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

Synthesis and secretion of apoC-I and apoE by human SW872 liposarcoma cells

Wassef, Hanny January 2004 (has links)
Apolipoprotein C-I (apoC-I) plays an important role in the metabolism of plasma triglyceride levels and cholesterol metabolism. Little is known about the regulation of apoC-I production by human adipocytes. Aim. To investigate the effect of different tissue culture conditions on the synthesis and secretion of apoC-I and apoE in human SW872 liposarcoma cells and to study the effects of apoC-I overexpression in these same cells. Methods. SW872 cells were grown in DMEM/F-12 (3:1, v/v). QPCR was used to quantify mRNA synthesis. ELISAs were used to quantify intracellular and extracellular proteins. Colorimetric reaction kits were used to analyze intracellular cholesterol and triglyceride concentrations. Results . Maturation experiments revealed that after 17 days in culture, SW872 cells contained significantly more cholesterol (100%) and triglyceride (3-fold). Cell maturation was associated with significantly higher levels of apoE mRNA (+200%) but not apoC-I mRNA (-50%). The cells secreted more apoC-I (+110%) and apoE (+340%). Cellular apoC-I increased 620% and apoE increased 1540%. Treatment of cells during maturation with insulin (0, 10 or 1000 nM) significantly reduced the secretion of apoC-I and apoE (-14% and -56%, respectively) and intracellular apoC-I and apoE (-10% and -12%, respectively. Overexpression of apoC-I in SW872 cells resulted in increased cell number (+70%) and decreased lipids per cell (-32% triglyceride, -36% cholesterol) as compared to controls. Conclusion. These results suggest that apoC-I and apoE production is differentially regulated at the transcriptional level in adipocytes and that apoC-I and apoE play a role in the maturation of human adipocytes and may have an important role in mediating or regulating cell lipid accumulation. As well, overexpression of apoC-I in SW872 cells impedes cellular lipid accumulation and stimulates cellular proliferation.
2

Synthesis and secretion of apoC-I and apoE by human SW872 liposarcoma cells

Wassef, Hanny January 2004 (has links)
No description available.
3

Molecular modelling of peptide folding, misfolding and aggregation phenomena

Todorova, Nevena, Nevena.Todorova@rmit.edu.au January 2009 (has links)
In this thesis we present computer modelling studies that were implemented to investigate protein behavior in various environments causing their folding, unfolding and aggregation. Applications related to two important proteins - insulin and apolipoprotein C-II (ApoC-II) are presented. The use of atomistic simulation methodologies based on empirical force fields has enhanced our understanding of many physical processes governing protein structure and dynamics. However, the force fields used in classical modelling studies are often designed for a particular class of proteins and rely on continuous improvement and validation by comparison of simulations with experimental data. In Chapter 4 we present a comprehensive comparison of five popular force fields for simulation of insulin. The effect of each force field on the conformational evolution and structural properties of the protein is analysed in detail and compared with available experimental data. A fundamental phenomenon in nature is the ability of proteins to fold ab initio to their functional native conformation, also known as their biologically active state. Due to the heterogeneity and dimensionality of the systems involved, it is necessary to employ methodologies capable of accelerating rare events, specifically, configurational changes that involve the crossing of large free energy barriers. In Chapter 5, using the recently developed method BE-META we were able to identify the structural transitions and possible folding pathways of insulin. Another interesting phenomenon is the misfolding of proteins causing their aggregation, that may lead to formation of either amorphous compounds or structures of elongated-unbranched morphology known as amyloid fibrils. The deposition of amyloid fibrils in the human body may cause many debilitating diseases such as Alzheimer's and variant Creutzfeldt-Jakob diseases, thus making this field of research important and urgent. The human plasma protein apoC-II serves important roles in lipid transport, and it has been shown to form amyloid-like aggregates in solution. We have performed computational studies to investigate the effect of mutations, such as Met oxidation and the residue substitutions to hydrophobic Val and hydrophilic Gln, on dynamics of apoC-II(60-70) peptide. The conformation features relevant to the amyloidogenic propensities of the peptide were identified and presented in Chapter 6. The involvement of lipids at the various stages of development of amyloid diseases is becoming more evident in recent research efforts. In particular, micellar and sub-micellar concentrations have showed to have different effect on fibril growth and kinetics of native apoC-II and derived peptides. In Chapter 7 we investigated the influences of phospholipids at various concentrations on the structure of apoC-II(60-70) using MD and umbrella sampling methods. The molecular mechanisms of lipid effects on the peptide conformation and dynamics were identified. In Chapter 8 preliminary results on the structural stability of pre-formed oligomeric composites of apoC-II(60-70) peptide of different sizes and arrangements were also presented. The effects of mutation (oxidised Met, Met60Val and Met60Gln) on the most stable cluster was also investigated. To conclude, several ideas for continuation of research in the protein folding and aggregation field are discussed in the Future Work section of this thesis.
4

Studium dědičných poruch glykosylace na biochemické a molekulární úrovni. / Biochemical and molecular studies of the congenital disorders of glycosylation

Ondrušková, Nina January 2016 (has links)
Congenital disorders of glycosylation (CDG) represent a rapidly growing group of rare inherited metabolic diseases with estimated prevalence as high as 1:20 000, which are caused by genetic defects that impair the process of glycosylation, i.e. the enzymatic addition of a specific saccharide structure onto a protein or lipid backbone. Due to non-specificity and variability of clinical symptoms in the patients, the medical diagnosis of CDG remains extremely challenging and significantly relies on accurate biochemical and genetic analyses. The overall goal of the present dissertation thesis was to study CDG at the biochemical and molecular genetic level in the context of the Czech and Slovak Republic, which involved three specific aims: A.) to introduce and optimize laboratory screening methods for CDG detection in a group of clinically suspected patients, B.) to determine the corresponding genetic defect in the positive patients selected via CDG screening and to study the pathobiochemical aspects of specific CDG types at the cellular level, and C.) to analyze glycosylation disturbances of non- CDG etiology. Contributions of this work include optimization of isoelectric focusing of apolipoprotein C-III (ApoC-III) as a screening method for O-glycosylation abnormalities, as well as the description of...
5

Studium dědičných poruch glykosylace na biochemické a molekulární úrovni. / Biochemical and molecular studies of the congenital disorders of glycosylation

Ondrušková, Nina January 2016 (has links)
Congenital disorders of glycosylation (CDG) represent a rapidly growing group of rare inherited metabolic diseases with estimated prevalence as high as 1:20 000, which are caused by genetic defects that impair the process of glycosylation, i.e. the enzymatic addition of a specific saccharide structure onto a protein or lipid backbone. Due to non-specificity and variability of clinical symptoms in the patients, the medical diagnosis of CDG remains extremely challenging and significantly relies on accurate biochemical and genetic analyses. The overall goal of the present dissertation thesis was to study CDG at the biochemical and molecular genetic level in the context of the Czech and Slovak Republic, which involved three specific aims: A.) to introduce and optimize laboratory screening methods for CDG detection in a group of clinically suspected patients, B.) to determine the corresponding genetic defect in the positive patients selected via CDG screening and to study the pathobiochemical aspects of specific CDG types at the cellular level, and C.) to analyze glycosylation disturbances of non- CDG etiology. Contributions of this work include optimization of isoelectric focusing of apolipoprotein C-III (ApoC-III) as a screening method for O-glycosylation abnormalities, as well as the description of...
6

Interaction entre les apoB-lipoprotéines et le tissu adipeux blanc dans la régulation du risque cardiométabolique chez l’humain

Cyr, Yannick 10 1900 (has links)
Le prédiabète et le diabète de type 2 (DT2) affectent approximativement 9 millions de canadiens, soit près de 30% de la population. Le DT2 est caractérisé par une résistance à l’insuline (RI) qui ne peut être compensée par une sécrétion d’insuline augmentée. La dysfonction du tissu adipeux blanc (TAB) est centrale à ce phénomène et est caractérisée par de l’inflammation et un flux augmenté de lipides vers les tissus périphériques, dont on sait qu’ils favorisent le développement de RI et une hypersécrétion d’apoB-lipoprotéines (apoB) par le foie menant à une élévation de l’apoB plasmatique. En parallèle, les études épidémiologiques montrent que l’apoB plasmatique prédit le développement du DT2 de 3 à 10 ans avant l’apparition de la maladie, indépendamment de facteurs de risque classiques. Dans cette thèse, nous avons formulé l’hypothèse que l’augmentation de la sécrétion d’apoB-lipoprotéines secondaire à un TAB dysfonctionnel contribue à aggraver cette même dysfonction. En ce sens, les apoB-lipoprotéines et le TAB seraient le centre d’un cercle vicieux menant au développement de facteurs de risque cardiométaboliques. Au courant de cette investigation, nous avons combiné des expériences in vitro, ainsi que des analyses post-hoc sur des données in vivo et ex vivo au sein d’une population d’hommes et de femmes post-ménopausées recrutés à l’Institut de recherches cliniques de Montréal pour deux études métaboliques entre 2006 et 2019. En circulation, 90% de apoB-lipoprotéines sont des LDL. Le nombre d’apoB-lipoprotéines en circulation se mesure par l’apoB plasmatique, qui est associé au développement du TAB dysfonctionnel chez l’humain via divers mécanismes. Parmi ceux-ci, l’enrichissement postprandial des lipoprotéines riches en triglycérides (TG) par l’apolipoprotéine C-I (apoC-I) sécrétées par le TAB a été suggéré comme un facteur contributoire. Dans un premier manuscrit, nous montrons que les sujets (N=39) avec un TAB dysfonctionnel sécrètent de plus grandes quantités d’apoC-I, ce qui est associé spécifiquement à une clairance postprandiale réduite des chylomicrons. Cette dysfonction semble due à une diminution de l’hydrolyse des TG secondaire à une inhibition de la lipase lipoprotéique (LPL) des adipocytes, ce qui constitue un nouveau mécanisme par lequel le TAB contribue à l’augmentation de l’apoB plasmatique. La proprotéine convertase subtilisin-kexin type 9 (PCSK9) est une enzyme circulante qui cible les récepteurs aux apoB-lipoprotéines comme le récepteur aux LDL (LDLR) et le CD36. Une PCSK9 circulante faible combinée à un haut apoB plasmatique, donc un ratio apoB-sur-PCSK9 élevé, est fortement associée au TAB dysfonctionnel et à la RI, suggérant qu’une augmentation de l’internalisation des apoB-lipoprotéines par voie de récepteurs joue un rôle dans ces pathologies. En parallèle, les apoB-lipoprotéines, principalement les LDL natifs et oxydés, activent l’inflammasome NLRP3 (Nucleotide-binding domain and Leucine-rich repeat Receptor, containing a Pyrin domain 3), le récepteur intracellulaire responsable de la sécrétion d’interleukine 1 bêta (IL-1), dont on sait qu’elle joue un rôle majeur dans le développement de l’inflammation liée au DT2. Dans un deuxième manuscrit, nous montrons que le ratio apoB-sur-PCSK9 plasmatique est un index, dans les états à jeun et postprandial, de l’expression des récepteurs aux apoB-lipoprotéines LDLR et CD36 en surface du TAB chez une population en surpoids ou obèse (N=31). Ce même ratio est aussi indicateur de la régulation à jeun et postprandial de l’expression de l’inflammasome NLRP3 et de l’infiltration de macrophages au sein du TAB. Finalement, les études épidémiologiques récentes suggèrent que le risque de DT2 est aussi augmenté chez les sujets avec un LDL cholestérol (LDL-C) faible causé par des variants génétiques perte-de-fonction dans le gène de la PCSK9 ou suite à une thérapie hypocholestérolémiante. Dans un troisième manuscrit, nous montrons que, chez les sujets avec LDL-C faible (<3.5mM, N=28), une PCSK9 plasmatique plus basse identifie les sujets avec une expression augmentée de LDLR et CD36 en surface de leur TAB. Malgré le LDL-C faible, les sujets avec une PCSK9 faible montraient une dysfonction du TAB et à un indice de disposition diminué et une sécrétion augmentée d’IL-1, suggérant une progression vers le DT2. Dans une exploration mécanistique, une exposition chronique des adipocytes humains SGBS aux LDL natifs induit une différenciation anormale, marquée par une diminution de leur fonction. Bien que ce phénomène soit indépendant de l’inflammasome NLRP3, qui n’est pas exprimé chez ces adipocytes, les LDL natifs induisent une augmentation du ratio de sécrétion d’IL-1 actif relativement à la pro-IL-1 inactive qui suggère une activation du système NLRP3 chez les macrophages humains THP-1. En conclusion, ces données suggèrent que le TAB dysfonctionnel contribue en partie via une sécrétion d’apoC-I à la clairance réduite des lipoprotéines et, donc, à l’hyperapoB et au risque cardiométabolique. En retour, une internalisation plus grande d’apoB-lipoprotéines par voie des récepteurs semble associée au développement d’un TAB dysfonctionnel et aux facteurs de risque cardiométaboliques associés. Au sein du TAB, au niveau cellulaire, ceci pourrait être dû à un effet concomitant des LDL natifs, qui induiraient une baisse de différenciation des préadipocytes menant à leur dysfonction ainsi qu’une activation de l’inflammasome NLRP3 chez les macrophages. / Prediabetes and type 2 diabetes (T2D) affect approximately 9 million Canadians, which represents close to 30% of the population. T2D is characterized by insulin resistance (IR) that cannot be compensated by increased insulin secretion. White adipose tissue (WAT) dysfunction is at the root of this pathology and is characterized by increased lipid flux to peripheral tissues causing IR and hypersecretion of apoB-lipoproteins (apoB) by the liver, contributing to increased plasma apoB. In line, epidemiological studies show that plasma apoB is an independent predictor of T2D development 3 to 10 years before onset. In this thesis, we formulated the hypothesis that increased secretion of apoB-lipoprotein secondary to WAT dysfunction promotes further development of this dysfunction in a feed-forward cycle that contributes to increased metabolic risk. To investigate this, we have combined in vitro experiments as well as post hoc analyses of in vivo and ex vivo data from a cohort of men and postmenopausal women recruited from two metabolic studies conducted at Institut de recherches cliniques de Montréal between 2006 and 2019. In circulation, more than 90% of apoB-lipoproteins are in the form of LDL. The number of apoB-lipoproteins (measured by plasma apoB), is associated to the development of WAT dysfunction in humans via different mechanisms. Postprandial enrichment of triglyceride-rich lipoproteins (TRL) by WAT-secreted apoC-I has been proposed as one of them. In a first manuscript, we show that subjects (N=39) with dysfunctional WAT secrete greater amount of apoC-I, which is associated specifically to delayed postprandial chylomicrons clearance in a mechanism that appears to be dependent on apoC-I-mediated inhibition of adipocyte lipoprotein lipase. This constitutes a new mechanism linking adipose tissue dysfunction to increased plasma apoB. Proprotein convertase subtilisin-kexin type 9 (PCSK9) is a circulatory enzyme that targets apoB-lipoprotein receptors, such as the LDLR and CD36, for degradation. Low circulating PCSK9 relative to high plasma apoB, expressed as a higher apoB-to-PCSK9 ratio, is strongly associated to WAT dysfunction and IR, suggesting that increased receptor-mediated uptake of apoB-lipoproteins plays an important role in these pathologies. In parallel, apoB-lipoproteins, mostly native and oxydized LDL, activate the NLRP3 inflammasome (Nucleotide-binding domain and Leucine-rich repeat Receptor, containing a Pyrin domain 3). The NLRP3 inflammasome is an intracellular receptor responsible for interleukin-1 beta (IL-1) secretion, which is known to be implicated in the pathogenesis of T2D. In a second manuscript, we demonstrate in overweight and obese subjects (N=31) that the apoB-to-PCSK9 is indeed an index of WAT surface-expression of LDLR and CD36 both at fasting and in the postprandial state. Similarly, the apoB-to-PCSK9 ratio is associated with chronic NLRP3 inflammasome priming at fasting and with postprandial macrophage infiltration and concomitant NLRP3 upregulation within WAT. Finally, recent epidemiological studies suggest an increased risk for T2D in subjects with low plasma LDL cholesterol (LDL-C) secondary to loss-of-function genetic variants in PCSK9, or secondary to cholesterol-lowering therapies. In a third manuscript, we show that in subjects with low LDL-C (<3.5mM, N=28), lower plasma PCSK9 identifies subjects with higher WAT LDLR and CD36 surface-expression. Despite having lower LDL-C, subjects with lower plasma PCSK9 show dysfunction WAT and decreased disposition index. Mechanistically, human SGBS adipocytes chronically exposed to native LDL show impaired differentiation and concomitant dysfunction. While this phenomenon cannot be described by NLRP3 inflammasome activation, since it is not expressed in these adipocytes, native human LDL increase the ratio of secreted active Il-1 relative to inactive pro-IL-1 suggesting activation of the NLRP3 inflammasome in human THP-1 macrophages. In conclusion, these observations suggest that dysfunctional WAT promotes delayed postprandial lipoprotein clearance via increased apoC-I secretion, thus promoting hyperapoB and increased cardiometabolic risk. In turn, upregulated receptor-mediated uptake of apoB-lipoproteins appears to be connected to the development of WAT dysfunction and associated cardiometabolic risk factors. At the cellular level within WAT, this could be secondary to a concomitant effect of LDL on preadipocytes inducing their reduced differentiation and function and on macrophage inducing activation of the NLRP3 inflammasome.

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