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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Design and Synthesis of Cationic Steroid Antimicrobial Compounds, Synthesis of Glycolipids Recognized by Natural Killer T Cells and Development of TLR-1, TLR-6 Heterodimer Binders and Studies of Their Immunology Activities

Feng, Yanshu 19 December 2011 (has links) (PDF)
Cationic steroid antimicrobial agents (CSAs) are a family of bile acid derivatives. These compounds are amphiphilic and mimic endogenous antimicrobial peptides. The antimicrobial activities of CSA-13 have been investigated and due to portent bactericidal activities and low toxicity, a large amount of CSA-13 is demanded for clinic trails and other antimicrobial applications. During our studies, we optimized the synthetic route of CSA-13, so that it can be prepared at the kilogram, even in tons scale. We investigated three routes and one of them is suitable for industry, because only recrystallization is needed in the synthesis. Natural killer T cells (NKT cells) are a kind of lymphocyte that bridge the adaptive immune system with the innate immune system. Once stimulated by glycolipids, NKT cells influence immune responses. To search for better glycolipid ligands, scientists have isolated many natural products to get inspiration. Thrautochysides A-C was isolated from a group of marine protists. These compounds have an interesting structure on their sphingosine lipid chains. We finished the iii synthesis of thraustochyside B, and made substantial progress toward the synthesis of thraustochyside A. Toll like receptors (TLRs) are integral components of the innate immune system. They recognize antigens and induce dendritic cells to give immune responses. TLR1, TLR2 and TLR6 recognize lipopetides, and these TLRs function as heterodimers. TLR1/TLR2 dimer recognition gives inflammatory responses, and TLR2/TLR6 dimer recognition gives immunomodulatory responses. We used modeling of TLRs to find a compound, which can fill the lipid binding pockets of the TLR2 and TLR6 dimer. In our study, we found the peptide chain of the antigen Pam2CSK4 can be replaced by a water soluble polyamine, which confirmed the function of the peptide to increase the water solubility.
2

Immune profiling of keloid disease

Bagabir, Rania January 2013 (has links)
Keloid disease (KD) is a benign fibroproliferative dermal disease of unknown aetiopathogenesis that occurs in genetically susceptible individuals. KD shows high heterogeneity within the lesion, harbouring different immune cell profiles, which are poorly characterised in KD at different lesional sites. Although, it has long been appreciated that chronic inflammation and dermal fibrosis is associated with other fibrotic diseases (e.g. scleroderma), this link has not, yet, been established in KD through direct evidence. Additionally, the limited availability of a simple KD animal model has hindered our understanding of the underlying pathogenesis of KD. Therefore, the main objectives were a) to identify and profile different immune cells at defined KD lesional and histological sites, b) to further characterize the potential contribution of viral particles in KD by investigating the gene and protein expression profile of toll like receptors that recognise viral particles in KD, and c) to develop an optimized long-term serum-free organ culture (OC) model for KD research as a tool for probing novel hypotheses in KD pathobiology deduced from a) and b) and to also validate the reliability and instructiveness of this novel ex vivo KD model with conventional (e.g. dexamethasone) and potential future anti-KD compounds [(-)-epigallocatechin-3-gallate (EGCG) and plasminogen activator inhibitor-1 (PAI-1) knock-down by siRNA]. To achieve above objectives, different cellular and molecular techniques were applied. Immune profiling of KD (chapter 2) at defined lesional and histological sites generated the first comprehensive analysis of KD-associated inflammatory cell infiltrates. This work demonstrated for the first time the presence of specific type of chronic inflammation in KD that resembles the formation of tertiary lymphoid tissues (TLTs) (in 14.7%, out of 68 KD cases). Although, these TLTs are not strictly linked to defined lesional sites within the KD, they are similar in structure to mucosa-associated lymphoid tissue (MALT). Therefore, we named this phenomenon as keloid-associated lymphoid tissue (KALT). Immunophenotyping of KD lesional sites also showed a predominance of T-cells, B-cells, M2 macrophages and OX40L+ degranulated mast cells in intralesional and perilesional sites of KD compared to normal skin and normal scar tissue. In the epidermis, Langerhans cells showed no changes, whereas the intra-epidermal T-cells were significantly increased in both the intralesional and perilesional sites of KD with an increased CD4:CD8 ratio. Intra-epidermal B-cells were only rarely found in KD. Interestingly, there was no significant statistical difference between intralesional and perilesional sites of KD immunophenotyping. These abnormal immune profiles suggest the persistence of non-resolving inflammation presence towards unknown stimuli, which require further investigation. The chronic inflammation could be followed by a reparative phase in a repetitive manner leading to KD formation. Evaluation of toll-like receptor (TLR) gene and protein expression in KD showed a significant increase in the expression of intra-epidermal TLR-6, -7 and dermal TLR-8. Since these TLRs are typically up regulated during anti-viral responses, these results further support the hypothesis that certain viruses or yet unidentified ligand may play a role in KD pathogenesis (chapter 3). A successful long-term, serum-free keloid OC model was established using a 4 mm sized punch biopsy embedded in collage matrix as air liquid interface in supplemented William’s E medium for up to 6 weeks (Chapter 4).

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