X V I I I V Í S I N D A R Á Ð S T E F N A H Í F Y L G I R I T 9 1 LÆKNAblaðið/Fylgirit 91 2017/103 79 from the inflamed site is necessary for resolution of inflammation, decr- eased secretion of cytokines that are important for neutrophil survival (like TNF-α and GM-CSF) may be involved in the mechanism by which omega-3 PUFA enhance resolution of inflammation. V 57 Natural killer cells play an essential role in resolution of antigen-induced inflammation in mice Ósk Anuforo1, Stefanía P. Bjarnarson1, Hulda Jónasdóttir2, Martin Giera2, Ingibjörg Harðardóttir3, Jóna Freysdóttir1 1Dept of Immunology, Landspitali-The National University Hospital of Iceland / University of Iceland, 2Center for Proteomics and Metabolomics, Leiden University Medical Center, 3Biohemistry and Molecular Biology, Faculty of Medicine, University of Iceland oua@hi.is Introduction: NK cells have been implicated in resolution of allergic airway inflammation. This study examined the role of NK cells in resolution of inflammation in an antigen-induced peritonitis. Methods and data: Mice were immunized twice with methylated BSA (mBSA) and inflammation induced by intraperitoneal injection of mBSA. They were injected intravenously with an NK cell depleting antibody (anti-asialo GM1, αASGM1) or a control antibody 24 h prior to peritonit- is-induction. Peritoneal exudates, spleen and draining lymph nodes were collected and cryosections stained by immunofluorescence and peritoneal cells and soluble mediators analyzed by flow cytometry, ELISA and LC- -MS/MS. Results: The number of peritoneal neutrophils 12 h after induction of in- flammation was higher in the αASGM1-injected mice than in the control mice. The number of neutrophils was still high in the αASGM1-injected mice when they had returned to baseline in the control mice. Peritoneal concentrations of the neutrophil regulators G-CSF and IL-12p40 were higher at 12 h in the αASGM1-injected mice than in the control mice, whereas concentrations of lipid mediators implicated in resolution of inflammation, i.e. LXA4 and PGE2, were lower. Reduced apoptosis was detected in draining lymph nodes and spleens from the αASGM1-injected mice compared with that in the control mice and lower numbers of perito- neal NK cells expressing NKp46 and NKG2D, receptors implicated in NK cell-induced neutrophil apoptosis. Conclusions: These results indicate a crucial role for NK cells in resolution of antigen-induced inflammation and suggest their importance in temper- ing neutrophil recruitment and maintaining neutrophil apoptosis. V 58 Design of experiments approach for structural optimization of antibacterial and hemolytic properties of chitosan derivatives Priyanka Sahariah1, Bergþóra S. Snorradóttir2, Martha Á. Hjálmarsdóttir2, Ólafur E. Sigurjónsson3, Már Másson2 1Pharmaceutical Sciences, University of Iceland, 2University of Iceland, 3Landspitali University Hospital prs1@hi.is Introduction: Design of Experiments (DOE) is a systematic method for planning and analyzing the outcome of experiments and describing the relationship between the factors affecting an experiment and the outcome (responses). In the current study, the DOE approach was used to obtain the minimum number of compounds containing various proportions of cationic and hydrophobic groups that would have maximum influence on the activity/toxicity of the biopolymer, chitosan. Methods: MODDE, a specialized software for planning and analyzing the results of a DOE study, was used to design the experiments, create a model and analyze the results. The three experimental parameters were the three functional groups namely the N,N,N-trimethyl group, N-acetyl group and N-stearoyl group, which were introduced into the polymer at specific ratios in ‘one-pot synthesis’ utilizing the TBDMS protected chitos- an. The antibacterial activity (MIC) towards the Staphylococcus aureus and Escherichia coli, hemolytic activity (HC50) towards human red blood cells and solubility of the chitosan derivatives were used as the responses in the model. Results: The refinement of the model led to improvement of the statistical significance and predictive power of the model, which showed that the trimethyl group is the most influential factor for enhancement of aqueous solubility and antibacterial activity of the derivatives towards Stap- hylococcus aureus and Escherichia coli, while N-acetyl and N-stearoyl group remained less significant. Conclusion: The results led us to the conclusion that using structure as a variant, design of experiments can be successfully utilized for the develop- ment of structure-activity relationship of this biomaterial. V 59 Micro-encapsulated doxycycline containing buccal films with improved stability, enhanced mucoadhesion and residence times Venu Gopal Reddy Patlolla1, Þórdís Kristmundsdóttir1, Peter Holbrook2 1Faculty of Pharmaceutical Sciences, 2Faculty of Odontology, University of Iceland vgr1@hi.is Introduction: Mucoadhesive buccal films are an efficient and alternative drug delivery systems to the enteral route, which can be utilized to deliver drugs to both local as well as systemic circulation. They form a protective barrier over the inflamed mucosa, which prevents the further exacerbation, but the drawbacks include poor retention at the applied site due to dislod- gement from tongue activity, rapid disintegration of the films and drug burst release. All the drawbacks were addressed by incorporating micro-particles into the buccal films and their physicochemical properties were studied. Methods: The films were prepared using a solvent casting method, the micro-particles were prepared using a spray dryer, the micro-particle size was evaluated using a microscope and the morphological characteristics were analysed by scanning electron microscopy. The drug-excipient inter- action was evaluated using Differential scanning calorimetry(DSC), the in vitro release times were accessed using the USP paddle over disc method, the permeation studies were carried out with an artificial membrane and the mucoadhesion studies were evaluated with the texture analyzer. Results: A prolonged and uniform drug release was achieved and also improved the stability of the active component. The work of mucoadhes- ion was improved as the individual micro-particles possess more surface area of exposure to the mucus membrane and marked difference in the in vitro release times for the films containing micro-particles was observed. Conclusions: The study showed that the incorporation of micro-particles improved the stability, formulation retention time and enhanced the mucoadhesion capacity, but the uniform drug distribution needs to be further addressed. V 60 Exopolysaccharides from C. aponinum enhance cytokine and chemokine production of HaCaT cells Vala Jónsdóttir1,2,3, Ása Guðmundsdóttir2,3,4, Ingibjörg Harðardóttir3, Jóna Freysdóttir1,2,3 1Faculty of Medicine, University of Iceland, 2Department of Immunology and 3Centre for Rheumatology Research, Landspitali, 4Faculty of Pharmaceutical Sciences vaj16@hi.is

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