Global ETD Search

401	Dendritic cells and macrophages in the mammalian cornea : distribution, morphology, phenotype and their role in responding to microbial challenge Chinnery, Holly Rose January 2008 (has links) [Truncated abstract] The cornea plays a major role in the refraction of light and thus the maintenance of its transparency is critical for optimal vision. Infection or trauma can initiate a host inflammatory response, which can cause edema of the collagenous stroma. This tissue edema compromises vision by disrupting the regular arrangement of the corneal stromal lamellae, whose organization is critical to its refractive properties. Until recently, it was the accepted dogma that the cornea was an immune privileged tissue owing in part to its avascular nature and paucity of resident macrophages and dendritic cells (DCs) in the central region of the cornea. However, recent studies have identified heterogenous populations of macrophages and DCs in both the corneal stroma and epithelium. Despite the recognition of the existence of these cells in the cornea, very little is known about their biological role. The overall purpose of the experiments described in this thesis is to characterise corneal macrophages and DCs in homeostatic conditions and investigate their role in the initiation of inflammatory responses to bacterial ligands that induce corneal inflammation and contribute to the severity and resolution of bacterial keratitis. Experiments described in this thesis utilized a range of transgenic, knock-out and bone marrow (BM) chimeric mice to address the immunological function and characterization of BM-derived cells in the mouse cornea. Of particular importance was the use of Cx3cr1 transgenic mice, which contain an enhanced green fluorescent protein (eGFP) encoding cassette knocked into the Cx3cr1 gene that disrupts its expression but facilitates GFP expression under the control of the Cx3cr1 promoter. ... This highlights a novel functional role for corneal BM-derived cells in the recognition and initiation of inflammatory responses to LPS. Finally, a novel observation of a potential mechanism by which DC in the cornea communicate with neighbouring DCs via fine membrane extensions was identified in both chimeric and wild-type mice. These membrane nanotubes, found exclusively on MHC class II+ cells in the corneal stroma, significantly increased in density in the central cornea under inflammatory conditions, suggesting a role for these cell protrusions in the immune response. These data represent the first ever description of nanotubes in vivo, the only previous evidence of their presence being in vitro studies. In summary, the data presented in this thesis supports a role for Cx3cr1 in the homing of DCs to the normal corneal epithelium and also suggests that Cx3cr1-deficiency may influence the ability of corneal macrophages and DCs to respond to bacteria. In addition, the thesis supports a role for resident corneal macrophages and DCs in the initiation of immune responses following challenge with LPS, which is possibly supported by a newly discovered system of membrane nanotubes. A greater understanding of the biology of the resident corneal immune cells could lead to the development of potential therapies aimed at targeting macrophages and DCs as a means of regulating potentially harmful inflammatory responses in the cornea. Bacteria Cornea Dendritic cells Keratitis Macrophages Cornea Immunology Macrophage Dendritic cell
402	New mechanisms modulating S100A8 gene expression Endoh, Yasumi, Medical Sciences, Faculty of Medicine, UNSW January 2008 (has links) S100A8 is a highly-expressed calcium-binding protein in neutrophils and activated macrophages, and has proposed roles in myeloid cell differentiation and host defense. Functions of S100A8 are not fully understood, partly because of difficulties in generating S100A8 knockout mice. Attempts to silence S100A8 gene expression in activated macrophages and fibroblasts using RNA interference (RNAi) technology were unsuccessful. Despite establishing validated small interfering RNA (siRNA) systems, enzymaticallysynthesized siRNA targeted to S100A8 suppressed mRNA levels by only 40% in fibroblasts activated with FGF-2+heparin, whereas chemically-synthesized siRNAs suppressed S100A8 driven by an S100A8-expression vector by ~75% in fibroblasts. Suppression of the gene in activated macrophages/fibroblasts was low, and some enzymatically-synthesized siRNAs to S100A8, and unrelated siRNA to GAPDH, induced/enhanced S100A8 expression in macrophages. This indicated that S100A8 may be upregulated by type-1 interferon (IFN). IFN-β enhanced expression, but did not directly induce S100A8. Poly (I:C), a synthetic dsRNA, directly induced S100A8 through IL-10 and IFN-dependent pathways. Induction by dsRNA was dependent on RNA-dependent protein kinase (PKR), but not cyclooxygenase-2, suggesting divergent pathways in LPS- and dsRNA-induced responses. New mechanisms of S100A8 gene regulation are presented, that suggest functions in anti-viral defense. S100A8 expression was confirmed in lungs from influenza virus-infected mice and from a patient with severe acute respiratory syndrome (SARS). Multiple pathways via mitochondria mediated S100A8 induction in LPS-activated macrophages; Generation of reactive oxygen species via the mitochondrial electron transport chain and de novo synthesis of ATP may be involved. This pathway also regulated IL-10 production, possibly via PKR. Extracellular ATP and its metabolites enhanced S100A8 induction. Results support involvement of cell stress, such as transfection, in S100A8 expression. A breast tumor cell line (MCF-7) in which the S100A8 gene was silenced, was established using micro RNA technology; S100A8 induction by oncostatin M was reduced by >90% in stably-transfected cells. This did not alter MCF-7 growth. The new approach to investigate the role of S100A8 in a human tumor cell line may assist in exploring its functions and lead to new studies concerning its role in cancer. S100A8 Gene silencing Macrophage activation Interleukin 10 TLR- 3 Mitochondrial reactive oxygen species
403	Structure-junction studies on human granulocyte-macrophage colony-stimulating factor / Timothy Robert Hercus. Hercus, Timothy Robert January 1994 (has links) Copies of author's previously published articles inserted. / Includes bibliographical references. / vi, 135, [109] leaves, [23] leaves of plates : ill. (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Studies the structure-function properties of the human cytokine, granulocyte-macrophage colony-stimulating factor (GM-CSF) in order to generate molecules with novel biological properties. / Thesis (Ph.D.)--University of Adelaide, Dept. of Microbiology and Immunology, 1995 615.718 20 Blood Diseases Chemotherapy.
404	Microbe-induced apoptosis in phagocytic cells and its role in innate immunity Blomgran, Robert January 2006 (has links) <p>Apoptosis, or programmed cell death, is a controlled process by which aged or damages cells are eliminated in multicellular organisms. Neutrophils, short-lived phagocytes of the innate immune system, are highly equipped effectors that can sense, locate, ingest and kill bacterial pathogens. Inflammatory mediators and the presence of bacterial products at the foci of infection regulate the function and life span of these cells. Modulation of neutrophil apoptosis and the subsequent clearance by scavenger cells, such as macrophages, is part of a balanced inflammatory process leading to resolution of inflammation. Many pathogens are capable of modulating host cell apoptosis, and thereby influence the progression of disease. Hence, this thesis was aiming at elucidating mechanisms involved in pathogen- and host-modulated apoptosis and its contribution to the inflammatory process.</p><p>We found that different routes of bacterial entry, i.e. through invasion or by receptor-mediated phagocytosis, triggered different signaling pathways within phagocytes. Invasion of virulent Salmonella caused apoptosis, a process requiring activation of the Rho GTPases Rac1 and Cdc42. On the other hand, phagocytosis of the non-invasive Salmonella inhibited apoptosis despite similar intracellular survival as the invasive bacteria. Protection against phagocytosis-induced apoptosis was regulated by tyrosine- and PI3-kinase-dependent activation of AKT (also called PKB for protein kinase B). Furthermore, inhibiting the intraphagosomal production of reactive oxygen species (ROS) in neutrophils during phagocytosis of <em>E. coli</em> decreased apoptosis below spontaneous apoptosis, further indicating that both pro- and anti-apoptotic pathways are triggered by receptor-mediated phagocytosis.</p><p>Type 1 fimbria-expressing <em>E. coli </em>adhering to neutrophils resisted ingestion, and induced a ROS-dependent apoptosis by a cooperative effect of the FimH adhesin and LPS. To explore how compartmentalization of ROS during neutrophil activation was involved in modulating apoptosis, we evaluated the stability of lysosomes. In contrast to phagocytosis of <em>E. coli</em>, the adhesive strain induced intracellular non-phagosomal ROS production which triggered early permeabilization and release of lysosomal enzymes to the cytosol. Cathepsin B and/or L were responsible for targeting of the pro-apoptotic Bcl-2 protein Bid, thereby inducing mitochondrial damage, and apoptosis. These data propose a novel pathway for ROS-induced apoptosis in human neutrophils, where the location of the ROS rather than production <em>per se</em> is important.</p><p>Moreover, we found that pathogen-induced apoptotic neutrophils, in contrast to uninfected apoptotic neutrophils, activated blood-monocyte derived macrophages to increase their FcγRI surface expression and to produce large quantities of the pro-inflammatory cytokine TNF-α. This demonstrates that during the early phase of infection, pathogen-induced neutrophil apoptosis will help local macrophages to gain control over the microbes. Furthermore, we suggest that heat shock protein 60 and 70 represent a stress signal that enables macrophages to distinguish between, and react differently to, uninfected and inflammatory apoptotic neutrophils.</p> apoptosis cell death inflammation innate immunity microbiology neutrophil macrophage phagocyte Medical microbiology Medicinsk mikrobiologi
405	Formation and Characterization of Polymerized Supported Phospholipid Bilayers and the in vitro Interactions of Macrophages and Fibroblasts. Page, Jonathan Michael 01 August 2010 (has links) Planar supported, polymerized phospholipid bilayers (PPBs) composed of 1,2-bis[10-(2’,4’-hexadienoyloxy)decanoyl]-sn-glycero-3-phosphocholine (bis-SorbPC or BSPC) were generated by a redox polymerization method. The PPBs were supported by a silicon substrate. The PPBs were characterized and tested for uniformity and stability under physiological conditions. The PPBs were analyzed in vitro with murine derived cells that are pertinent to the host response. Cellular attachment and phenotypic changes in RAW 264.7 macrophages and NIH 3T3 fibroblasts were investigated on PPBs and compared to bare silicon controls. Fluorescent and SEM images were used to observe cellular attachment and changes in cellular behavior. The PPBs showed much lower cellular adhesion for both cell lines than bare silicon controls. Of the cells that attached to the PPBs, a very low percentage showed the same morphological expressions as seen on the controls. The hypothesis generated from this work is that defects in the PPBs mediated the cellular attachment and morphological changes that were observed. Finally, a layer-by-layer (LbL) deposition of a poly(acrylic acid) (PAA) and poly(N-vinylpyrrolidone) (PNVP) alternating bilayer was attempted as a proof of concept for future modification of this system. Polymerized lipid bilayers bis-SorbPC host response macrophage fibroblast. Polymer and Organic Materials
406	Rôle de la protéine scaffold TANK/I-TRAF dans l'activation des facteurs de transcription IRF-3 et -7. Gioia, Romain 24 September 2008 (has links) Suite à une stimulation de macrophages au LPS, TANK est phosphorylé en C-terminal et polyubiquitiné de manière non dégradative en N-terminal. Ces deux phénomènes sont indépendants mais dépendent tout deux des kinases IKKe/TBK1. TANK comme ces deux kinases est indispensable à l'activations des facteurs transcriptionnels IRF3/7. Le signalosome COP9/CSN semble aussi intervenir dans la régulation de cette activation via l'interaction TANK/IKKe/CSN5. TANK I-TRAF IRF3 IRF7 LPS macrophage CSN Cop9 IKKe TBK1
407	Microbe-induced apoptosis in phagocytic cells and its role in innate immunity Blomgran, Robert January 2006 (has links) Apoptosis, or programmed cell death, is a controlled process by which aged or damages cells are eliminated in multicellular organisms. Neutrophils, short-lived phagocytes of the innate immune system, are highly equipped effectors that can sense, locate, ingest and kill bacterial pathogens. Inflammatory mediators and the presence of bacterial products at the foci of infection regulate the function and life span of these cells. Modulation of neutrophil apoptosis and the subsequent clearance by scavenger cells, such as macrophages, is part of a balanced inflammatory process leading to resolution of inflammation. Many pathogens are capable of modulating host cell apoptosis, and thereby influence the progression of disease. Hence, this thesis was aiming at elucidating mechanisms involved in pathogen- and host-modulated apoptosis and its contribution to the inflammatory process. We found that different routes of bacterial entry, i.e. through invasion or by receptor-mediated phagocytosis, triggered different signaling pathways within phagocytes. Invasion of virulent Salmonella caused apoptosis, a process requiring activation of the Rho GTPases Rac1 and Cdc42. On the other hand, phagocytosis of the non-invasive Salmonella inhibited apoptosis despite similar intracellular survival as the invasive bacteria. Protection against phagocytosis-induced apoptosis was regulated by tyrosine- and PI3-kinase-dependent activation of AKT (also called PKB for protein kinase B). Furthermore, inhibiting the intraphagosomal production of reactive oxygen species (ROS) in neutrophils during phagocytosis of E. coli decreased apoptosis below spontaneous apoptosis, further indicating that both pro- and anti-apoptotic pathways are triggered by receptor-mediated phagocytosis. Type 1 fimbria-expressing E. coli adhering to neutrophils resisted ingestion, and induced a ROS-dependent apoptosis by a cooperative effect of the FimH adhesin and LPS. To explore how compartmentalization of ROS during neutrophil activation was involved in modulating apoptosis, we evaluated the stability of lysosomes. In contrast to phagocytosis of E. coli, the adhesive strain induced intracellular non-phagosomal ROS production which triggered early permeabilization and release of lysosomal enzymes to the cytosol. Cathepsin B and/or L were responsible for targeting of the pro-apoptotic Bcl-2 protein Bid, thereby inducing mitochondrial damage, and apoptosis. These data propose a novel pathway for ROS-induced apoptosis in human neutrophils, where the location of the ROS rather than production per se is important. Moreover, we found that pathogen-induced apoptotic neutrophils, in contrast to uninfected apoptotic neutrophils, activated blood-monocyte derived macrophages to increase their FcγRI surface expression and to produce large quantities of the pro-inflammatory cytokine TNF-α. This demonstrates that during the early phase of infection, pathogen-induced neutrophil apoptosis will help local macrophages to gain control over the microbes. Furthermore, we suggest that heat shock protein 60 and 70 represent a stress signal that enables macrophages to distinguish between, and react differently to, uninfected and inflammatory apoptotic neutrophils. apoptosis cell death inflammation innate immunity microbiology neutrophil macrophage phagocyte Medical microbiology Medicinsk mikrobiologi
408	Leishmania donovani Lipophosphoglycan : Modulation of Macrophage and Dendritic Cell Function Tejle, Katarina January 2006 (has links) Leishmania donovani is a blood-borne tropicial parasite, which infects humans through bites by Phlebotomus sandflies. The parasite survives and multiplies inside macrophages in inner organs, and causes the deadly disease visceral leishmaniasis (Kala-Azar). Macrophages and dendritic cells (DC) are professional antigen-presenting cells involved in the initiation of immune responses. Immature DC are present in all tissues where they internalise and process antigen, in response to which they migrate from tissue, into draining lymphoid organs, undergo maturation and present antigens to lymphocytes. Control measures for leishmaniasis include testing of new diagnostics and development of affordable and effective vaccines for humans. Lipophosphoglycan (LPG) is the major surface component of Leishmania donovani promastigotes. LPG comprises a membrane-anchoring lysophosphatidylinositol part and an extracellular chain of disaccharide phosphates. These repetitions are crucial for parasite survival inside macrophages following phagocytosis. LPG has several specific effects on the host cell including inhibition of protein kinase C (PKC) activity, and inhibition of phagosomal maturation, a process requiring depolymerization of periphagosomal F-actin. Confocal microscopy and image analysis were used to follow F-actin dynamics in single macrophages during phagocytosis of L. donovani promastigotes and LPG-coated particles. F-actin did not depolymerize, but instead progressively polymerized around phagosomes with LPG-containing prey. This correlated with reduced translocation of PKCα to the phagosome and blocked phagosomal maturation. LPG also inhibited cortical actin turnover, which could be the underlying cause of the reduced uptake of LPG-containing prey. Extracellular- and intracellular calcium was necessary for phagocytosis, periphagosomal F-actin breakdown and phagosomal maturation in macrophages interacting with unopsonized prey,and for the action of LPG. We also studied F-actin turnover in macrophages overexpressing dominant-negative (DN) PKCα. DN PKCα macrophages showed increased amounts of cortical F-actin, decreased phagocytic capacity, inhibition of periphagosomal F-actin breakdown and defective phagosomal maturation. When DN PKCα macrophages interacted with LPG-containing prey, phagocytosis was almost completely blocked. Moreover, we found that Leishmania promastigotes and particularly LPG inhibit DC maturation and detachment from distinct surfaces. Thus, LPG from Leishmania donovani could directly inhibit DC migration to lymphoid organs, antigen-presentation and development of immunity. Lipophosphoglycan Leishmania donovani macrophage actin phagocytosis PKC alpha dendritic cell Microbiology and immunology Mikrobiologi och immunologi
409	Exploring Novel Catalytic Chalcogenide Antioxidants Johansson, Henrik January 2010 (has links) This thesis is concerned with the synthesis and evaluation of regenerable chalcogen containing antioxidants. Variously substituted 2,3-dihydrobenzo[b]selenophene-5-ol antioxidants were evaluated in order to gain information about structure/reactivity-relationships. Within the series explored, the most regenerable unsubstituted compound inhibited lipid peroxidation for more than 320 minutes when assayed in a two-phase lipid peroxidation model in the presence of N-acetylcysteine (NAC). α-Tocopherol which could inhibit lipid peroxidation for 90 minutes under similar conditions was therefore easily outperformed. The antioxidant activity of the parent was also documented in an aqueous environment. The best catalyst quenched/inhibited ROS production by neutrophils and PMA-stimulated macrophages more efficiently than Trolox. In addition, over a period of seven days, no disruption in proliferation for the cell lines used was observed when exposed to our synthetic compound or Trolox at a concentration of 60 µM. 3-Pyridinols substituted with alkyltelluro groups in the ortho-position were more regenerable in the two-phase model than their corresponding para-substituted analogues in the presence of NAC and also inhibited autoxidation of styrene in a catalytic fashion in homogenous phase in the presence of N-tert-butoxycarbonyl cysteine methyl ester (LipCys), a lipid-soluble analogue of NAC. The best inhibitors quenched peroxyl radicals more efficiently than α-tocopherol. They could also catalyze reduction of organic hydroperoxides in the presence of thiols and therefore mimic the action of the glutathione peroxidase enzymes. Mechanisms for the catalysis are proposed. Octylthio, octylseleno and octyltelluro analogues of butylated hydroxyanisole (BHA) were synthesized and evaluated. Among these, the tellurium compound was superior to α-tocopherol in the presence of NAC both when it comes to quenching capacity and regenerability. Organochalcogen substituent effects in phenolic compounds were studied by using EPR, IR and computational methods. antioxidant tellurium selenium catalytic toxicity ROS neutrophil glutathione peroxidase mimic macrophage. Organic chemistry Organisk kemi
410	Effects of Macrophage-conditioned Medium on Preadipocyte Cyclin-dependent Kinase Regulation During Adipogenesis Ide, Jennifer C. 08 February 2011 (has links) Macrophage-conditioned medium (MacCM) inhibits the differentiation of rodent and human preadipocytes. Previous studies report that murine J774A.1-MacCM inhibits clonal expansion (early required phase of adipogenesis), including Rb phosphorylation. I hypothesized that MacCM induced alterations in cyclins and/or cyclin-dependent kinases (CDKs) were responsible for impairing Rb phosphorylation. My first objective was to assess the effect of J774A.1-MacCM on CDK4, CDK2, and their regulatory cyclins. Murine 3T3-L1 preadipocytes were differentiated with control medium or J774A.1-MacCM. Expression of cyclin D and A was inhibited by J774A.1-MacCM. Inhibition of cyclin A expression was associated with reduced differentiation-induced CDK2 activity. My second objective was to assess the expression patterns of cell cycle proteins in differentiating human abdominal subcutaneous preadipocytes, which do not undergo clonal expansion in culture. Cyclin E expression increased with differentiation. THP-1-MacCM (a human macrophage cell line) further enhanced this increase. My studies suggest MacCM leads to alterations in cyclin/CDK regulation during adipogenesis in murine and human preadipocyte models. preadipocyte adipocyte differentiation macrophage cyclin cyclin-dependent kinase mitotic clonal expansion

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