Global ETD Search

211	Suppressive DNA vaccination in Experimental Autoimmune Encephalomyelitis and how it affects gene expression of inflammatory mediators Jakobsson, Charlotta January 2007 (has links) Vaccination with DNA encoding the encephalitogenic autoantigen myelin oligodendrocyte glycoprotein (MOG), pMOG91-108, induce a protective immunity against experimental autoimmune encephalomyelitis (EAE), an animal model of human multiple sclerosis. By injection of a DNA vaccine that contains a DNA region encoding short interfering RNA specific for IFNβ (pMOG-IFNβ) the protective effect of the DNA vaccination is totally inhibited. This demonstrates that IFN-β is directly involved in the protective mechanism against EAE. The objective of this project was to study how molecules involved in the inflammatory process in EAE are regulated by suppressive DNA vaccination. mRNA expression of IL-1β, TGF β, IL-23p40 and Axl receptor tyrosine kinas did not show any significant differences between the groups vaccinated with these DNA vaccines. IL-6 and IFNγ mRNA expression after MOG stimulation in rats treated with pCI, a control vaccine was significantly higher compared to the group vaccinated with vaccine containing pMOG-IFNβ. IL-17 m RNA expression after MOG stimulation in pCl-treated rats was significantly higher compared to the group vaccinated with vaccine containing pMOG-91-108. Of these results the mRNA expression of IL-17 and IL-6 were of interest for the project. The immune system normally protects the body against infections and T-cells have an important role in this defence system. In MS and EAE, the immune system attacks the myelin and this process is caused by a dysregulation of the T-cells. IL-17-producing Th17 cells mediate EAE. Naïve CD4 T-cells in the presence of IL-6 and TGFβ are differentiated to Th17 cells instead of differentiating into T-helper or regulatory T-cells. These IL-17-producing T-cells are highly pathogenic and essential for the development of EAE. The results showed that pMOG IFNβ vaccine had an effect at the immune response, which resulted in an inhibition of the IL-6 production and that vaccination with pMOG91-108 impairs differentiation of IL-17-producing T-cells. EAE/MS IL-17 IL-17 producing T-cells autoimmunity autoimmune T-cell responses interfering RNA Immunology Immunologi
212	Malaria and relapsing fever Borrelia : interactions and potential therapy Lundqvist, Jenny January 2009 (has links) Infectious diseases such as malaria and relapsing fever borreliosis (RF), cause severe human mortality and morbidity in developing countries. Malaria, caused by Plasmodium spp. parasites, is estimated by the World Health Organization to cause 1.5-2.7 million deaths annually. RF, caused by Borrelia spirochetes, has the highest prevalence described for any bacterial disease in Africa, with infection outcomes ranging from asymptomatic to fatal. RF borreliosis manifests in humans as a recurring fever and with other symptoms very similar to those of malaria. RF borreliosis has been regarded as a transient infection of the blood. However, B. duttonii exploits the brain as an immunoprivileged site escaping the host immune response while spirochetes in the blood are cleared. To investigate whether residual bacteria are dormant or actively dividing, mice with residual brain infection were administered ceftriaxone, a β-lactam antibiotic interfering with cell wall synthesis. Hence, it only affects actively dividing bacteria. Ceftriaxone eradicated brain RF infection in all treated mice, demonstrating that the bacteria are actively multiplying rather than in a dormant state. The findings support the therapeutic use of ceftriaxone for RF neuroborreliosis since penetration into cerebrospinal fluid is greater for ceftriaxone than for the often recommended doxycycline. The clinical features of malaria and RF are similar and diagnosis is further complicated by the frequently occurring concomitant malaria-RF infections. Therefore, we established a mouse model to study the pathogenesis and immunological response to Plasmodium/Borrelia mixed infection. Interestingly, malaria was suppressed in the co-infected animals whereas spirochete numbers were elevated 21-fold. The immune response in the concomitantly infected mice was polarized towards malaria leaving the spirochetes unharmed. Mice with co-infections also exhibited severe anemia and internal damages, probably attributed to escalating spirochete numbers. A secondary malaria infection reactivated the residual brain RF infection in 60% of the mice. This highlights the importance of co-infections as diagnostic pitfalls as well as the need for novel treatment strategies. Currently there is no commercial malaria vaccine and increasing drug resistance presents an urgent need for new malaria chemotherapeutics. Blood-stage malaria parasites are rapidly growing with high metabolic and biosynthetic activity, making them highly sensitive to limitations in polyamine supply. Disrupting polyamine synthesis in vivo with trans-4-methylcyclohexylamine (4MCHA) eradicated the malaria infection gradually, resulting in protective immunity. This leads the way for further biochemical and pharmacological development of the polyamine inhibitor 4MCHA and similar compounds as antimalarial drugs Malaria Plasmodium relapsing fever Borrelia persistent concomitant infections polyamines Molecular biology Molekylärbiologi
213	Cellular Immune Responses to Cytomegalovirus Lidehäll, Anna Karin January 2008 (has links) Cytomegalovirus (CMV) is a widespread infection affecting 50-90% of the human population. A typical silent primary infection is followed by life-long persistence in the host under control by virus-specific CD8 (“killer”) and CD4 (“helper”) T cells. Although harmless in most people, CMV may cause disease and sequelae in patients with deficient cellular immunity, such as AIDS patients, recipients of organ transplants and children who have acquired the virus before birth. In this thesis we have characterized the cellular immunity to CMV in immunocompetent subjects, in patients receiving transplants and in infants. In healthy individuals with latent CMV, the frequencies of CMV-specific CD8 T cells varied considerably between the donors. Within the same individual, the changes over time were usually small. In patients with primary, symptomatic CMV infection, the frequencies of CMV-specific CD8 T cells peaked within the first month after the appearance of symptoms. The frequencies then declined to levels similar to those in latently infected CMV carriers. The CD4 T-cell function followed the same pattern, but with lower peak values. Immunosuppressed renal transplant patients with latent CMV had CMV-specific CD4 cell function similar to healthy controls. The frequencies of CMV-specific CD8 T cells were also comparable, but their function was impaired. When renal transplant recipients were investigated longitudinally, we found that their CMV-specific T cells decreased rapidly after transplantation. Whereas the frequencies and function of CD8 T cells rebounded within 3 months, CD4 T-cell recovery was impaired during the entire first year after transplantation. Finally, the frequencies and function of CMV-specific T-cells were investigated in children with congenital and postnatal CMV. CMV-specific CD8 T cells could be detected in even the youngest children, suggesting that these cells can develop early in life. In contrast, CMV specific CD4 T cells were low or absent in the youngest children but increased slowly with age. Cytomegalovirus cellular immunology infection immune responses congenital infection CD4 T cells CD8 T cells immunosuppressed Clinical immunology Klinisk immunologi
214	Innate Immune Proteins in a Crustacean Pacifastacus leniusculus Wu, Chenglin January 2011 (has links) Hemocytes (blood cells) are important in the immune defense against pathogens in invertebrates. In crusteacean, the hemocytes and plasma components mount a strong innate immune response against different pathogens including bacteria and virus. This thesis is aimed to identify marker proteins associated with development of different hemocyte types, and to find a protein involved in the phenoloxidase-induced melanization and other innate immune reactions in freshwater crayfish Pacifastacus leniusculus. In crustaceans, the hemocytes are produced and partly differentiated in the hematopoietic tissue (Hpt) before they are released into the hemolymph circulation. To investigate the connection between semigranular cells, granular cells and precursor cells in Hpt of P. leniusculus and possibly also in other crustaceans, two-dimensional gel electrophoresis (2-DE) coupled with mass spectrometry (MS) analysis was used to identify specific proteins expressed in different hemocytes. The specific expression was analyzed by RT-PCR and western blot. Moreover, RNA interference was used to study the hemocyte differentiation in vivo and in vitro. Melanin formation is essential for host defence in arthopods, and it needs to be tightly regulated since unwanted production of quinone intermediates or melanization is also dangerous to the animal. By using western blot, 2-DE and MS, a melanization inhibiting protein (MIP) was found to have similar function as mealworm Tenebrio molitor MIP. Both of them interfere with the melanization reaction, but do not affect phenoloxidase activity. In order to reveal the mechanism by which peptidoglycan (PGN) induces activation of the prophenoloxidase activating system in P. leniusculus, different forms of Lys-type PGN were used to pull down PGN recognition proteins (PGRPs) from plasma or hemocyte lysate supernatant of crayfish. The binding proteins were separated and then analyzed with MS. Results showed that two serine protease homologues are involved in this activation possibly by forming a complex with lipopolysaccharide and β-1,3-glucan binding protein (LGBP) and without a PGRP. Besides, two ficolin-like proteins (FLPs) have been found from crayfish plasma by using different bacteria including Staphylocuccus aureus as an affinity matrix to pull down bacterial binding proteins, followed by the analysis with 2-DE and MS. Two FLPs can bind to bacteria, and may help crayfish to clear Gram-negative bacteria, but not Gram-positive bacteria injected into the crayfish hemolymph, which suggests that FLPs may function as pattern recognition receptors in the immune response of crayfish. / Felaktigt tryckt som Digital Comprehensive Summaries of Uppsala Dissertations from the Faculty of Science and Technology 737 2-DE hematopoiesis marker protein melaniztion inhibiting protein proPO-system pattern recognition protein PGN ficolin-like protein Immunology Immunologi
215	Characterization of antigen-presenting cell function in vitro and ex vivo Giusti, Pablo January 2011 (has links) Long-term protective immunity depends on proper initiation of professional antigen-presenting cells (APCs). Autoimmune disorders and certain infections can cause disease through modulation of APCs and thereby affecting the outcome of these diseases. This work aimed to investigate the behaviour of different APC subsets during conditions known to cause improper immune responses. In Paper I, the effects of an anti-inflammatory compound called Rabeximod, intended for treatment of rheumatoid arthritis were investigated on different subsets of APCs. The results showed that Rabeximod affected the differentiation and behaviour of inflammatory subsets of dendritic cells (DCs) and macrophages while no effects were observed on anti-inflammatory subsets. Our findings suggest that Rabeximod acts by inhibiting the functionality of inflammatory subsets of APCs. In Paper II, the effects of different malaria derived stimuli such as hemozoin (Hz) and infected red-blood cells (iRBCs) on monocyte-derived dendritic cells (MoDCs) were investigated. Both stimuli triggered activation and migration of MoDCs. MoDCs exposed to iRBCs induced allogeneic T-cell proliferation while those exposed to Hz did not. These results indicate that different malaria derived stimuli may differently affect DCs and that this could lead to improper and inefficient T-cell activation. In Paper III, innate aspects of malarial immunity were compared in children from two sympatric ethnic groups. We observed decreased activation of APCs and severely supressed TLR responses in Dogon children as compared to Fulani. This may indicate an important role for TLR and APC activation in the Fulani, known to be better protected against malaria than the Dogon. In summary, detailed knowledge of APC activation will be helpful in the understanding of specific effector immune responses. This could in turn, improve treatment of inflammatory disorders as well as the generation of efficient vaccines against infectious diseases. Immunology Antigen presentation Dendritic Cells Macrophages Toll-like receptors Malaria
216	Formation, storage and secretion of prostasomes in benign and malignant cells and their immunogenicity in prostate cancer patients / Sahlén, Göran, January 2007 (has links) Diss. (sammanfattning) Uppsala : Uppsala universitet, 2007. / Härtill 4 uppsatser.
217	Immune complex regulated cytokine production in rheumatic and lymphoproliferative diseases / Mathsson, Linda, January 2007 (has links) Diss. (sammanfattning) Uppsala : Uppsala universitet, 2007. / Härtill 5 uppsatser.
218	Effects of different conditions of HIV-1 on plasmacytoid dendritic cells in maturation and function Häggqvist, Susana January 2008 (has links) Plasmacytoid dendritic cells (PDCs) are one cellular target of HIV-1 and respond to the virus by producing type I interferons and chemokines. PDCs exposed to HIV-1 strongly upregulate the expression of maturation markers such as CD83, CD80, CD86 and CCR7, which will turn them into professional antigen presenting cells with the ability to stimulate naïve CD4+T cells. When HIV-1 binds to the CD4 receptor and a co-receptor (CCR5 or CXCR4) on PDCs, the cell takes up the virus by endocytosis. In response to this, PDCs will become activated and express maturation markers on their surface that make them able to stimulate T cells to trigger an immune response. In this thesis, studies have been performed with different forms of HIV-1, i.e. opsonized virions covered in complement and antibodies since these forms are supposed to be more similar to how HIV appears in the body. According to our results there is no significant difference in PDC maturation between the free and opsonized HIV-1. Plasmacytoid dendritic cells Interferon-α HIV-1 Immunology in the medical area Immunologi inom det medicinska området
219	Intrathecal and Systemic Complement Activation Studies of Multiple Sclerosis and Guillan-Barré Syndrome Blomberg, Carolina January 2009 (has links) Both Multiple Sclerosis (MS) and Guillan-Barré syndrome (GBS) are neurological inflammatory demyelinating autoimmune diseases, with a probable antibody contribution. Complement proteins in both MS and GBS does play a role in inflammation and demyelination at pathogenesis, according to earlier scientific evidence. The aim of this examination project work was to investigate systemic and intrathecal complement activation in MS and GBS, to gain further knowledge that might be useful for development of future therapeutics targeting immune responses during those diseases. An additional aim was to develop a new ELISA method for detection of complement iC3. By using sandwich ELISA, complement proteins C1q, C4, C3, fH and C3a were measured in plasma and cerebrospinal fluid (CSF) from persons within 4 different diagnostic groups; MS, other neurological diseases (OND), GBS and controls (C). An ELISA method to detect iC3 (hydrolysed C3) was also developed, including usage of SDS-PAGE. Results based on raw data and statistical analysis show significantly elevated levels of C3a (C3a/C3) in MS and decreased C3 in plasma. In CSF low levels of C4 and C3a/C3 in MS were detected, though correlation of C3a and C1q was positive. GBS reveal high levels of all complement proteins analysed in CSF except for C3, and a positive correlation of C3a and C1q as well as C3a and fH was found. These results indicate that MS patients have systemic complement activation; however the activation pathway is not determined. Complement activation in MS may also occur intrathecally, with correlation analysis indicating a possible activation via the classical pathway. MS patients suffering from a more acute relapsing-remitting (RR) MS have a more prominent systemic complement activation compared to MS patients responding to beta-interferon treatment. Systemic increased C3a/C3 ratio may be a possible biomarker to distinguish more acute RR MS in an earlier step of MS pathogenesis and should be further investigated. GBS patients have an intrathecal complement activation that seems to occur via the classical pathway. Multiple Sclerosis MS Guillan-Barré Syndrome Complement Complement system Complement activation ELISA Immunology in the medical area Immunologi inom det medicinska området
220	Identification of PHPT1 in mouse tissues by immunohistochemistry Koria, Muntaha January 2007 (has links) Although it has been estimated that protein histidine phosphorylation account for about 6 % of the protein phosphorylation in eukaryotic cells; the knowledge of histidine phosphorylation and dephosphorylation is still limited. Lately, studies have appeared of a mammalian 14-kDa phospho- histidine phosphatase, also named protein histidine phosphatase and molecular cloning have provided some information of its physiological role. The object of the present study was to detect the protein expression of protein histidine phosphatase, PHPT1, in mouse tissue, by using immunohistochemistry. Tissue samples from a 4-week-old mouse (heart, liver, kidney, lung, muscle, and spleen), 5-month-old mouse (testis and intestinal), 8-month-old mouse (uterus) and an embryo from 14.5 days old mouse were obtained and processed for light microscopic examination. An absorption test was also made to confirm the specificity of the antibody. The results reveal that PHPT1 is mainly expressed in epithelium, heart- and skeletal muscle. These results provide new evidences for the understanding of the function of eukaryotic histidine phosphorylation and dephosphorylation. KEYWORDS Phosphohistidine, dephosphorylation, protein histidine phosphatase, phosphohistidine phosphatase, protein phosphorylation Phosphohistidine dephosphorylation protein histidine phosphatase phosphohistidine phosphatase protein phosphorylation Immunology in the medical area Immunologi inom det medicinska området

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