Global ETD Search

11	Vésicules extracellulaires et régulation de la réponse inflammatoire dans les pathologies cardiovasculaires / Extracellular vesicles and inflammatory regulation in cardiovascular diseases Yin, Min 30 November 2015 (has links) Les vésicules extracellulaires telles que les microvésicules et les exosomes sont libérées lors de l’apoptose ou de l’activation cellulaire. Ce sont des médiateurs importants dans la communication intercellulaire, suggérant que ces vésicules pourraient jouer un rôle physiopathologique, en particulier dans les maladies cardiovasculaires. L'athérosclérose est une maladie inflammatoire chronique de la paroi artérielle qui résulte de l’interaction entre les lipoprotéines, les cellules inflammatoires, et les cellules vasculaires. L'infarctus du myocarde est une complication aiguë et grave de l'athérosclérose. La réaction inflammatoire post-infarctus joue un rôle central dans la formation de néovaisseaux sanguins et la cicatrisation. Cependant, les mécanismes de l’inflammation sont encore mal connus dans ces pathologies. Mon travail de thèse a porté sur les effets des vésicules extracellulaires isolées de tissus pathologiques sur les cellules inflammatoires. Nous avons montré dans un premier travail que les microvésicules s’accumulant dans les lésions d’athérosclérose humaines contribuent à la surcharge en cholestérol et en triglycérides des macrophages et facilitent la formation de cellules spumeuses. L’accumulation des lipides intracellulaires induite par ces microvésicules est contrebalancée par une augmentation de l’efflux du cholestérol associée à une activation d’ABCA1. Dans un deuxième travail, nous avons examiné les effets des vésicules produites dans le cœur post-infarctus sur la réponse inflammatoire. Nos résultats montrent : 1- une augmentation de la libération in situ des microvésicules majoritairement d’origine cardiomyocytaire et des exosomes 15 heures après infarctus ; 2- la stimulation de la production de VEGF monocytaire par les vésicules extracellulaires ; 3- l’incapacité en ce qui concerne les vésicules isolées de cœur diabétique infarci à reproduire cet effet sur les monocytes des souris contrôles. Afin de clarifier les déterminants de l’angiogenèse post-ischémique, nous avons également étudié les profils de miARNs des vésicules contrôles et diabétiques. Après infarctus du myocarde, l’expression de miR-126-3p et de miR-92a-3p est significativement diminuée dans les vésicules diabétiques en comparaison avec les vésicules contrôles. Par ailleurs, nous avons observé une augmentation de miR-126-3p et de miR-92a-3p respectivement dans les microvésicules et les exosomes chez les souris contrôles post-infarctus. En conclusion, ce travail apporte des éléments nouveaux sur les fonctions des vésicules extracellulaires générées localement dans les tissus inflammatoires, en particulier leur capacité à promouvoir la transformation des macrophages en cellules spumeuses dans la plaque. Par ailleurs, les vésicules isolées du cœur ischémique pourraient favoriser l’angiogenèse post-infarctus en stimulant la production de VEGF monocytaire. La disparition de cet effet bénéfique dans le diabète pourrait être associée à des modifications d’adressage des miARNs dans les vésicules extracellulaires au cours de cette pathologie. / Extracellular vesicles, such as microvesicles and exosomes, are released during cell apoptosis or activation. They are important mediators of intercellular communication, suggesting that these vesicles could play a pathophysiological role, especially in cardiovascular diseases. Atherosclerosis is a chronic inflammatory disease of the arterial wall which results from the interaction between lipoproteins, inflammatory cells, and vascular cells. Myocardial infarction is an acute and severe complication of atherosclerosis. The postinfarction inflammatory response plays a central role in the formation of new blood vessels and scarring. However, the mechanisms of inflammation are still poorly known in these pathologies. My thesis concerned the effects of extracellular vesicles isolated from pathological tissues on inflammatory cells. We showed in the first work that microvesicles accumulating in human atherosclerotic lesions contribute to cholesterol and triglyceride overload in macrophages and facilitate foam cell formation. The accumulation of the intracellular lipids induced by those microvesicles is offset by an increase in cholesterol efflux associated with activation of ABCA1. In the second study, we examined the effect of vesicles produced in the infarcted heart on the inflammatory response. Our results showed : 1- an increased release in situ of microvesicles mostly of cardiomyocyte origin and exosomes 15 hours after infarction ; 2- the stimulation of monocyte VEGF production by extracellular vesicles ; 3- the incapacity of diabetic vesicles isolated from infarcted heart to reproduce that effect on control mice monocytes. In order to clarify the determinants of postischemic angiogenesis, we also studied miRNA profiles of control and diabetic vesicles. After myocardial infarction, the expression level of miR-126-3p and miR-92a-3p was significantly decreased in diabetic vesicles compared to control vesicles. Furthermore, we observed an increased expression of miR-126-3p and miR-92a-3p respectively in the microvesicles and the exosomes isolated from control mice heart after myocardial infarction. In conclusion, this work provides new information on the functions of extracellular vesicles locally generated in inflamed tissues, particularly in promoting macrophage transformation into foam cells in the atherosclerotic plaque. Furthermore, vesicles isolated from ischemic heart could enhance postinfarction angiogenesis by stimulating monocyte VEGF production. The loss of this beneficial effect in diabetes may be associated with changes of miRNA cargo in extracellular vesicles in this pathology. Angiogenèse Athérosclérose Cellules spumeuses Exosomes Maladies cardiovasculaires MicroARNs Microvésicules VEGF Vésicules extracellulaire Angiogenesis Atherosclerosis Cardiovascular diseases Exosomes Extracellular vesicles Foam cells MicroRNAs Microvesicles VEGF 616.1
12	Obtenção de GFP5-scFv recombinante reativo à LDL(-): possíveis aplicações na investigação da aterosclerose / Obtaining GFP5-scFv recombinant reactive LDL (-): possible applications in research of atherosclerosis Guilherme, Daniel Ferreira 12 September 2012 (has links) A aterosclerose é a doença de base das principais complicações cardiovasculares. Os produtos de modificação das lipoproteínas de baixa densidade, como a subfração eletronegativa LDL (-), exercem um importante papel na progressão da aterosclerose. O objetivo do presente trabalho foi expressar a proteína de fusão, GFP5-scFv anti-LDL (-), desenvolver um método para detecção de LDL (-), assim como avaliar a possível utilização desta proteína como uma ferramenta para monitorar os ensaios de formação de células espumosas. A proteína GFP5-scFv anti-LDL (-) foi expressa em E. coli BL21DE3. Esta proteína de fusão foi desnaturada com 7M de ureia, purificada por cromatografia de afinidade e reenovelada por gradiente de diálise na presença de poliestireno sulfonado. A massa molecular da proteína foi confirmada por SDS-PAGE e sua afinidade de ligação à LDL (-) confirmada pelo dot blot e ELISA. O espectro de emissão de fluorescência da GFP5-scFv anti-LDL (-) é qualitativamente equivalente ao da GFP5, porém com intensidade de emissão mais baixa. Na tentativa de superar essa limitação tentou-se realizar a inserção de um peptídeo ligante flexível entre os domínios de ligação da GFP5 e do scFv anti-LDL (-) para melhorar a eficiência de emissão de fluorescência da quimera. Os ensaios in vitro com macrófagos RAW 264.7 demonstraram que a GFP5-scFv anti-LDL (-) não apresentou toxicidade significante e não reduziu a captação de LDL (-) pelos macrófagos. Demonstrou-se por microscopia confocal, que a GFP5-scFv anti-LDL é internalizada pelos macrófagos e pode ser visualizada no interior destas células. Portanto, a proteína recombinante GFP5-scFv anti-LDL (-) é uma ferramenta que poderá ser utilizada em ensaios in vitro com macrófagos para o estudo da aterosclerose. / Atherosclerosis is the most important cause of the cardiovascular diseases. The modifications of low density lipoproteins that induces the formation of modified particles, like the electronegative LDL subfraction, - LDL (-), are know to play a key role in the progression of atherosclerosis. The aim of the present work was to express a fusion protein, GFP5-scFv anti LDL (-), to develop a method to assess LDL (-), as well as to evaluate the use of this protein as a tool for in vitro assay in the investigation of atherosclerosis. The protein GFP5-scFv anti LDL (-) was expressed in E. Coli BL21DE3. The fusion protein was denatured with 7M urea, purified by affinity chromatografy and refolded by gradient dialysis in the presence of PSS. The molecular mass of the protein was confirmed by SDS-PAGE and its affinity for LDL (-) was confirmed by dot blot and ELISA. The emission spectrum of GFP5-scFv is qualitatively equivalent to that of GFP5, although with a lower fluorescence emission intensity. In an attempt to overcome this limitation we tried to perform the insertion of a flexible linker between the binding domains of GPF5 and scFv was done in order to increase the fluorescence emission of this fusion protein. The in vitro assays with RAW 264.7 macrophages showed that the GFP5-scFv anti-LDL (-) has no significant toxicity to these cells and did not decrease the uptake of LDL (-) by these macrophages. It was demonstrated by confocal microscopy that the GFP5-scFv anti-LDL (-) is internalized by macrophages and can be visualized inside these cells. Thus, GFP5-scFv anti-LDL (-) fusion proteins is a useful to that can be used for in vitro assays with macrophages in the investigation of atherosclerosis. Aterosclerose Atherosclerosis Células espumosas Electronegative low density lipoproteins Foam cells GFP5-scFv anti-LDL (-) GFP5-scFv anti-LDL (-) Macrófagos Macrophages
13	Vésicules extracellulaires et régulation de la réponse inflammatoire dans les pathologies cardiovasculaires / Extracellular vesicles and inflammatory regulation in cardiovascular diseases Yin, Min 30 November 2015 (has links) Les vésicules extracellulaires telles que les microvésicules et les exosomes sont libérées lors de l’apoptose ou de l’activation cellulaire. Ce sont des médiateurs importants dans la communication intercellulaire, suggérant que ces vésicules pourraient jouer un rôle physiopathologique, en particulier dans les maladies cardiovasculaires. L'athérosclérose est une maladie inflammatoire chronique de la paroi artérielle qui résulte de l’interaction entre les lipoprotéines, les cellules inflammatoires, et les cellules vasculaires. L'infarctus du myocarde est une complication aiguë et grave de l'athérosclérose. La réaction inflammatoire post-infarctus joue un rôle central dans la formation de néovaisseaux sanguins et la cicatrisation. Cependant, les mécanismes de l’inflammation sont encore mal connus dans ces pathologies. Mon travail de thèse a porté sur les effets des vésicules extracellulaires isolées de tissus pathologiques sur les cellules inflammatoires. Nous avons montré dans un premier travail que les microvésicules s’accumulant dans les lésions d’athérosclérose humaines contribuent à la surcharge en cholestérol et en triglycérides des macrophages et facilitent la formation de cellules spumeuses. L’accumulation des lipides intracellulaires induite par ces microvésicules est contrebalancée par une augmentation de l’efflux du cholestérol associée à une activation d’ABCA1. Dans un deuxième travail, nous avons examiné les effets des vésicules produites dans le cœur post-infarctus sur la réponse inflammatoire. Nos résultats montrent : 1- une augmentation de la libération in situ des microvésicules majoritairement d’origine cardiomyocytaire et des exosomes 15 heures après infarctus ; 2- la stimulation de la production de VEGF monocytaire par les vésicules extracellulaires ; 3- l’incapacité en ce qui concerne les vésicules isolées de cœur diabétique infarci à reproduire cet effet sur les monocytes des souris contrôles. Afin de clarifier les déterminants de l’angiogenèse post-ischémique, nous avons également étudié les profils de miARNs des vésicules contrôles et diabétiques. Après infarctus du myocarde, l’expression de miR-126-3p et de miR-92a-3p est significativement diminuée dans les vésicules diabétiques en comparaison avec les vésicules contrôles. Par ailleurs, nous avons observé une augmentation de miR-126-3p et de miR-92a-3p respectivement dans les microvésicules et les exosomes chez les souris contrôles post-infarctus. En conclusion, ce travail apporte des éléments nouveaux sur les fonctions des vésicules extracellulaires générées localement dans les tissus inflammatoires, en particulier leur capacité à promouvoir la transformation des macrophages en cellules spumeuses dans la plaque. Par ailleurs, les vésicules isolées du cœur ischémique pourraient favoriser l’angiogenèse post-infarctus en stimulant la production de VEGF monocytaire. La disparition de cet effet bénéfique dans le diabète pourrait être associée à des modifications d’adressage des miARNs dans les vésicules extracellulaires au cours de cette pathologie. / Extracellular vesicles, such as microvesicles and exosomes, are released during cell apoptosis or activation. They are important mediators of intercellular communication, suggesting that these vesicles could play a pathophysiological role, especially in cardiovascular diseases. Atherosclerosis is a chronic inflammatory disease of the arterial wall which results from the interaction between lipoproteins, inflammatory cells, and vascular cells. Myocardial infarction is an acute and severe complication of atherosclerosis. The postinfarction inflammatory response plays a central role in the formation of new blood vessels and scarring. However, the mechanisms of inflammation are still poorly known in these pathologies. My thesis concerned the effects of extracellular vesicles isolated from pathological tissues on inflammatory cells. We showed in the first work that microvesicles accumulating in human atherosclerotic lesions contribute to cholesterol and triglyceride overload in macrophages and facilitate foam cell formation. The accumulation of the intracellular lipids induced by those microvesicles is offset by an increase in cholesterol efflux associated with activation of ABCA1. In the second study, we examined the effect of vesicles produced in the infarcted heart on the inflammatory response. Our results showed : 1- an increased release in situ of microvesicles mostly of cardiomyocyte origin and exosomes 15 hours after infarction ; 2- the stimulation of monocyte VEGF production by extracellular vesicles ; 3- the incapacity of diabetic vesicles isolated from infarcted heart to reproduce that effect on control mice monocytes. In order to clarify the determinants of postischemic angiogenesis, we also studied miRNA profiles of control and diabetic vesicles. After myocardial infarction, the expression level of miR-126-3p and miR-92a-3p was significantly decreased in diabetic vesicles compared to control vesicles. Furthermore, we observed an increased expression of miR-126-3p and miR-92a-3p respectively in the microvesicles and the exosomes isolated from control mice heart after myocardial infarction. In conclusion, this work provides new information on the functions of extracellular vesicles locally generated in inflamed tissues, particularly in promoting macrophage transformation into foam cells in the atherosclerotic plaque. Furthermore, vesicles isolated from ischemic heart could enhance postinfarction angiogenesis by stimulating monocyte VEGF production. The loss of this beneficial effect in diabetes may be associated with changes of miRNA cargo in extracellular vesicles in this pathology. Angiogenèse Athérosclérose Cellules spumeuses Exosomes Maladies cardiovasculaires MicroARNs Microvésicules VEGF Vésicules extracellulaire Angiogenesis Atherosclerosis Cardiovascular diseases Exosomes Extracellular vesicles Foam cells MicroRNAs Microvesicles VEGF 616.1
14	The effect of danshen-gegen compound formula on in vitro foam cell formation and in vivo antioxidant level. January 2007 (has links) Wong, Wai Yin. / Thesis (M.Phil.)--Chinese University of Hong Kong, 2007. / Includes bibliographical references (leaves 92-108). / Abstracts in English and Chinese. / Chapter Chapter 1 --- Introduction --- p.1 / Chapter 1.1 --- Atherosclerosis --- p.1 / Chapter 1.1.1 --- Pathogenesis of Atherosclerosis --- p.2 / Chapter 1.1.2 --- Atherosclerosis and Cardiovascular Disease --- p.4 / Chapter 1.2 --- Cardiovascular Disease (CVD) --- p.5 / Chapter 1.2.1 --- Term Definition --- p.5 / Chapter 1.2.2 --- Risk Factors --- p.6 / Chapter 1.2.3 --- Current Western Medications --- p.7 / Chapter 1.3 --- Reactive Oxygen Species (ROS) --- p.8 / Chapter 1.3.1 --- Impact of ROS --- p.8 / Chapter 1.3.2 --- "Superoxide Anion Radical, Hydrogen Peroxide, Hydroxyl Radical, Nitric Oxide" --- p.9 / Chapter 1.3.3 --- ROS Production by NAD(P)H Oxidases --- p.11 / Chapter 1.3.4 --- ROS Production by Mitochondria --- p.12 / Chapter 1.3.5 --- Lipid Peroxidation --- p.13 / Chapter 1.3.6 --- Other Sources of ROS --- p.15 / Chapter 1.4 --- Antioxidants --- p.16 / Chapter 1.4.1 --- Superoxide Dismutase (SOD) --- p.16 / Chapter 1.4.2 --- Catalase (CAT) --- p.17 / Chapter 1.4.3 --- Glutathinoe Peroxidase (GPx) --- p.17 / Chapter 1.4.4 --- Glutathione-S-Transferase (GST) --- p.18 / Chapter 1.4.5 --- Vitamin E --- p.18 / Chapter 1.4.6 --- Vitamin C --- p.19 / Chapter 1.5 --- Ageing --- p.19 / Chapter 1.6 --- Antioxidants and CVD --- p.21 / Chapter 1.7 --- Traditional Chinese Medicine (TCM) --- p.22 / Chapter 1.7.1 --- Danshen --- p.23 / Chapter 1.7.2 --- Gegen --- p.25 / Chapter 1.7.3 --- Danshen-Gegen Compound Formula (DG) --- p.26 / Chapter 1.8 --- Aim of Study --- p.27 / Chapter Chapter 2 --- In vitro Foam Cells Formation --- p.29 / Chapter 2.1 --- Materials and Methods --- p.29 / Chapter 2.1.1 --- Materials --- p.29 / Chapter 2.1.2 --- Methods --- p.30 / Chapter 2.1.2.1 --- Herbal Preparation by Hot Water Extraction --- p.30 / Chapter 2.1.2.2 --- Resident Peritoneal Macrophages Preparation --- p.31 / Chapter 2.1.2.3 --- "Colorimetric 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl Tetrazolium Bromide (MTT) Assay" --- p.31 / Chapter 2.1.2.4 --- DG Effect on in vitro Foam Cells Formation --- p.32 / Chapter 2.2 --- Results and Discussion --- p.32 / Chapter 2.3 --- Summary --- p.39 / Chapter Chapter 3 --- In vivo Antioxidant Level --- p.40 / Chapter 3.1 --- DG Effect on in vivo Antioxidant Levels on Young-adult Wistar Rats --- p.40 / Chapter 3.1.1 --- Materials and Methods --- p.40 / Chapter 3.1.1.1 --- Herbal Preparation by Hot Water Extraction --- p.40 / Chapter 3.1.1.2 --- Assay Kits --- p.41 / Chapter 3.1.1.3 --- Antibodies for Protein Expression Determination in Organs --- p.41 / Chapter 3.1.1.4 --- Animals and Experimental Design --- p.41 / Chapter 3.1.1.5 --- Plasma Antioxidants --- p.42 / Chapter 3.1.1.6 --- Lipid Peroxidation and Protein Expression in Organs --- p.46 / Chapter 3.1.1.7 --- Statistics --- p.52 / Chapter 3.1.2 --- Results and Discussion --- p.53 / Chapter 3.2 --- DG Effect on in vivo Antioxidant Levels on Middle-aged Wistar Rats --- p.74 / Chapter 3.2.1 --- Materials and Methods --- p.75 / Chapter 3.2.2 --- Results and Discussion --- p.75 / Chapter 3.3 --- Summary --- p.87 / Chapter Chapter 4 --- Conclusion and Future Work --- p.90 / Chapter 4.1 --- Conclusion --- p.90 / Chapter 4.2 --- Future work --- p.90 / Reference --- p.92 / Related Publication --- p.109 Salvia--Physiological effect Kudzu--Physiological effect Antioxidants--Physiological effect Macrophages--Physiology Medicine, Chinese Salvia Miltiorrhiza--physiology Pueraria--physiology Antioxidants--physiology Foam Cells--metabolism Drugs, Chinese Herbal--therapeutic use
15	Obtenção de GFP5-scFv recombinante reativo à LDL(-): possíveis aplicações na investigação da aterosclerose / Obtaining GFP5-scFv recombinant reactive LDL (-): possible applications in research of atherosclerosis Daniel Ferreira Guilherme 12 September 2012 (has links) A aterosclerose é a doença de base das principais complicações cardiovasculares. Os produtos de modificação das lipoproteínas de baixa densidade, como a subfração eletronegativa LDL (-), exercem um importante papel na progressão da aterosclerose. O objetivo do presente trabalho foi expressar a proteína de fusão, GFP5-scFv anti-LDL (-), desenvolver um método para detecção de LDL (-), assim como avaliar a possível utilização desta proteína como uma ferramenta para monitorar os ensaios de formação de células espumosas. A proteína GFP5-scFv anti-LDL (-) foi expressa em E. coli BL21DE3. Esta proteína de fusão foi desnaturada com 7M de ureia, purificada por cromatografia de afinidade e reenovelada por gradiente de diálise na presença de poliestireno sulfonado. A massa molecular da proteína foi confirmada por SDS-PAGE e sua afinidade de ligação à LDL (-) confirmada pelo dot blot e ELISA. O espectro de emissão de fluorescência da GFP5-scFv anti-LDL (-) é qualitativamente equivalente ao da GFP5, porém com intensidade de emissão mais baixa. Na tentativa de superar essa limitação tentou-se realizar a inserção de um peptídeo ligante flexível entre os domínios de ligação da GFP5 e do scFv anti-LDL (-) para melhorar a eficiência de emissão de fluorescência da quimera. Os ensaios in vitro com macrófagos RAW 264.7 demonstraram que a GFP5-scFv anti-LDL (-) não apresentou toxicidade significante e não reduziu a captação de LDL (-) pelos macrófagos. Demonstrou-se por microscopia confocal, que a GFP5-scFv anti-LDL é internalizada pelos macrófagos e pode ser visualizada no interior destas células. Portanto, a proteína recombinante GFP5-scFv anti-LDL (-) é uma ferramenta que poderá ser utilizada em ensaios in vitro com macrófagos para o estudo da aterosclerose. / Atherosclerosis is the most important cause of the cardiovascular diseases. The modifications of low density lipoproteins that induces the formation of modified particles, like the electronegative LDL subfraction, - LDL (-), are know to play a key role in the progression of atherosclerosis. The aim of the present work was to express a fusion protein, GFP5-scFv anti LDL (-), to develop a method to assess LDL (-), as well as to evaluate the use of this protein as a tool for in vitro assay in the investigation of atherosclerosis. The protein GFP5-scFv anti LDL (-) was expressed in E. Coli BL21DE3. The fusion protein was denatured with 7M urea, purified by affinity chromatografy and refolded by gradient dialysis in the presence of PSS. The molecular mass of the protein was confirmed by SDS-PAGE and its affinity for LDL (-) was confirmed by dot blot and ELISA. The emission spectrum of GFP5-scFv is qualitatively equivalent to that of GFP5, although with a lower fluorescence emission intensity. In an attempt to overcome this limitation we tried to perform the insertion of a flexible linker between the binding domains of GPF5 and scFv was done in order to increase the fluorescence emission of this fusion protein. The in vitro assays with RAW 264.7 macrophages showed that the GFP5-scFv anti-LDL (-) has no significant toxicity to these cells and did not decrease the uptake of LDL (-) by these macrophages. It was demonstrated by confocal microscopy that the GFP5-scFv anti-LDL (-) is internalized by macrophages and can be visualized inside these cells. Thus, GFP5-scFv anti-LDL (-) fusion proteins is a useful to that can be used for in vitro assays with macrophages in the investigation of atherosclerosis. Aterosclerose Células espumosas GFP5-scFv anti-LDL (-) Macrófagos Atherosclerosis Electronegative low density lipoproteins Foam cells GFP5-scFv anti-LDL (-) Macrophages
16	Critical roles of dendritic cells and macrophages in cardiovascular disease Lee, Junseong 10 1900 (has links) Cardiovascular disease is a major cause of mortality in the world, and is rapidly increasing. To understand the inflammatory response of various diseases, we have made tremendous advances in molecular and cellular research to show clear evidence that macrophages and dendritic cells play central roles in cardiovascular diseases, such as atherosclerosis and myocardial infarction. We have identified the two conventional DCs subsets (cDC1 and cDC2) in heart of healthy mouse. As expected, we found that the IRF8-expressing cDC1, but not the IRF4-expressing cDC2, was dependent on Flt3 for its development. Myocardial infarction significantly increased the infiltration of CD45+ leukocytes in the infarcted heart, including macrophages, neutrophils and DCs. Among cDC, the most significantly increased subset was the cDC2. The diphtheria toxin receptor (DTR) mediated depletion of Zbtb46-expressing DCs in myocardial infarcted mice led to a significant decrease of IL-1β expression together with an increased recruitment of leukocytes. This dramatically reduced the infarcted size and improved cardiac function, suggesting that cardiac DCs play an important role in immune cell infiltration following myocardial infarction. In another study, we developed, for the first time, a lipid probe-based flow cytometry method to analyze foam cells in atherosclerotic aorta. Our method enables to isolate foamy and non-foamy macrophages in order to perform the transcriptomic analysis of these cells. In addition, this technique allows to assess the severity of atherosclerosis and the characteristics of foam cells. RNA-seq analysis showed that lipid-laden foamy macrophages in atherosclerotic lesions clearly expressed different transcripts compared to non-foamy macrophages. Surprisingly, we found that non-foamy macrophages showed a pro-inflammatory signature reflected by the up-regulation of cytokines, such as Il1β, Tnf and Nlrp3. However, foamy macrophages up-regulated genes related to the transport and uptake of lipids (cholesterol and fatty acid). Collectively, we specifically identified the function of dendritic cells and macrophages in the pathogenesis of cardiovascular diseases. Understanding the precise role of these cells will help to develop appropriate immune-therapeutic strategy to attenuate cardiovascular disease. / Les maladies cardiovasculaires représentent un risque majeur de mortalité dans le monde et la prévalence de ces pathologies ne cesse d’augmenter. Pour comprendre la réponse inflammatoire de ces maladies, nous avons fait d’énormes progrès dans la recherche moléculaire et cellulaire afin de démontrer clairement que les macrophages et les cellules dendritiques jouent un rôle central dans l’athérosclérose et l’infarctus du myocarde, deux maladies cardiovasculaires mortelles. Nous avons trouvé que, à l’état normal, le coeur de souris abrite les deux types de cellules dendritiques classiques (cDC1 et cDC2). Conformément à ce qui est connue sur ces les cDC, nous avons constaté que les cDC1, qui expriment IRF8, dépendent du Flt3, un facteur de croissance important pour leur développement alors que les cDC2, qui expriment IRF4, sont Flt3 indépendantes. Nous avons trouvé que le nombre total leucocytes CD45+ augment dans le coeur des souris ayant subi l'infarctus du myocarde. Ces leucocytes étaient majoritairement des macrophages, des neutrophiles et des cDCs. Parmi ces dernières, les cDC2 ont connu une plus forte augmentation. Dans un premier projet, nous avons vérifié le rôle de ces cDCs dans cette pathologie. Pour ce faire, nous avons procédé à la déplétion de ces cellules en utilisant un modèle de souris exprimant le récepteur de la toxine diphtérique (DTR) au même temps que Zbtb46. L’expression spécifique de ce dernier dans les cDCs induit l’expression de la DRT et l’injection ultérieure de la toxine diphtérique provoque la déplétion des cDCs chez ces souris transgéniques. Nos travaux ont montré que la déplétion des cDCs diminue le recrutement des leucocytes et l'expression de la cytokine inflammatoire l'IL-1β dans le coeur des souris ayant subi l’infarctus du myocarde. Cela réduit considérablement l’ampleur de l'infarctus et améliore la fonction cardiaque, suggérant que les cDCs jouent un rôle important dans l'infiltration de cellules immunitaires après infarctus du myocarde. Dans une autre étude, nous avons mis au point, pour la première fois, une méthode basée sur l’utilisation de sonde lipidique pour analyser les cellules spumeuses de l'aorte par cytométrie en flux. Cette méthode permet de cibler et isoler les macrophages spumeux et non-spumeux afin d’analyser leur profile transcriptomique. En plus de caractériser ces cellules, cette technique permet d’évaluer la taille des plaques d’athérosclérose. Le séquençage des ARN (ARN-seq) a montré que les macrophages spumeux chargés de lipides dans les lésions athérosclérotiques expriment clairement différents transcrits par rapport aux macrophages non-spumeux. De manière surprenante, nous avons constaté que les macrophages nonspumeux présentaient une signature pro-inflammatoire reflétée par une régulation à la hausse de l’Il1β, le Tnf et Nlrp3. Par contre, les macrophages spumeux présentait un profile non inflammatoire caractérisé une augmentation de l’expression des gènes liés au transport et à l'absorption de lipides (cholestérol et acides gras). Contrairement à ce qui est connue jusqu’à maintenant sur le rôle pathogénique des macrophages spumeux, nos résultats montrent que ces cellules jouent un rôle plutôt protecteur dans l’athérosclérose. Collectivement, nous avons spécifiquement identifié la fonction des cDC et des macrophages dans la pathogenèse des maladies cardiovasculaires. Comprendre le rôle précis de ces cellules aidera à développer une stratégie immunothérapeutique appropriée pour atténuer les maladies cardiovasculaires. Conventional DCs Macrophages Foam Cells Atherosclerosis Myocardial Infarction RNA-seq Cellules dendritiques conventionnelles Cellules spumeuses Athérosclérose Infarctus du myocarde ARN-seq
17	Validation Of A Novel Hypothesis Of Generating Foam Cells By Its Use To Study Reverse Cholesterol Transport Sengupta, Bhaswati 01 January 2014 (has links) Generation of foam cells, an essential step for reverse cholesterol transport (RCT) studies, uses the technique of receptor dependent macrophage loading with radiolabeled acetylated Low Density Lipoprotein (Ac-LDL). In this study, we used the ability of a biologically relevant detergent molecule, Lysophosphatidylcholine (Lyso PtdCho), to form mixed micelles with cholesterol or cholesteryl ester (CE) to generate macrophage foam cells. Fluorescent or radiolabelled cholesterol / Lyso PtdCho mixed micelles were prepared and incubated with RAW 264.7 or mouse peritoneal macrophages. Results showed that such micelles were quite stable at 4°C and retained the solubilized cholesterol during one month storage. Macrophages incubated with cholesterol or CE (unlabeled, fluorescently labeled or radiolabeled) / Lyso PtdCho mixed micelles accumulated CE as documented by microscopy, lipid staining, labeled oleate incorporation, and by thin layer chromatography (TLC). Such foam cells unloaded cholesterol when incubated with high density lipoprotein (HDL) and not with oxidized HDL (Ox-HDL). We propose that stable cholesterol or CE / Lyso PtdCho micelles would offer advantages over existing methods. Oxidative stress is associated with heart failure (HF). Previously our research group observed that the patients with low left-ventricular ejection fraction showed accumulation of high level of oxidized LDL (Ox-LDL) when compared with the heart failure patients with normal range of ejection fraction (EF). HDL is known to be atheroprotective and one of its important antioxidative functions is to protect LDL from oxidative modifications. However, HDL itself undergoes oxidation and Ox-HDL becomes functionally poor. It is expected to have a diminished ability to promote reverse cholesterol transport. Therefore, it was hypothesized that the quality of HDL present in the patients with EF would more compromised than those present in the patients with normal EF. Functionality of HDL was evaluated by measuring its cholesterol efflux capacity from foam cells generated in vitro. Functionality of HDL, which is strongly related to the oxidative modifications of HDL was further estimated by measuring paraoxonase 1 (PON1) enzyme activity associated with HDL. Higher the PON1 activity and RCT ability, better is the functionality of HDL. Reverse cholesterol transport foam cells cholesterol cholesteryl ester lipoproteins ldl hdl lysophosphatidylcholine cholesterol efflux dysfunctional hdl paraoxonase nbd cholesterol macrophages Molecular Biology
18	Implications of Diet in Cardiovascular Disease Risk: Postprandial Changes in Circulating Monocytes and Endotoxemia Venable, Andrea Henning 08 1900 (has links) It is well established that continual consumption of a diet high in fat leads to the development of chronic conditions such as obesity, cardio metabolic syndrome, and atherosclerosis that are associated with high incidence of cardiovascular disease. Recent studies have identified endotoxin-derived inflammation as a major diving force for the development of these conditions. Our laboratory has recently demonstrated that consumption of a single high-fat meal results in acute postprandial endotoxemia and alters monocyte cell surface adhesion molecule expression and scavenger receptor CD36 expression. These collective projects describe our efforts to understand the physiological significance of these postprandial changes and if supplementation with spore-based probiotics are able to provide any form of protection against these responses that are associated with the onset of atherogenesis. Atherosclerosis foam cells monocytes endotoxemia PPAR-gamma Spore-based probiotics high-fat meal Monocytes. Endotoxemia.
19	Étude du rôle d’ARF6 dans la physiologie des cellules du muscle lisse vasculaire lors de l’athérosclérose Fiola-Masson, Émilie 12 1900 (has links) L’athérosclérose est une pathologie cardiovasculaire chronique impliquant de nombreux acteurs. Les cellules du muscle lisse vasculaire (CMLV) jouent un important rôle dans la pathogénicité. Lors de la formation des plaques athérosclérotiques, ces cellules entraînent l’augmentation de la taille de l’athérome, accentuent la formation du chapeau fibreux et à long terme, contribuent à l’instabilité de la plaque. Dans cette étude, nous nous sommes intéressés à l’impact d’ARF6 sur les cellules du muscle lisse vasculaire et ses implications pathologiques dans l’athérosclérose. Les ARF sont des GTPases agissant comme interrupteurs moléculaires dans divers processus physiologiques tels que le trafic vésiculaire intracellulaire et le remodelage des lipides membranaires. ARF6 est importante pour la prolifération et la migration cellulaire des CMLV, deux phénomènes importants dans le développement de l’athérosclérose. Nous émettons donc l’hypothèse que la GTPase ARF6 est impliquée dans la progression de l’athérosclérose. En premier lieu, nous avons étudié l’effet de la GTPase dans le phénomène de l’invasion cellulaire. Dans l’athérosclérose, plusieurs facteurs environnementaux influencent l’invasion des CMLV. Nous avons voulu vérifier l’effet d’ARF6 sur l’invasion des CMLV médiée par le facteur de croissance dérivé des plaquettes (PDGF-BB) et l’angiotensine II (Ang II). Dans un modèle humain, l’invasion était diminuée en l’absence d’ARF6. Nous avons démontré que ce mécanisme résultait d’un effet d’ARF6 sur l’activité de la métalloprotéinase matricielle MMP14. En second lieu, nous avons voulu évaluer l’effet d’ARF6 dans un modèle in vivo d’athérosclérose. En utilisant un modèle accéléré d’athérosclérose inductible, nous avons inhibé ARF6 dans les cellules du muscle lisse. Après dix semaines de diète riche en gras, nous avons observé une diminution de la taille des lésions athérosclérotiques dans les souris ARF6 KO, accompagnée d’une réduction de l’expression des facteurs pro-inflammatoires tels qu’IL-6. Dans un modèle in vitro, l’absence d’ARF6 réduisait l’absorption lipidique en agissant sur l’expression des transporteurs. De plus, ARF6 régulait des voies de signalisation impliquées dans l’inflammation. En somme, nous avons démontré l’importance d’ARF6 dans la modulation pathologique des CMLV dans l’athérosclérose. Ainsi, ARF6 contribue à la pathogénicité des CMLV en modulant leur invasion cellulaire tout en jouant un rôle pro-inflammatoire. / Atherosclerosis is a chronic cardiovascular disease characterized by an accumulation of lipids, followed by the infiltration of macrophages and vascular smooth muscle cells (VSMC). VSMC are responsible for the increase of lesion size, the formation of a fibrous cap, and eventually contributing to the plaque instability. In this study, we were interested in the role of ARF6 in the vascular smooth muscle cells and its pathological implications in atherosclerosis. ARF are a family of GTPases that act as molecular switches and are involved in diverse physiological mechanisms, such as vesicular traffic and membrane lipid transformation. In VSMC, ARF6 is important for cell proliferation and migration, two processes involved in atherosclerosis. We therefore hypothesize that the GTPase ARF6 is involved in the development of atherosclerosis through its impact on VSMC. First, we studied the role of ARF6 in the mechanism of cell invasion. In atherosclerosis, multiple environmental factors affect VSMC invasion. We verified the impact of ARF6 on platelet-derived growth factor (PDGF-BB) and angiotensin II (Ang II)-mediated invasion. Using a human model, we observed a reduction of invasion in the absence of ARF6. We have demonstrated that this mechanism is due to the effect of ARF6 on the activity of the matrix metalloproteinase MMP14. Second, we wanted to verify the role of ARF6 in atherosclerosis in an in vivo model. Using an accelerated inducible atherosclerosis model, we inhibited ARF6 in smooth muscle cells. After ten weeks of high-fat diet, we observed a reduction in the size of atherosclerotic lesions in ARF6 KO mice. This reduction was accompanied by a decrease in the expression of proinflammatory factors. In our in vitro model, ARF6 depletion reduced lipid uptake by downregulating the lipidic transporter expression. Also, ARF6 was responsible to activate inflammation signaling pathways. In summary, we have demonstrated the impact of ARF6 in the pathological modulation of VSMC in atherosclerosis. Indeed, ARF6 contributes to the pathogenicity of VSMC through its ability to modulate cell invasion and induce proinflammatory actions. Athérosclérose Cellules du muscle lisse vasculaire ARF6 Invasion MMP14 Ang II PDGF Modèle murin Cellules spumeuses Vascular smooth muscle cells Atherosclerosis Inflammation Mouse model Foam cells
20	Caractérisation des fonctions de transport du cholestérol des sous-types de macrophages M1 et M2 issus de cellules THP-1 Renaud, Julien 06 1900 (has links) No description available. Athérosclérose Atherosclerosis THP-1 Monocytes Macrophages Phorbol 12-myristate 13-acétate Cellules spumeuses Foam cells M1 M2 ABCA1 SR-AI/AII SR-BI CD36 rLDL LDLr Efflux Captation Uptake Lipoprotéines Lipoproteins HDL Apo A-I Apo E

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