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Regulation of hormone-sensitive lipase in mouse macrophagesHarrison, Jillian A. January 1999 (has links)
No description available.
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Regulation of Lipid Droplet Cholesterol Efflux from Macrophage Foam Cells: a Role for Oxysterols and AutophagyOuimet, Mireille 21 November 2011 (has links)
Macrophage foam cells are the major culprits in atherosclerotic lesions, having a prominent role in both lesion initiation and progression. With atherosclerosis being the main factor underlying cardiovascular complications, there is a long-standing interest on finding ways to reverse lipid buildup in plaques. Studies have shown that promoting reverse cholesterol transport (RCT) from macrophage foam cells is anti-atherogenic because it alleviates the cholesterol burden of the plaques. The goal of this thesis was to gain insight into the mechanisms that govern cholesterol efflux from macrophage foam cells. The first part of this study looked at the ability of different oxysterols to promote cholesterol efflux in unloaded as compared to lipid-loaded macrophages, and our major finding here is that epoxycholesterol decreases efflux in lipid-loaded macrophages. It appears that epoxycholesterol does so by impairing the release cholesterol from its cellular storage site, the lipid droplet (LD), where it accumulates in the form of cholesteryl esters (CE). These results highlighted the importance of cholesterol release from LDs for efflux; indeed, this process is increasingly being recognized as the rate-limiting step for RCT in vivo. Subsequent experiments aimed at elucidating the mechanisms that govern LD CE hydrolysis in macrophage foam cells lead to the discovery of a novel pathway involved in cholesterol efflux. Macrophage CE hydrolysis is classically defined as being entirely dependent on neutral CE hydrolases. In the second part of this study, we demonstrate that in addition to the canonical CE hydrolases, which mediate neutral lipid hydrolysis, lysosomal acid lipase (LAL) also participates in the hydrolysis of cytoplasmic CE. Autophagy is specifically triggered in macrophages by atherogenic lipoproteins and delivers LD CE to LAL in lysosomes, thus generating free cholesterol for efflux. This autophagy-mediated cholesterol efflux is a process that is primarily dependant on the ABCA1 transporter and, importantly, is important for whole-body RCT. Overall, the studies presented in this thesis support that macrophage LD CE hydrolysis is rate-limiting for cholesterol efflux and shed light on the mechanisms of cholesterol mobilization for efflux in macrophage foam cells.
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Differential mRNA expression is influenced by apolipoprotein A-I in order to promote foam cell regressionMaruko, Elisa Christina 18 June 2016 (has links)
Atherosclerosis is a disease of both lipids and inflammatory immune cells. More specifically, elevated plasma levels of low-density lipoproteins (LDL) ultimately lead to migration of circulating monocytes into the artery wall. Lipid-loaded monocytes proliferate and become macrophage foam cells, the hallmark of atherosclerotic lesions. A proposed mechanism for the protective effects of high-density lipoprotein (HDL) is apolipoprotein A-I (apoA-I) acting as a mediator of cholesterol efflux from cells and subsequent foam cell regression. To better understand the biological changes stimulated by apoA-I treatment, differential gene expression analysis of microarray data was performed on spleen cells from mice treated with recombinant HDL (rHDL). LDL receptor null (LDLr-/-) and LDL receptor and apoA-I null (LDLr-/-, apoA-I-/-) mice were fed a Western diet consisting of 0.2% cholesterol and 42% calories as fat (HF) for a total of 12 weeks. After six weeks of diet, a subset of mice for each genotype was subcutaneously injected with 200 micrograms of rHDL (protein weight) three times a week for the remaining six weeks. The control group of mice was subcutaneously injected with 200 micrograms of bovine serum albumin (BSA). Spleen cell RNA was isolated, purified, and analyzed via Illumina BeadArray Microarray Technology. Individual differential gene expression analysis that contrasted treated to non-treated groups for each genotype was performed. LDLr-/-, apoA-I-/- rHDL treated mice showed 281 significantly differentially expressed genes compared to non-treated mice while LDLr-/- mice had 1502 such genes. Of the significant genes, 189 intersected across both genotypes. In LDLr-/-, apoA-I-/-, 73 of these were up-regulated and 116 were down-regulated. LDLr-/- similarly showed 71 of the intersected genes to be up-regulated and 118 to be down-regulated. One-directional gene set pathway analysis was also performed. LDLr-/-, apoA-I-/- treated mice revealed 49 significant pathways while LDLr-/- showed a total of 63. Of these, 21 were up-regulated and 14 were down-regulated in both genotypes. Of the overrepresented, up-regulated pathways, eight of the top ten most significant ones were related to immune cells. Major functions involved receptor, adhesion, and chemokine signaling. Overall, preliminary analysis suggests apoA-I treatment induces similar gene expression changes across different genotypes in mouse spleen cells.
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Regulation of Lipid Droplet Cholesterol Efflux from Macrophage Foam Cells: a Role for Oxysterols and AutophagyOuimet, Mireille January 2011 (has links)
Macrophage foam cells are the major culprits in atherosclerotic lesions, having a prominent role in both lesion initiation and progression. With atherosclerosis being the main factor underlying cardiovascular complications, there is a long-standing interest on finding ways to reverse lipid buildup in plaques. Studies have shown that promoting reverse cholesterol transport (RCT) from macrophage foam cells is anti-atherogenic because it alleviates the cholesterol burden of the plaques. The goal of this thesis was to gain insight into the mechanisms that govern cholesterol efflux from macrophage foam cells. The first part of this study looked at the ability of different oxysterols to promote cholesterol efflux in unloaded as compared to lipid-loaded macrophages, and our major finding here is that epoxycholesterol decreases efflux in lipid-loaded macrophages. It appears that epoxycholesterol does so by impairing the release cholesterol from its cellular storage site, the lipid droplet (LD), where it accumulates in the form of cholesteryl esters (CE). These results highlighted the importance of cholesterol release from LDs for efflux; indeed, this process is increasingly being recognized as the rate-limiting step for RCT in vivo. Subsequent experiments aimed at elucidating the mechanisms that govern LD CE hydrolysis in macrophage foam cells lead to the discovery of a novel pathway involved in cholesterol efflux. Macrophage CE hydrolysis is classically defined as being entirely dependent on neutral CE hydrolases. In the second part of this study, we demonstrate that in addition to the canonical CE hydrolases, which mediate neutral lipid hydrolysis, lysosomal acid lipase (LAL) also participates in the hydrolysis of cytoplasmic CE. Autophagy is specifically triggered in macrophages by atherogenic lipoproteins and delivers LD CE to LAL in lysosomes, thus generating free cholesterol for efflux. This autophagy-mediated cholesterol efflux is a process that is primarily dependant on the ABCA1 transporter and, importantly, is important for whole-body RCT. Overall, the studies presented in this thesis support that macrophage LD CE hydrolysis is rate-limiting for cholesterol efflux and shed light on the mechanisms of cholesterol mobilization for efflux in macrophage foam cells.
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CONTINUOUS PRODUCTION OF MICROCELLULAR FOAMSHan, Xiangmin 29 January 2003 (has links)
No description available.
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A Novel Selective Lipid Uptake Pathway Contributing to LDL-Induced Macrophage Foam Cell FormationMeyer, Jason M. 01 January 2013 (has links)
Atherosclerosis is a disease characterized by cholesterol-rich plaques within the intima of medium and large arteries. Cholesterol deposition is thought to occur by infiltration of low-density lipoprotein (LDL) into lesions followed by uptake into macrophages, generating lipid-loaded “foam cells.” Foam cells can also be generated in vitro by treatment of macrophages with LDL or oxidized LDL (oxLDL). The purpose of the current investigation was to determine the contribution of selective cholesteryl ester (CE) uptake versus whole-particle uptake during LDL-induced foam cell formation in cultured macrophages. Murine bone marrow-derived macrophages (BMMs) exhibited significant cholesterol accumulation when treated with LDL as indicated by quantification of cellular cholesterol and visualization of Oil Red-O-stained neutral lipid droplets. Uptake of LDL cholesterol was determined by measuring uptake of 3H and 125I into BMMs during treatment with [3H]CE/125I-LDL. [3H]CE uptake was linearly related to the LDL concentration at the concentrations used and was much larger than 125I uptake, indicating that the majority of LDL-cholesterol was acquired by nonsaturable, selective CE uptake. This pathway was demonstrated to be independent of whole-particle uptake by showing that inhibition of actin polymerization blocked LDL particle uptake but not selective CE uptake. Analysis by thin-layer chromatography (TLC) indicated that following uptake, [3H]CE was rapidly hydrolyzed into [3H]cholesterol by cells and largely effluxed into the culture medium. In contrast to LDL, studies of [3H]CE/125I-oxLDL uptake demonstrated that CE was acquired from oxLDL by whole-particle uptake with little or no selective CE uptake. Using a series of ten different [3H]CE/125I-oxLDLs oxidized for 0-24 hours, selective [3H]CE uptake was shown to be progressively impaired by LDL oxidation, while 125I-LDL particle uptake was increased as expected. Interestingly, the impairment of selective CE uptake occurred very early in LDL oxidation and this minimally oxidized LDL induced significantly less cholesterol accumulation in BMMs compared to native LDL. Together, these results demonstrate that selective CE uptake is the primary mode of cholesterol uptake from LDL but not oxidized LDL, a finding that has important implications for cholesterol metabolism in atherosclerotic lesions. Future studies seek to identify the molecular components that participate in the macrophage selective CE uptake mechanism.
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Approaches to differential gene expression analysis in atherosclerosisAndersson, Tove January 2002 (has links)
Todays rapid development of powerful tools for geneexpression analysis provides unprecedented resources forelucidating complex molecular events. The objective of this workhas been to apply, combine andevaluate tools for analysis of differential gene expressionusing atherosclerosis as a model system. First, an optimisedsolid-phase protocol for representational difference analysis(RDA) was applied to twoin vitromodel systems. Initially, The RDA enrichmentprocedure was investigated by shotgun cloning and sequencing ofsuccessive difference products. In the subsequent steps,combinations of RDA and microarray analysis were used tocombine the selectivity and sensitivity of RDA with thehigh-throughput nature of microarrays. This was achieved byimmobilization of RDA clones onto microarrays dedicated forgene expression analysis in atherosclerosis as well ashybridisation of labelled RDA products onto global microarrayscontaining more than 32,000 human clones. Finally, RDA wasapplied for the investigation of the focal localisation ofatherosclerotic plaques in mice usingin vivotissue samples as starting material. A large number of differentially expressed clones wereisolated and confirmed by real time PCR. A very diverse rangeof gene fragments was identified in the RDA products especiallywhen they were screened with global microarrays. However, themicroarray data also seem to contain some noise which is ageneral problem using microarrays and should be compensated forby careful verification of the results. Quite a large number of candidate genes related to theatherosclerotic process were found by these studies. Inparticular several nuclear receptors with altered expression inresponse to oxidized LDL were identified and deserve furtherinvestigation. Extended functional annotation does not liewithin the scope of this thesis but raw data in the form ofnovel sequences and accession numbers of known sequences havebeen made publicly available in GenBank. Parts of the data arealso available for interactive exploration on-line through aninteractive software tool. The data generated thus constitute abase for new hypotheses to be tested in the field ofatherosclerosis. <b>Keywords:</b>representational difference analysis, geneexpression profiling, microarray analysis, atherosclerosis,foam cell formation
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Approaches to differential gene expression analysis in atherosclerosisAndersson, Tove January 2002 (has links)
<p>Todays rapid development of powerful tools for geneexpression analysis provides unprecedented resources forelucidating complex molecular events.</p><p>The objective of this workhas been to apply, combine andevaluate tools for analysis of differential gene expressionusing atherosclerosis as a model system. First, an optimisedsolid-phase protocol for representational difference analysis(RDA) was applied to two<i>in vitro</i>model systems. Initially, The RDA enrichmentprocedure was investigated by shotgun cloning and sequencing ofsuccessive difference products. In the subsequent steps,combinations of RDA and microarray analysis were used tocombine the selectivity and sensitivity of RDA with thehigh-throughput nature of microarrays. This was achieved byimmobilization of RDA clones onto microarrays dedicated forgene expression analysis in atherosclerosis as well ashybridisation of labelled RDA products onto global microarrayscontaining more than 32,000 human clones. Finally, RDA wasapplied for the investigation of the focal localisation ofatherosclerotic plaques in mice using<i>in vivo</i>tissue samples as starting material.</p><p>A large number of differentially expressed clones wereisolated and confirmed by real time PCR. A very diverse rangeof gene fragments was identified in the RDA products especiallywhen they were screened with global microarrays. However, themicroarray data also seem to contain some noise which is ageneral problem using microarrays and should be compensated forby careful verification of the results.</p><p>Quite a large number of candidate genes related to theatherosclerotic process were found by these studies. Inparticular several nuclear receptors with altered expression inresponse to oxidized LDL were identified and deserve furtherinvestigation. Extended functional annotation does not liewithin the scope of this thesis but raw data in the form ofnovel sequences and accession numbers of known sequences havebeen made publicly available in GenBank. Parts of the data arealso available for interactive exploration on-line through aninteractive software tool. The data generated thus constitute abase for new hypotheses to be tested in the field ofatherosclerosis.</p><p><b>Keywords:</b>representational difference analysis, geneexpression profiling, microarray analysis, atherosclerosis,foam cell formation</p>
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Systems Biology Analysis of Macrophage Foam Cells: Finding a Novel Function for Peroxiredoxin IConway, James Patrick January 2007 (has links)
No description available.
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Papel de CD100 na patogênese da aterosclerose / Role of CD100 in the pathogenesis of atherosclerosisMaria Carolina Aquino Luque 25 February 2011 (has links)
A aterosclerose é uma doença degenerativa crônica dos vasos, com conseqüências clínicas agudas que incluem o infarto do miocárdio e o acidente vascular cerebral, resultantes geralmente da ruptura da placa e trombose. É atualmente reconhecida como de característica inflamatória, iniciada e propagada no contexto da hipercolesterolemia. Um trabalho de nosso grupo utilizou técnicas de phage display para comparar placas ateroscleróticas e carótidas normais objetivando a busca de proteínas alteradas potencialmente envolvidas na patogênese da doença. Diversas semaforinas e plexinas (receptores de semaforinas) foram identificadas dentre elas a plexina B1, que possui alta afinidade por CD100, sugerindo assim uma concentração aumentada de CD100 na placa aterosclerótica. CD100 foi a primeira semaforina descrita no sistema imune e a única até hoje descrita como possuidora de duas formas de funcionalidades distintas, sendo uma de membrana (mCD100) e outra solúvel (sCD100). Neste trabalho demonstramos a expressão da semaforina CD100 em macrófagos e células espumosas em placas ateroscleróticas humanas, assim como seu padrão de expressão ao longo da diferenciação monócito-macrófago-célula espumosa, e sob estímulos distintos. Além disso, identificamos pela primeira vez o receptor que medeia suas atividades nessas células, a plexina B2. Adicionalmente, detectamos também pela primeira vez detectamos a expressão de CD100 em células endoteliais teciduais e cultivadas in vitro, o que sugere um papel significativo da semaforina em fenômenos vasculares. Com base nessas observações e nos resultados de experimentos de bloqueio de adesão constatamos que CD100 pode atuar na fase mais precoce da aterosclerose, como uma molécula de adesão envolvida na ligação entre monócitos e células endoteliais. Verificamos ainda que CD100 diminui a captação de LDLox em macrófagos e células espumosas. Poucos estudos relatam a presença ou possível atividade biológica de CD100 tanto na aterosclerose quanto em macrófagos. Devido às já estabelecidas ações no sistema imune, acreditamos que a expressão diferencial dessa semaforina desempenha um papel amplificador na patogênese da aterosclerose. Posteriormente, essa proteína poderá servir como alvo de inibição da progressão da doença e de suas complicações / Atherosclerosis is a chronic degenerative disease affecting vessels, with acute clinical consequences that include myocardium infarction or stroke, generally resulting from plaque rupture and thrombosis. It is now recognized as an inflammatory disease, initiated and developed in a hipercholesterolemic context. A work in our lab has used phage display techniques to compare atherosclerotic plaques and normal carotids, searching for altered proteins potentially involved in the pathogenesis of the disease. Many semaphorins and plexins (semaphorin receptors) have been identified, among which plexin B1, a high affinity receptor for CD100, suggesting an augmented level of CD100 in the atherosclerotic plaques. CD100 is the first semaphorin described in the immune system, and the only to possess two forms with distinct functionalities, being one associated to the membrane, mCD100, and another soluble form, sCD100. In the present work we have demonstrated CD100 expression in macrophages and foam cells of human atherosclerotic plaques, as well as its pattern of expression along monocyte-macrophage-foam cell differentiation and under distinct stimuli. Furthermore, we have identified for the first time the receptor involved in CD100 activities in these cells, namely plexin B2. Aditionally, we have detected CD100 expression in tissue as well as in in vitro cultured endothelial cells, also for the first time. According to these informations and adhesion blockage experiments we have shown that CD100 may act in the earliest phase of the establishment of atherosclerosis, as an adhesion molecule involved in monocyte-endothelial cell association. We have also verified that CD100 diminishes the intake of oxLDL in macrophages and foam cells. Only a few studies describe the presence or possible biological activity of CD100 in atherosclerosis or macrophages. Since the molecule has been shown to participate in the immune system, we believe that the differential expression of this semaphorin plays an amplifying role in the pathogenesis of atherosclerosis. In the future, this protein could act as an inhibition target of the disease progression as well as its complications
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