study, we observed that concomitant TLR2 stimulation blocked the induction of type I IFN induced by TLR4 in bone marrow-derived macrophages, but not spleen-derived macrophages in SOCS3-dependent manner. Taken together, the data presented in this thesis have defined new facets of how anti-viral responses are regulated by TLR activation, especially if multiple receptors are engaged simultaneously.

The Function of Intestinal Afferent Neurons in Regulating Satiety During Health and Obesity

Background and aim: Within the gastrointestinal tract, vagal afferents regulate satiety and food intake via chemical and mechanical mechanisms. Cysteinyl Leukotrienes (CysLTs) are lipid mediators that are believed to regulate food intake and body weight. However, the involvement of vagal afferents in this effect remains to be established. Conversely, Glucagon like peptide-1 (GLP-1) is a satiety and incretin peptide hormone. The effect of obesity on GLP-1 mediated gut-brain signaling has yet to be investigated. Since intestinal vagal afferents’ activity is reduced during obesity, it is intriguing to investigate their responses to GLP-1 in such conditions. Methods: Extracellular recordings were performed on intestinal afferents from normal C57Bl6, low fat fed (LFF), and high fat fed (HFF) mice. To examine the effect on neuronal calcium signaling, calcium-imaging experiments were performed on isolated nodose ganglion neurons. Food intake experiments were conducted using LFF and HFF mice. Oral glucose tolerance tests (OGTT) were carried out. Whole cell patch clamp recordings were performed on nodose ganglion neurons from A) normal C57Bl mice to test the effect of CysLTs on membrane excitability, B) LFF and HFF mice to examine GLP-1 effect on membrane excitability during obesity. c-Fos immunohistochemical techniques were performed to measure the level of neuronal activation in the brainstem of both LFF and HFF mice in response to Ex-4. Results: CysLTs increased intestinal afferent firing rate and mechanosensitivity. In single nodose neuron experiments, CysLTs increased excitability. The GLP-1 agonist Ex-4 significantly decreased food intake in LFF but not HFF mice. However, Ex-4 markedly attenuated the rise in blood glucose in both LFF and HFF mice. The observed increase in nerve firing and mechanosensitivity following the application of GLP-1 and Ex-4 was abolished in HFF mice. Cell membrane excitability was significantly increased by Ex-4 in nodose from LFF but not HFF mice. Ex-4 significantly increased the number of activated neurons in the NTS area of LFF mice but not in their HFF counterparts. Conclusion: The previous observations indicate that the role CysLTs play in regulating satiety is likely to be vagally mediated. Also that satiety, but not incretin, effects of GLP-1 are impaired during obesity.