Global ETD Search

61	Impact de facteurs sanguins et d'agents thérapeutiques sur la survie de fibroblastes de sujets atteints de la forme canadienne-française du syndrome de Leigh (LSFC) Rivard, Marie-Eve 08 1900 (has links) La forme canadienne-française du syndrome de Leigh (LSFC) est une maladie métabolique associée à une déficience en cytochrome oxydase (COX) et caractérisée par des crises d’acidose lactique, menant à une mort prématurée. Les mécanismes qui sous-tendent l’induction des crises restent inconnus et il n’existe aucune thérapie efficace pour les prévenir. Cette étude vise à caractériser l'effet de facteurs métaboliques périphériques potentiellement altérés chez les patients LSFC sur la mort de lignées cellulaires issues de ces patients et de témoins puis, à identifier des agents thérapeutiques pouvant la prévenir. Nous postulons que (i) ces facteurs métaboliques induiront une mort prématurée des cellules de patients et que (ii) les interventions susceptibles de la prévenir pallieront les conséquences de la déficience en COX, soit la diminution des taux d’adénosine triphosphate (ATP) et l’augmentation du stress oxydant, du nicotinamide adénine dinucléotide (NADH) et des lipides toxiques. Un criblage de 8 facteurs sanguins et 10 agents thérapeutiques a été réalisé. Les paramètres mesurés incluent la nécrose, l’apoptose, l’ATP et l’activité de la COX. Les fibroblastes LSFC sont plus susceptibles à la mort par nécrose (39±6%) induite par du palmitate plus lactate, un effet associé à des niveaux d’ATP diminués (53±8%). La mort cellulaire est réduite de moitié par l’ajout combiné d’agents ciblant le NADH, l’ATP et les lipides toxiques, alors que l’ajout d’antioxydants l’augmente. Ainsi, un excès de nutriments pourrait induire la mort prématurée des cellules LSFC et, pour atténuer cette mort, il serait important de combiner plusieurs interventions ciblant différents mécanismes. / Leigh syndrome French-Canadian variant (LSFC) is a metabolic disease associated with cytochrome c oxidase (COX) deficiency and characterized by episodes of lactic acidosis, referred to as “crisis”, leading to death at an early age. The mechanisms underlying a crisis and its cellular consequences remain elusive, and there is no effective therapy. The aim of this study was to characterize the effect of peripheral metabolic factors that are potentially altered in patients with LSFC on their cells death and to identify therapeutic agents able to prevent them using cell-lineage from LSFC patients and controls. The hypothesis are that (i) these metabolic factors can induce premature death in patient cells, and (ii) interventions that could rescue these cells may target potential consequences of COX deficiency, namely low adenosine triphosphate (ATP), high nicotinamide adenine dinucleotide (NADH) and toxic lipids, as well as oxidative stress. A screening of 8 blood factors and 10 therapeutic agents was conducted in fibroblasts. Parameter measured included cell death by necrosis and apoptosis, as well as ATP level and COX activity. LSFC fibroblasts were more susceptible to necrosis (39±6%) induced by high palmitate plus lactate and this was associated with a lower ATP (53±8%). Cell death decreased 2-fold with combined interventions, which presumably act on NADH, ATP, and the accumulation of toxic lipids, but increased with antioxidants. Collectively, our results emphasize the importance of nutrient overload as a factor eliciting premature cell death in LSFC cells and of combining interventions acting through various mechanisms for cell death rescue. LSFC LSFC Acidose lactique Lactic acidosis Mitochondrie Mitochondria Cytochrome c oxydase Cytochrome c oxidase Fibroblaste Fibroblast Palmitate Palmitate Lactate Lactate Bleu de méthylène Methylene blue Carnitine Carnitine
62	Impact de facteurs sanguins et d'agents thérapeutiques sur la survie de fibroblastes de sujets atteints de la forme canadienne-française du syndrome de Leigh (LSFC) Rivard, Marie-Eve 08 1900 (has links) La forme canadienne-française du syndrome de Leigh (LSFC) est une maladie métabolique associée à une déficience en cytochrome oxydase (COX) et caractérisée par des crises d’acidose lactique, menant à une mort prématurée. Les mécanismes qui sous-tendent l’induction des crises restent inconnus et il n’existe aucune thérapie efficace pour les prévenir. Cette étude vise à caractériser l'effet de facteurs métaboliques périphériques potentiellement altérés chez les patients LSFC sur la mort de lignées cellulaires issues de ces patients et de témoins puis, à identifier des agents thérapeutiques pouvant la prévenir. Nous postulons que (i) ces facteurs métaboliques induiront une mort prématurée des cellules de patients et que (ii) les interventions susceptibles de la prévenir pallieront les conséquences de la déficience en COX, soit la diminution des taux d’adénosine triphosphate (ATP) et l’augmentation du stress oxydant, du nicotinamide adénine dinucléotide (NADH) et des lipides toxiques. Un criblage de 8 facteurs sanguins et 10 agents thérapeutiques a été réalisé. Les paramètres mesurés incluent la nécrose, l’apoptose, l’ATP et l’activité de la COX. Les fibroblastes LSFC sont plus susceptibles à la mort par nécrose (39±6%) induite par du palmitate plus lactate, un effet associé à des niveaux d’ATP diminués (53±8%). La mort cellulaire est réduite de moitié par l’ajout combiné d’agents ciblant le NADH, l’ATP et les lipides toxiques, alors que l’ajout d’antioxydants l’augmente. Ainsi, un excès de nutriments pourrait induire la mort prématurée des cellules LSFC et, pour atténuer cette mort, il serait important de combiner plusieurs interventions ciblant différents mécanismes. / Leigh syndrome French-Canadian variant (LSFC) is a metabolic disease associated with cytochrome c oxidase (COX) deficiency and characterized by episodes of lactic acidosis, referred to as “crisis”, leading to death at an early age. The mechanisms underlying a crisis and its cellular consequences remain elusive, and there is no effective therapy. The aim of this study was to characterize the effect of peripheral metabolic factors that are potentially altered in patients with LSFC on their cells death and to identify therapeutic agents able to prevent them using cell-lineage from LSFC patients and controls. The hypothesis are that (i) these metabolic factors can induce premature death in patient cells, and (ii) interventions that could rescue these cells may target potential consequences of COX deficiency, namely low adenosine triphosphate (ATP), high nicotinamide adenine dinucleotide (NADH) and toxic lipids, as well as oxidative stress. A screening of 8 blood factors and 10 therapeutic agents was conducted in fibroblasts. Parameter measured included cell death by necrosis and apoptosis, as well as ATP level and COX activity. LSFC fibroblasts were more susceptible to necrosis (39±6%) induced by high palmitate plus lactate and this was associated with a lower ATP (53±8%). Cell death decreased 2-fold with combined interventions, which presumably act on NADH, ATP, and the accumulation of toxic lipids, but increased with antioxidants. Collectively, our results emphasize the importance of nutrient overload as a factor eliciting premature cell death in LSFC cells and of combining interventions acting through various mechanisms for cell death rescue. LSFC LSFC Acidose lactique Lactic acidosis Mitochondrie Mitochondria Cytochrome c oxydase Cytochrome c oxidase Fibroblaste Fibroblast Palmitate Palmitate Lactate Lactate Bleu de méthylène Methylene blue Carnitine Carnitine
63	Étude de l'oxydation en phase gazeuse de composants des gazoles et des biocarburants diesel / Study of the oxidation of components of diesel and biodiesel fuels in gaseous phase Hakka, Mohammed Hichem 27 January 2010 (has links) En raison de la complexité de leur composition, l’étude de l’oxydation des gazoles et des carburants biodiesel nécessite de choisir des molécules modèles représentant ces mélanges. Dans ce contexte nous avons sélectionné deux molécules pouvant représenter les gazoles : le n-décane, souvent considéré comme molécule modèle des paraffines contenues dans les gazoles, et le n-hexadécane, molécule de référence pour l’estimation de l’indice cétane, ainsi que deux molécules représentant les carburants biodiesel : le palmitate de méthyle (C17H34O2, ester méthylique saturé) et l’oléate de méthyle (C19H36O2, ester méthylique insaturé). L’étude de l’oxydation de ces molécules a été menée en réacteur auto-agité par jets gazeux, à une richesse de 1, des températures comprises entre 550 et 1100 K, à pression atmosphérique et à un temps de passage constant de 1,5 s. La formation d’un nombre important d’espèces a été observée parmi lesquelles figurent des oléfines, des diènes, des esters méthyliques insaturés, des éthers cycliques avec différentes tailles de cycle, des cétones et des aldéhydes. Grâce à deux nouvelles versions du logiciel EXGAS, des mécanismes cinétiques détaillés de l’oxydation des molécules étudiées ont été générés et validés par comparaison avec les résultats expérimentaux. Enfin, une comparaison de la réactivité du n-décane, du n-hexadécane, du palmitate de méthyle et de l’oléate de méthyle et des quantités de produits formées (dont certains polluants) a été effectuée / Because of the complexity of their compositions, the study of the oxidation of diesel and biodiesel fuels requires choosing model molecules (surrogates) representing the real mixtures. In this context, we have selected two molecules to represent the diesel fuel: n-decane, usually considered as model molecule of paraffin contained in diesel fuel, and n-hexadecane, molecule of reference for the estimation of the cetane number, and two molecules representing biodiesel fuel: methyl palmitate (C17H34O2, a saturated methyl ester) and methyl oleate (C19H36O2, an unsaturated methyl ester). The study of oxidation of these molecules has been conducted in a jet-stirred reactor, with an equivalence ratio of 1, temperatures between 550 and 1100 K, at atmospheric pressure and for a constant residence time of 1.5 sec. The formation of a large number of species has been observed which includes olefins, dienes, unsaturated methyl esters, cyclic ethers with different size of ring, ketones and aldehydes. Using two new versions of EXGAS software, detailed kinetic mechanisms for the oxidation of the studied molecules were generated and validated by comparaison with experiemental results. Finally, a comparison of the reactivity of n-decane, n-hexadecane, methyl palmitate and methyl oleate and amounts of formed products (including some pollutants) has been performed Oxydation Polluants Oléate de méthyle Palmitate de méthyle Butanoate de méthyle N-hexadécane N-décane Tube à onde de choc Réacteur auto-agité par jets gazeux Biocarburants Diesel Cinétique chimique Oxidation Methyl palmitate Methyl oleate Methyl butanoate Chemical kinetics Biofuels Diesel fuel Jet-stirred reactor Shock tube N-decane N-hexadecane Pollutants
64	Childhood Obesity and Islet Function Staaf, Johan January 2017 (has links) The prevalence of childhood obesity and Type 2 Diabetes Mellitus (T2DM) has increased during recent decades. T2DM is accompanied with functional changes in the islets of Langerhans, which can be identified early in the pathogenesis. The aim of this thesis was to explore how metabolic changes caused by obesity early in life relate to islet function prior to overt T2DM. To address this, Uppsala Longitudinal Study of Childhood Obesity (ULSCO) was established (paper I). Initially, the association between palmitate and insulin secretion was investigated using a translational approach with obese and lean normoglycemic juveniles and isolated human islets (paper II). Secondly, dynamics of islet-hormones insulin and glucagon, and gut-hormones glucagon like-peptide 1 (GLP-1) and glicentin (paper III) and magnetic resonance imaging of pancreatic fat fraction (PFF) (paper IV) were studied in association to glucose tolerance and beta-cell function. Finally, a novel method of analysing shape features of oral glucose tolerance test (OGTT) curves was introduced and evaluated (paper V). Obese subjects had high prevalence of prediabetes and metabolic syndrome (MetS) (paper I). In obese pre-pubertal children with elevated palmitate levels, hyperinsulinemia was observed (paper II). In contrast, obese pubertal adolescents with similar palmitate levels showed moderate insulin levels during OGTT with delayed first phase insulin response. To explore mechanisms for these variations, isolated human islets were exposed to palmitate for different time periods in vitro. After 2 days accentuated insulin response was observed. Impaired beta-cell function and apoptosis were evident after 7 days, however. Hyperglucagonemia and disturbed GLP-1 and glicentin levels were associated with obesity and glycaemic status, with fasting glicentin being predictive of prediabetes (paper III). Furthermore, PFF was increased in obese subjects and associated to MetS and visceral adipose tissue, but not to beta-cell function (paper IV). OGTT curves were converted into geometric centres, centroids, which correlated with differences in glucose tolerance (paper V). In conclusion, the islet function in obese children was associated with elevated levels of palmitate, but not pancreatic fat. Fasting palmitate and glicentin levels, as well as centroid analyses of OGTT curves, could potentially identify obese children at risk of prediabetes and subsequent T2DM. type 2 diabetes mellitus palmitate glucose-stimulated insulin secretion hyperinsulinemia hyperglucagonemia GLP-1 glicentin magnetic resonance imaging metabolic syndrome oral glucose tolerance test centroid
65	Diabetes and Endoplasmic Reticulum Stress in Pancreatic beta-cells: Effects on Insulin Biosynthesis and beta-cell Apoptosis Lai, Elida Wing Shan 30 July 2008 (has links) Chronic hyperlipidemia (lipotoxicity) and hyperglycemia (glucotoxicity) have recently been shown to induce Endoplasmic Reticulum (ER) stress, which may contribute to pancreatic beta-cell dysfunction in type 2 diabetes. This thesis examined the involvement of ER stress in beta-cell lipotoxicity and glucotoxicity. Although chronic treatment with saturated free fatty acids (FFA) in vitro induced ER stress, altering ER stress by increasing or knocking-down GRP78 chaperone expression had no effect on apoptosis induction. Conversely, overexpression of ER chaperones rescued the reduction in proinsulin protein levels caused by chronic exposure to high glucose, although it had no effect on the decreased insulin mRNA levels and proinsulin translation rate. Thus, ER stress is likely not the main mechanism involved in saturated FFA-induced beta-cell apoptosis in vitro, but it may contribute to glucotoxic effects on proinsulin levels. These findings have increased our understanding of the link between ER stress and beta-cell dysfunction in type 2 diabetes. pancreatic beta-cells type 2 diabetes ER stress apoptosis pancreatic beta-cell dysfunction free fatty acids lipotoxicity palmitate high glucose hyperglycemia glucotoxicity insulin biosynthesis unfolded protein response chaperone GRP78 PDI INS-1 MIN6 human islets stable cell line 0379
66	Diabetes and Endoplasmic Reticulum Stress in Pancreatic beta-cells: Effects on Insulin Biosynthesis and beta-cell Apoptosis Lai, Elida Wing Shan 30 July 2008 (has links) Chronic hyperlipidemia (lipotoxicity) and hyperglycemia (glucotoxicity) have recently been shown to induce Endoplasmic Reticulum (ER) stress, which may contribute to pancreatic beta-cell dysfunction in type 2 diabetes. This thesis examined the involvement of ER stress in beta-cell lipotoxicity and glucotoxicity. Although chronic treatment with saturated free fatty acids (FFA) in vitro induced ER stress, altering ER stress by increasing or knocking-down GRP78 chaperone expression had no effect on apoptosis induction. Conversely, overexpression of ER chaperones rescued the reduction in proinsulin protein levels caused by chronic exposure to high glucose, although it had no effect on the decreased insulin mRNA levels and proinsulin translation rate. Thus, ER stress is likely not the main mechanism involved in saturated FFA-induced beta-cell apoptosis in vitro, but it may contribute to glucotoxic effects on proinsulin levels. These findings have increased our understanding of the link between ER stress and beta-cell dysfunction in type 2 diabetes. pancreatic beta-cells type 2 diabetes ER stress apoptosis pancreatic beta-cell dysfunction free fatty acids lipotoxicity palmitate high glucose hyperglycemia glucotoxicity insulin biosynthesis unfolded protein response chaperone GRP78 PDI INS-1 MIN6 human islets stable cell line 0379
67	Der Leptinrezeptor im Modell primärer humaner Hepatozyten Lorz, Axel 11 August 2014 (has links) (PDF) Diese Arbeit beinhaltet Untersuchungen zu den unterschiedlichen Isoformen des Leptinrezeptors und dessen Regulation in primären humanen Hepatozyten. Leptin und der Leptinrezeptor nehmen in der Physiologie des menschlichen Energiehaushaltes eine wesentliche Funktion ein und sind an der Pathogenese der Adipositas mit Folgeerkrankungen wie der Entwicklung einer Fettleber beteiligt. Es wird erstmalig geprüft inwieweit das Modellsystem primärer humaner Hepatozyten für Analysen der Leptinrezeptor-Expression und der Abspaltung von löslichem Leptinrezeptor geeignet ist. Weiterhin werden untersucht, welchen Einfluss endokrine Regulatoren wie Dexamethason, Leptin und Glucagon auf die isoformspezifischen Rezeptormengen in primären Hepatozyten haben und wie der Rezeptor unter Apoptose reguliert ist, welche durch die lipotoxischen Effekte der freien Fettsäure Palmitat und den Apoptoseinduktor Staurosporin induziert wird. Hierdurch können Rückschlüsse auf eine möglicherweise veränderte Wirksamkeit des Leptins in der Leber gezogen werden. Leptin Leptinrezeptor LEPR OB-R sOB-R primäre humane Hepatozyten Leber Glucagon Palmitat Staurosporin Adipositas Fettleber Steatosis hepatis leptin leptin receptor LEPR OB-R sOB-R primary human hepatocytes liver glucagon palmitate staurosporine obesity fatty liver steatosis hepatis ddc:610
68	Der Leptinrezeptor im Modell primärer humaner Hepatozyten Lorz, Axel 16 July 2014 (has links) Diese Arbeit beinhaltet Untersuchungen zu den unterschiedlichen Isoformen des Leptinrezeptors und dessen Regulation in primären humanen Hepatozyten. Leptin und der Leptinrezeptor nehmen in der Physiologie des menschlichen Energiehaushaltes eine wesentliche Funktion ein und sind an der Pathogenese der Adipositas mit Folgeerkrankungen wie der Entwicklung einer Fettleber beteiligt. Es wird erstmalig geprüft inwieweit das Modellsystem primärer humaner Hepatozyten für Analysen der Leptinrezeptor-Expression und der Abspaltung von löslichem Leptinrezeptor geeignet ist. Weiterhin werden untersucht, welchen Einfluss endokrine Regulatoren wie Dexamethason, Leptin und Glucagon auf die isoformspezifischen Rezeptormengen in primären Hepatozyten haben und wie der Rezeptor unter Apoptose reguliert ist, welche durch die lipotoxischen Effekte der freien Fettsäure Palmitat und den Apoptoseinduktor Staurosporin induziert wird. Hierdurch können Rückschlüsse auf eine möglicherweise veränderte Wirksamkeit des Leptins in der Leber gezogen werden. info:eu-repo/classification/ddc/610 ddc:610
69	Novel Roles of p21 in Apoptosis During Beta-Cell Stress in Diabetes Hernández-Carretero, Angelina M. January 2014 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Type 2 diabetes manifests from peripheral insulin resistance and a loss of functional beta cell mass due to decreased beta cell function, survival, and/or proliferation. Beta cell stressors impair each of these factors by activating stress response mechanisms, including endoplasmic reticulum (ER) stress. The glucolipotoxic environment of the diabetic milieu also activates a stress response in beta cells, resulting in death and decreased survival. Whereas the cell cycle machinery (comprised of cyclins, kinases, and inhibitors) regulates proliferation, its involvement during beta cell stress in the development of diabetes is not well understood. Interestingly, in a screen of multiple cell cycle inhibitors, p21 was dramatically upregulated in INS-1-derived 832/13 cells and rodent islets by two independent pharmacologic inducers of beta cell stress - dexamethasone and thapsigargin. In addition, glucolipotoxic stress mimicking the diabetic milieu also induced p21. To further investigate p21’s role in the beta cell, p21 was adenovirally overexpressed in 832/13 cells and rat islets. As expected given p21’s role as a cell cycle inhibitor, p21 overexpression decreased [3H]-thymidine incorporation and blocked the G1/S and G2/M transitions as quantified by flow cytometry. Interestingly, p21 overexpression activated apoptosis, demonstrated by increased annexin- and propidium iodide-double-positive cells and cleaved caspase-3 protein. p21-mediated caspase-3 cleavage was inhibited by either overexpression of the anti-apoptotic mitochondrial protein Bcl-2 or siRNA-mediated suppression of the pro-apoptotic proteins Bax and Bak. Therefore, the intrinsic apoptotic pathway is central for p21-mediated cell death. Like glucolipotoxicity, p21 overexpression inhibited the insulin cell survival signaling pathway while also impairing glucose-stimulated insulin secretion, an index of beta cell function. Under both conditions, phosphorylation of insulin receptor substrate-1, Akt, and Forkhead box protein-O1 was reduced. p21 overexpression increased Bim and c-Jun N-terminal Kinase, however, siRNA-mediated reduction or inhibition of either protein, respectively, did not alter p21-mediated cell death. Importantly, islets of p21-knockout mice treated with the ER stress inducer thapsigargin displayed a blunted apoptotic response. In summary, our findings indicate that p21 decreases proliferation, activates apoptosis, and impairs beta cell function, thus being a potential target to inhibit for the protection of functional beta cell mass. Diabetes obesity islet cell survival cell death apoptosis cell cycle palmitate ER stress glucolipotoxicity beta cell thapsigargin dexamethasone Diabetes -- Research Obesity -- Research Obesity -- Animal models Apoptosis Cell death -- Research Endoplasmic reticulum -- Pathophysiology Pancreatic beta cells -- Research Islands of Langerhans -- Research Cell physiology -- Research Stress (Physiology) -- Research Adrenocortical hormones Sarcoplasmic reticulum Transgenic mice -- Research
70	Neonatal Cardiac Fatty Acid Metabolism Lam, Victoria Hol Mun Unknown Date No description available. 1 Introduction 6 General discussion

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