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The role of lipid rafts in actin-mediated phagocytosis by macrophagesMagenau, Astrid Irmela, Centre for Vascular Research, Faculty of Medicine, UNSW January 2009 (has links)
The aim of this project was to investigate the role of lipid rafts in actin-mediated phagocytosis. Lipid rafts are defined as highly condensed membrane domains enriched in cholesterol and glycosphingolipids and are thought to participate in a range of cellular functions including actin-mediated phagocytosis. Remodelling of the actin skeleton facilitates the formation of a phagocytic membrane cup and drives the uptake of particles. Hence, actin restructuring is essential for phagocytosis. How engagement of Fc receptors triggers membrane re-organization at the site of phagocytosis and how the formation of ordered raft domains is linked to actin remodelling during phagosome maturation is currently not known. Lipid rafts potentially form platforms for local signal transduction for Fc surface receptors and secondary messengers. Raft distribution therefore would critically influence and direct their function. The hypothesis is that lipid rafts are the membrane sites on the cell surface, which enable, drive and localise actin- dependent phagocytosis. Phagocytosis in macrophages was induced with IgG-coated beads of different sizes as substrates for uptake via the Fc receptor mediated pathway. Membrane order was visualised and quantified by two-photon microscopy. Actin remodelling was imaged in parallel with confocal microscopy. Time-course and live cell imaging demonstrated that phagocytosis induces formation of highly ordered membrane domains around the phagocytic particle independently of the particle size. The high membrane order is the biophysical hallmark of lipid rafts suggested that Fc receptor cross-linking induces the coalescence of lipid rafts. Live-cell imaging further identified a temporal correlation between membrane condensation and actin restructuring at sites of phagocytosis. Membrane condensation persisted after actin detached from the sealed phagosome. Receptor clustering induced by particle binding activates Src kinases leading to tyrosine phosphorylation of ITAM motif of the receptors, activation of GTPases and actin polymerisation. Lipid raft recruitment may be driven by these events or alternatively, rafts be essential for kinase activation. Several inhibitors were used to interrupt crucial steps in the signalling cascade leading to actin restructuring. Laurdan microscopy showed that membrane order is independent of Lyn activation (inhibited with PP2), PI3K activity (inhibited with Wortmannin) and actin polymerisation (Latrunculin B). Inhibitors had differential effects on phagocytosis rates of small and large particles. Inhibition of Lyn had a more severe effect on phagocytosis of large beads than on phagocytosis of small beads. Disruption of PI3K activity with Wortmannin only inhibited phagocytosis of large but not of small particles, whereas disruption of the actin skeleton with Latrunculin B inhibited phagocytosis of small and large particles. These data suggest that membrane condensation is independent of kinase activity and occurs upstream of actin remodelling. The role of lipid rafts in phagocytosis was further investigated by modulation of sterol composition of the cell membranes. Cholesterol depletion with methyl-- cyclodextrin disrupted membrane organization at phagosomes of small and large beads and also abolished phagocytosis. However, the fluidity of the entire plasma membrane was increased upon treatment of cells with methyl--cyclodextrin suggesting that this condition was not specifically affecting phagosomal membranes. Cholesterol enrichment increased membrane condensation even further than the membrane condensation detected in control phagosomes. Incorporation of 7-keto-cholesterol (7KC) decreased membrane order of phagosomes of small beads but not of large beads. 7KC can prevent membrane condensation due to its additional keto-group, which acts as a spacer between phospholipids. Phagocytosis of large beads but not of small beads was affected by 7KC incorporation. This suggests that 7KC only moderately reduces membrane order, which diminishes but not completely abolishes phagocytosis. This might be explained by the fact that 7KC enrichment and mCD treatment diminished actin remodelling and reduced the complexity of the F-actin network. Mass spectrometry was employed to quantify the lipidome of phagosomal membranes. This is the first study that directly demonstrates that phagosomes exhibit a distinct lipid composition and were enriched in sphingomyelin (SM) but depleted of cholesterol. Furthermore, the effects of sterol modulation on lipid species abundance were investigated. Cholesterol and 7KC enrichment resulted in lower levels of PC, but higher levels of charged lipids. In addition, 7KC treatment increased SM levels. In conclusion, cross-linking of Fc receptors triggers the formation of ordered membrane domains that do not have the classical raft composition. They are cholesterol depleted but rich in sphingomyelin. The formation of these ??rafts?? occurs upstream of actin remodelling and is necessary for actin remodelling during phagocytosis.
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Lipid metabolism by macrophages and by isolated foam cellsTume, Ronald Keith January 1969 (has links)
xvii, 194 leaves : ill. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Human Physiology and Pharmacology, 1971
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CEACAM1 : a link between insulin and lipid metabolismDeAngelis, Anthony Michael. January 2009 (has links)
Dissertation (Ph.D.)--University of Toledo, 2009. / "In partial fulfillment of the requirements for the degree of Doctor of Philosophy in Biomedical Sciences." Title from title page of PDF document. Bibliography: p. 57-61, p. 20-145.
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Intestinal lipidabsorption belyst ved in vitro undersøgelser /Westergaard, Henrik. January 1979 (has links)
Thesis (doctoral)--Københavns universitet.
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Adaptation of membrane-bound enzymes to ethanolDickens, Benjamin Fisher, January 1978 (has links)
Thesis--University of Florida. / Description based on print version record. Typescript. Vita. Includes bibliographical references (leaves 54-57).
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Development of cloaking strategies for lipid membranes using amphiphillic polymersRamos Perez, Victor January 2007 (has links)
No description available.
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Long-chain alcohol production by yeastsHodgson, Lisa Frances January 1990 (has links)
No description available.
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Effect of ischaemia on the activities of lipid metabolizing enzymes in perfused hearts from normal and diabetic ratsGriffiths, Elinor Jane January 1989 (has links)
No description available.
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Exercise, postprandial lipaemia and lipoprotein lipase activityHerd, Sara L. January 1997 (has links)
Impaired clearance of triacylglycerol-rich lipoproteins contributes to atherogenesis. It can be argued that exercise may decrease the risk of atherosclerotic diseases through its potential to improve the metabolic capacity for triacylgycerol and hence, clearance of triacylglycerol-rich lipoproteins. The investigations described in this thesis focused on the influence of exercise on postprandial lipid and lipoprotein metabolism.
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Modelling glycocluster effects using artificial lipid raftsNoble, Gavin Thomas January 2012 (has links)
The interaction of carbohydrates with carbohydrate-binding proteins is key to a multitude of important biological events, such as cell-cell interactions and signal transduction. Carbohydrates are also essential for energy storage and transfer. Binding to the three-dimensional display of carbohydrates at the cell surface (the glycocalyx) is known to play a role in many disease states, such as carbohydrate binding by viruses. Furthermore, changes in the distribution and type of oligosaccharides is known to occur at tumour cell surfaces. The importance of these natural events at the cell membrane surface provided the motivation for their study in a biomimetic environment. Inspired by previous work in the field of carbohydrate-lectin binding and work in the Webb group into mimicry of cellular processes using supramolecular chemistry, vesicular structures of synthetic glycolipids in natural phospholipids were created. Several synthetic glycolipids were synthesised and found to be capable of lateral phase separation in ordered-phase phospholipid bilayers, forming artificial lipid rafts in the bilayer. The glycolipid vesicle systems were used to study the effects of the lateral clustering of glycolipids on two different biochemical events at the membrane surface: Binding of mannosyl-lipids by concanavalin A (ConA) and the enzymatic galactosylation of N-acetylglucosamine (GlcNAc)-lipids by bovine β-(1,4)-galactosyltransferase (β4GalT1). Fluorescence quenching titrations revealed that clustering of mannosyl-lipids had little effect on the strength of ConA binding. However, HPLC measurements showed that lateral clustering of GlcNAc-lipids could enhance their enzymatic galactosylation by β4GalT1. The work presented in this thesis represents the formulation of these vesicle systems and their study with ConA and β4GalT1. Further investigation with other phase-separating glycolipid-lectin/enzyme pairs is necessary to establish whether the effects of clustering observed herein are exclusive to ConA and β4GalT1, or are general phenomena observed at the membrane surface.
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