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141	Caractérisation d’un nouveau modèle murin de glycogénose de type 1a : du métabolisme glucidique à la thérapie génique / Characterization of a new mouse model of glycogen storage disease type 1a : from glucose homeostasis to gene therapy Mutel, Élodie 18 January 2011 (has links) La glycogénose de type 1a (GSD1a) est une maladie métabolique rare liée à une absence d’activité glucose‐6 phosphatase (G6Pase). La G6Pase est une enzyme clé de la production endogène de glucose (PEG) catalysant l’hydrolyse du G6P en glucose avant sa libération dans le sang. Cette fonction est restreinte au foie, aux reins et à l’intestin. La GSD1a est caractérisée par des hypoglycémies chroniques, une hépatomégalie associée à une stéatose hépatique et une néphromégalie. A plus longterme, la plupart des patients développent des adénomes. Un modèle murin de GSD 1a existe mais les souris ne survivent pas après le sevrage. Nous avons donc généré un modèle original de GSD1a, en invalidant le gène de la sous‐unité catalytique de la G6Pase spécifiquement dans le foie, grâce à une stratégie CRE‐LOX inductible (souris L‐G6pc‐/‐). Dans ce travail, nous avons montré que les souris L‐G6pc‐/‐ sont viables et reproduisent parfaitement la pathologie hépatique de la GSD1a, y compris le développement d’adénomes hépatiques après 9 mois d’invalidation. La viabilité des souris nous a permis de débuter des traitements par thérapie génique ciblant le foie à l’aide de vecteurs lentiviraux et AAV. La survie de ces souris, qui ne peuvent pas produire du glucose par le foie, repose la question du rôle relatif de la production hépatique de glucose dans la régulation de la glycémie Nous avons montré que les souris L‐G6pc‐/‐ sont capables de réguler leur glycémie, même au cours d’un jeûne prolongé. Ce maintien de l’homéostasie glucidique est due à une induction rapide de la néoglucogenèse rénale et intestinale, principalement par un mécanisme dépendant du glucagon / Glycogen storage disease type 1a (GSD1a) is a rare metabolic disorder due to an absence of glucose‐6 phosphatase (G6Pase) activity. G6Pase is the key enzyme of endogenous glucose production (EGP) and catalyzes the last step before the glucose release into the bloodstream. This function to produce glucose is restricted to the liver, the kidneys and the intestine. GSD1a is characterized by chronic hypoglycemia, hepatomegaly associated with hepatic steatosis and nephromegaly. The longterm complications of G6Pase deficiency include hepatocellular adenomas. The available animal model of GSD1a rarely survive over three months of age and the study of mechanisms of hepatocellular adenomas development cannot be investigated. So, we generated an original mouse model of GSD1a with a liver‐specific invalidation of catalytic subunit of G6Pase gene by an inducible CRE‐LOX strategy (L‐G6pc‐/‐ mice). In this work, we demonstrated that L‐G6pc‐/‐ were viable and totally reproduced the liver pathology of GSD1a, including the late development of hepatocellular adenomas. Then, we have begun liver gene therapy treatment using lentiviral and AAV vectors to correct the hepatic pathology. Finally, concerning glucose homeostasis, we have demonstrated that L‐G6pc‐/‐ were able to regulate blood glucose, during prolonged fast, even in the absence of hepatic glucose production. Rapidly, L‐G6pc‐/‐ mice were able to induce renal and intestinal gluconeogenesis thanks to a key role of glucagon and the development of a metabolic acidosis. These results provide evidence that the major role of the liver for EGP during fasting requires re‐examination Glycogénose Glucose‐6 phosphatase Production endogène de glucose Thérapie génique Glucagon Acidose métabolique Stéatose Adénomes hépatiques Glycogen storage disease Glucose‐6 phosphatase Endogenous glucose production Liver gene therapy Glucagon Metabolic acidosis Steatosis Hepatocellular adenomas 572.4
142	Interventions thérapeutiques prometteuses dans un modèle in vivo de stéatohépatite non alcoolique Haddad, Yara 04 1900 (has links) La stéatohépatite non alcoolique (NASH) est une pathologie du foie dont l’amplitude et les répercussions sont de plus en plus préoccupantes dans le monde médical ou biomédical. Elle est associée à l’obésité, au syndrome métabolique et au diabète sucré de type II. La recherche de la thérapie optimale pour le NASH est un domaine en plein essor puisqu’aucun traitement n’est suffisamment efficace à ce jour. La présente étude fait le point sur de nouvelles possibilités de traitements qui se sont avérés efficaces pour contrer les différentes lésions métaboliques et cellulaires rencontrées dans un modèle in vivo chez le rat où le NASH est induit par l’ingestion d’une diète riche en gras. Cette étude démontre, tout d’abord, que les traitements durant six semaines avec l’acide ursodéoxycholique (UDCA) et son dérivé le NCX 1000, possédant des propriétés donatrices de monoxyde d’azote, à doses équimolaires, protègent de manière équivalente le foie contre le stress oxydatif, l’hyperinsulinémie, l’inflammation et la fibrose causés par la stéatohépatite. De plus, la combinaison d’une plus faible dose de NCX 1000 avec un antioxydant lipophile tel que la vitamine E offre une protection similaire, particulièrement au niveau des paramètres du stress oxydatif. Par ailleurs, l’étude illustre aussi que la silibinine, composé polyphénolique actif du chardon marie (Silybum marianum) et utilisé en traitement pendant 5 semaines, possède un pouvoir hépatoprotecteur, des propriétés antioxydantes et un effet hypoinsulinémique dans ce modèle de stéatohépatite d’origine nutritionnelle. Le potentiel thérapeutique de ces composés en fait des candidats de choix pour le traitement du NASH qui méritent de faire l’objet d’études cliniques poussées. / Nonalcoholic steatohepatitis (NASH) is a serious liver condition related to the metabolic syndrome, obesity, and type II diabetes mellitus whose prevalence is drastically rising in developed countries and worldwide. Several remedies were investigated for the treatment of NASH but an efficient therapy has yet to be developed. In the present study, we explored novel therapeutic possibilities that were thought to be effective for the treatment of experimental high-fat diet-induced NASH the in rat. Our results show that a chronic six week treatment with a high dose of NCX 1000, a derivative of ursodeoxycholic acid (UDCA) with nitric oxide (NO) donating properties, is efficient at reversing steatosis, oxidative stress, inflammation, insulin resistance and fibrosis; major hallmarks of experimental NASH. We also demonstrated that the mother molecule, UDCA, is as efficacious in controlling the same parameters at equimolar doses. Moreover, our study demonstrates that NCX 1000 at lower doses can exert similar potent properties when combined with lipophilic antioxidants like vitamin E. On the other hand, we found that a 5-week treatment with silibinin, the major active component of milk thistle extract, improved liver steatosis and inflammation and decreased NASH-induced oxidative stress, insulin resistance, and fibrosis. These compounds have therefore the potential for being developed for the treatment of NASH. Clinical evidences are needed. NASH Oxidative stress Steatosis High-fat diet insulin resistance NCX 1000 UDCA Vitamin E Silibinin Milk thistle Stress oxydatif Stéatose Diète riche en gras Silibinine Chardon Marie Silybum marianum Résistance à l'insuline Vitamine E
143	Utilisation de la spectroscopie par résonance maghétique pour la détection et la gradation de la stéatose hépatique Ruel, Martin January 2008 (has links) Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal Stéatose Steatosis Foie Liver Spectroscopie par résonance magnétique Magnetic resonance spectroscopy Imagerie par résonance magnétique Magnetic resonance imaging Imagerie double-écho Dual-echo imaging Imagerie pondérée par diffusion Diffusion-wieghted imaging
144	Le rôle de la dysrégulation du métabolisme du cholestérol par le retrait des estrogènes sur la stéatose hépatique Côté, Isabelle 12 1900 (has links) Les estrogènes confèrent aux femmes une protection cardiovasculaire jusqu’à la ménopause. En effet, la perte des fonctions ovariennes engendre plusieurs désordres du profil lipidique qui s’accompagnent d’une accumulation de triglycérides au foie appelée stéatose hépatique. Le retrait des estrogènes perturbe de nombreuses voies de contrôle de la cholestérolémie, provoquant simultanément une hypercholestérolémie et une stéatose hépatiques. Toutefois, à ce jour, les mécanismes d’action du retrait des estrogènes sur le métabolisme du cholestérol favorisant le stockage de triglycérides au foie demeurent imprécis. À cet égard, les travaux de cette thèse visaient à clarifier l’ensemble des effets du retrait des estrogènes sur le métabolisme du cholestérol pouvant mener à la pathogenèse de la stéatose hépatique. Lors de la première étude, l’ovariectomie (Ovx) chez la rate, un modèle bien établi de la stéatose, avait permis d’identifier la voie d’assemblage des lipoprotéines à très faible densité (VLDL) comme élément contributif à la stéatose. La voie des VLDL reliant étant également une voie de transport du cholestérol, l’étude suivante a été réalisée afin de comprendre le rôle du cholestérol alimentaire sur les lipides hépatiques. Dans cette deuxième étude, le modèle de la diète riche en lipides et en cholestérol (HFHC), aussi reconnu pour induire une stéatose hépatique, a permis d’établir des liens étroits entre le métabolisme du cholestérol et celui des lipides hépatiques. Étonnamment, de manière similaire à l’Ovx, la diète HFHC perturbait la voie d’assemblage des VLDL. En outre, les données recueillies au cours de ces travaux indiquaient qu’une dysrégulation du métabolisme des acides biliaires avait contribué à la sévérité de la stéatose hépatique induite par cette diète HFHC. Dans la continuité de ces deux premiers projets, nous nous sommes intéressés aux effets concomitants du retrait des estrogènes et d’une diète HFHC sur la stéatose hépatique. De manière intéressante, lorsque combinés, l’Ovx et la diète HFHC potentialisaient non seulement l’accumulation de lipides hépatiques, mais également les perturbations moléculaires des voies sous-jacentes à la stéatose, dont l’assemblage des VLDL et de la sécrétion d’acides biliaires. Dans l’ensemble, les données présentées dans la revue de littérature et dans les trois études reliées à cette thèse indiquent qu’une dysrégulation du métabolisme du cholestérol en réponse au retrait des estrogènes entraîne des complications favorisant l’accumulation de lipides dans le foie. / Estrogens confer to women a cardiovascular protection until menopause. Indeed, the loss of ovarian functions leads to several lipid disorders along with hepatic triglycerides accumulation called hepatic steatosis. Estrogen withdrawal disrupts several cholesterol metabolism pathways that results in both hypercholesterolemia and hepatic steatosis. However, to date, the precise mechanisms by which estrogen withdrawal affect cholesterol metabolism pathways that favour lipid storage in the liver are unclear. In this regard, works in the present thesis aimed at elucidate the effects of estrogen withdrawal on cholesterol metabolism involved in hepatic steatosis pathogenesis. In the first study, estrogen withdrawal by ovariectomy (Ovx), a well established model for hepatic steatosis and hypercholesterolemia, had enabled the identification of very low density lipoprotein (VLDL) pathway as a contributory element for hepatic steatosis. Since the VLDL pathway relates lipids and cholesterol metabolism, we conducted the second study to explore the role of dietary cholesterol on hepatic lipids. In the second study, the high fat/high cholesterol (HFHC) diet, also recognized as a model for hepatic steatosis development, was used to explore links between cholesterol metabolism and hepatic fat accumulation. Surprisingly, HFHC diet also disrupted the VLDL pathway. Additionally, data provided in this study indicated that a dysregulation of bile acids metabolism might have contributed to the severity of hepatic steatosis induced by the HFHC diet. As a continuation of these projects, we were interested in the concomitant effects of estrogen withdrawal and HFHC diet on hepatic lipid accretion. Interestingly, when combined, Ovx and HFHC diet not only potentiated hepatic lipid accumulation but also molecular disruptions involved in underlying pathways for hepatic steatosis including the VLDL pathway and bile acid secretion. Overall, data presented in the review of litterature and provided by the three studies related to the present thesis indicate that cholesterol metabolism dysregulation following estrogen withdrawal result in complications that favour hepatic lipid accumulation. estrogènes cholestérol alimentaire stéatose hépatique cholestérol hépatique acides biliaires farneoid X receptor rat estrogens dietary cholesterol very low density lipoprotein (VLDL) hepatic steatosis hepatic cholesterol bile acids ovariectomy (Ovx)
145	Carence en œstrogènes et bases moléculaires du métabolisme des triglycérides et du cholestérol dans le foie et l'intestin : effet de l'exercice physique Ngo Sock, Emilienne Tudor 12 1900 (has links) La stéatose hépatique et la détérioration du profil lipidique plasmatique sont des pathologies métaboliques favorisées par la carence œstrogénique post-ménopausique. Cependant les mécanismes à la base de ces pathologies n’ont été que très peu étudiés. Le but de cette thèse a été d’investiguer les mécanismes moléculaires possibles à l’origine de l’hypercholestérolémie et de l’accumulation des lipides (triglycérides : TG et cholestérol) dans le foie en utilisant un modèle animal de la ménopause, la rate Sprague Dawley ovariectomisée (Ovx). Nous avons également examiné si le changement des habitudes de vie comme la pratique de l’exercice physique pouvait prévenir ou corriger les modifications induites par l’Ovx. Enfin, rosuvastatine (statine) a été utilisée comme thérapie pharmacologique de l’hypercholestérolémie dans le but de comprendre son effet au niveau moléculaire chez la rate Ovx. L’objectif de la première étude était de déterminer comment l’Ovx peut affecter les niveaux de TG et de cholestérol dans le foie des rates nourries avec une diète riche en lipides (HF : 42% gras). Les rates ont été soumises à la diète HF ou normale pendant 6 semaines avant d’être Ovx ou Sham (ovariectomie simulée), puis maintenues aux mêmes conditions diététiques pour 6 autres semaines. L’Ovx a provoqué une accumulation de TG dans le foie, mais pas la diète HF seule. Cependant, lorsque l’Ovx était combinée à la diète HF, l’accumulation des TG était beaucoup plus importante comparé à ce qui était observé chez les rates Ovx soumises à la diète normale. L’expression génique (ARNm) de CPT1 (Carnitine palmitoyltransferase 1), PGC1α (Peroxisome proliferator-activated receptor gamma, coactivator 1) et PPARα (Peroxysome proliferetor activated receptor alpha) intervenant dans l’oxydation des acides gras dans le foie était augmentée par la diète HF (p ˂ 0.001; p ˂ 0.01; p ˂ 0.05 respectivement) ; mais atténuée (p ˂ 0.05; p ˂ 0.05; p ˂ 0.07 respectivement) lorsque les rates ont été Ovx, favorisant ainsi l’accumulation des TG dans le foie. La combinaison de la diète HF à l’Ovx a également provoqué une hypercholestérolémie et une accumulation de cholestérol dans le foie malgré la diminution de l’expression de la HMGCoA-r (3-hydroxy-3-methylglutaryl-CoA reductase), enzyme clé de la synthèse du cholestérol. Ceci était associé à l’inhibition de l’expression génique de CYP7a1 (Cytochrome P450, family 7, subfamily a, polypeptide 1), suggérant une diminution de la synthèse des acides biliaires. Ayant constaté dans la première étude que l’Ovx élevait les niveaux de cholestérol hépatique et plasmatique, nous nous sommes fixés comme objectif dans la deuxième étude d’évaluer les effets de l’Ovx sur l’expression génique des transporteurs et enzymes responsables du métabolisme du cholestérol et des acides biliaires dans le foie et l’intestin, et de vérifier si l’exercice sur tapis roulant pouvait prévenir ou corriger les changements causés par l’Ovx. L’hypercholestérolémie constatée chez les rates Ovx comparativement aux Sham était accompagnée de la diminution de l’expression génique des récepteurs des LDL (R-LDL), des résidus de lipoprotéines (LRP1), de SREBP-2 (Sterol regulatory element binding protein 2) et de PCSK9 (Proprotein convertase subtilisin/kexin type 9) dans le foie, suggérant une défaillance dans la clairance des lipoprotéines plasmatiques. L’Ovx a aussi inhibé l’expression génique de la MTP (Microsomal triglyceride transfer protein) et stimulé celle de SR-B1 (Scavenger receptor class B, member 1); mais aucun changement n’a été observé avec CYP7a1. Ces changements moléculaires pourraient par conséquent favoriser l’accumulation de cholestérol dans le foie. L’exercice physique n’a pas corrigé les modifications causées par l’Ovx sur l’expression génique de ces molécules au niveau hépatique à l’exception de SREBP-2. Par contre, au niveau intestinal (iléum), l’exercice sur tapis roulant a inhibé l’expression génique des marqueurs moléculaires intervenant dans l’absorption des acides biliaires (OSTα/β, FXR, RXRα, Fgf15) et du cholestérol (LXRα, NCP1L1) au niveau de l’iléum chez les rates Sham entraînées. Ces adaptations pourraient prévenir le développement de l’hypercholestérolémie protégeant en partie contre la survenue de l’athérosclérose. Au vue des effets délétères (hypercholestérolémie et diminution de l’expression du R-LDL, PCSK9, LRP1, SREBP-2 et HMGCOA-r dans le foie) causés par l’Ovx sur le métabolisme du cholestérol constatés dans l’étude 2, la 3ième étude a été conçue pour évaluer l’efficacité de rosuvastatine (Ros) sur l’expression génique de ces marqueurs moléculaires chez les rates Ovx sédentaires ou soumises à l’entraînement volontaire. Ros a été administrée aux rates Ovx pendant 21 jours par voie sous-cutanée à la dose de 5mg/kg/j à partir de la 9ième semaine après l’Ovx. Ros n’a pas diminué la concentration plasmatique de LDL-C et de TC chez les rates Ovx. Par contre, Ros a stimulé (P ˂ 0.05) l’expression génique de PCSK9, SREBP-2, LRP1, HMGCoA-r et ACAT2 (Acyl-CoA cholesterol acyltransferase) mais pas significativement (P = 0.3) celle du R-LDL dans le foie des rates Ovx sédentaires et entraînées. Ros n’a pas réduit la concentration plasmatique de LDL-C probablement à cause de l’induction plus importante de PCSK9 par rapport au R-LDL. Cependant, la stimulation de LRP1 par Ros protège partiellement contre la survenue des maladies cardiovasculaires. En conclusion, les études de cette thèse indiquent que la baisse du niveau des œstrogènes entraîne des changements radicaux du métabolisme hépatique des TG et du cholestérol provoqués par des altérations de l’expression des gènes clés des voies métaboliques associées. / Hepatic steatosis and plasma lipid profile deterioration are metabolic diseases favored by post-menopausal estrogen deficiency. However, mechanisms underlying these diseases have not been systematically adressed. The aim of this thesis was to investigate molecular mechanisms causing hypercholesterolemia and lipids (triglycerides: TG and cholesterol) accumulation in the liver using animal model of menopause, the ovariectomized (Ovx) Sprague Dawley rat. We also examined whether lifestyle modifications such as physical activity can prevent or correct changes induced by Ovx. Finally, rosuvastatin (statine) was used as a pharmacological therapy of hypercholesterolemia in order to understand its effect at the molecular level in Ovx rats. The first study was designed to determine how the Ovx may affect levels of TG and cholesterol in the liver of rats fed a high-fat diet (HF: 42% fat). Rats were submitted to a HF or a normal diet for 6 weeks prior to Ovx or being sham operated, and then kept on the same diets for another 6 weeks. The Ovx increased liver TG content, but not the HF diet alone. However, the combination of Ovx and HF diet resulted in a greater liver TG accumulation than that observed in Ovx submitted to normal diet. The mRNA levels of CPT-1, PGC1 and PPARα involved in liver lipid oxidation significantly increased in rats fed the HF diet (p ˂ 0.001; p ˂ 0.01; p ˂ 0.05 respectively); but this increase was substantially less if HF fed rats were Ovx (p ˂ 0.05; p ˂ 0.05; p ˂ 0.07 respectively), thus favouring TG accumulation in the liver. The combination of HF diet and Ovx also induced hypercholesterolemia and an increase in liver total cholesterol content, in spite of the reduction of liver HMGCoA-r gene expression, the key enzyme for cholesterol synthesis. This was also associated with a decrease of liver CYP7a1 gene expression, suggesting a reduction in bile acids synthesis. Having found in the first study that the Ovx increases liver and plasma cholesterol levels, we aimed in the second study at determining the effects of Ovx on gene expression of hepatic and intestinal transporters and enzymes involved in cholesterol and bile acids metabolism; and to verify whether treadmill exercise could prevent or correct changes induced by Ovx. The Ovx resulted in hypercholesterolemia associated with a reduction in gene expression of hepatic low-density lipoprotein receptor (LDL-R), lipoprotein remnants receptor (LRP1), SREBP-2 and PCSK9, suggesting a failure in the clearance of plasma lipoproteins particles. The Ovx also inhibited the expression of MTP and stimulated that of SR-B1 in the liver, but no change was observed with CYP7a1. These molecular changes might, therefore, favor cholesterol accumulation in the liver. Exercise training did not correct the deleterious effects caused by Ovx on gene expression of these molecular markers in the liver with the exception of SREBP-2. However, in the intestine (ileum) treadmill exercise reduced gene expression of molecular markers involved in the absorption of bile acids (OSTα/β, FXR, RXRα, Fgf15) and cholesterol (LXRα, NCP1L1) in Sham trained rats compared to sedentary rats. This could prevent the development of cholestasis and hypercholesterolemia protecting partially against the onset of atherosclerosis. In view of the deleterious effects (hypercholesterolemia and decreased in gene expression of LDL-R, PCSK9, LRP1, SREBP-2 and HMGCoA-r in the liver) caused by Ovx on cholesterol metabolism observed in the second study, the 3rd study was designed to test the effect of rosuvastatin (Ros) on gene expression of these molecular markers in Ovx sedentary rats or in Ovx rats submitted to voluntary training. Ros was injected to Ovx rats subcutaneously at dose of 5mg/kg/day during 21 days from the ninth week after ovariectomy. Ros failed to decrease plasma LDL-C and TC in Ovx rats. In contrast, Ros increased (P ˂ 0.05) PCSK9, SREBP-2, LRP1, HMGCoA-r and ACAT2 but not significantly (P ˂ 0.3) LDL-R mRNA in the Ovx sedentary and trained rat liver. Ros failed to decrease plasma LDL-C in Ovx rats probably because of a stronger induction of PCSK9 than LDL-R gene expression. However by increasing LRP1 expression, Ros could decrease circulating lipoprotein remnants and, therefore, protects partially against the onset of cardiovascular diseases. In conclusion, the studies of this thesis indicate that the decrease of ovarian estrogen levels causes radical changes in hepatic TG and cholesterol metabolism caused by alterations in the expression of key genes associated with metabolic pathways. Foie Liver Intestin Intestine Ovariectomie Ovariectomy Exercice physique Physical exercise Stéatose hépatique Hepatic steatosis Hypercholestérolémie Hypercholesterolemia Triglycérides Triglycerides Cholestérol Cholesterol Acides biliaires Bile acids Rosuvastatine Rosuvastatin
146	Dieta hiperlipídica materna e pós-natal promove remodelamento adverso do fígado, pâncreas e tecido adiposo na prole / Maternal and postnatal high fat diet provoke adverse liver, pancreas and adipose tissue remodelling in offspring Bianca Martins Gregório 21 July 2010 (has links) A dieta hiperlipídica (high-fat, HF) materna durante a gestação e/ou lactação aumenta a susceptibilidade da prole para o desenvolvimento de doenças crônicas na fase adulta. Verificar a hipótese que a ingestão materna de dieta HF nos períodos críticos de desenvolvimento (gestação e/ou lactação) predispõe à doença não alcoólica do fígado gorduroso e alterações pancreáticas e no tecido adiposo de camundongos machos adultos. Camundongos C57BL/6 fêmeas receberam durante a gestação e/ou lactação dieta padrão (standard chow, SC) ou HF. Filhotes machos foram divididos em cinco grupos: SC provenientes de mães SC; G provenientes de mães HF durante a gestação; L provenientes de mães HF durante a lactação; GL/HF provenientes de mães HF durante a gestação/lactação, mantendo a mesma dieta HF no período pós-natal (do desmame aos 3 meses deidade); GL provenientes de mães HF durante a gestação/lactação trocando a dieta para SC no período pós-natal (do desmame aos 3 meses deidade). Foi analisada ao longo do experimento a massa corporal da prole. No sacrifício (3 meses), o fígado, o pâncreas e a gordura epididimária foram removidos, pesados e processados e o sangue foi coletado para análise bioquímica. Ao nascimento e ao desmame, filhotes GL/HF foram mais pesados (+6% e +44%, p<0,05, respectivamente) que os filhotes SC. Os filhotes G apresentaram resistência à insulina e menor expressão do transportador de glicose no fígado (GLUT-2). A esteatose hepática foi observada nos grupos G, L, GL e principalmente nos filhotes do grupo GL/HF. A expressão hepática da proteína ligante de elementos regulatórios de esteróis (SREBP-1c) estava aumentada nos filhotes G, GL e GL/HF. Os filhotes G, GL e GL/HF apresentaram hipertrofia da ilhota pancreática e dos adipócitos quando comparados com o grupo SC. O consumo de dieta HF durante a gestação mostra-se ser o período mais prejudicial para os filhotes adultos de camundongos. A programação metabólica por dieta HF leva ao remodelamento adverso do fígado, do pâncreas e do tecido adiposo / Maternal high-fat diet (HF) during gestation and/or lactation period increases the susceptibility to development of chronic disease in offspring adult life. This work aimed to verify the hypothesis that maternal intake of high-fat diet in critical periods of pregnancy and/or suckling period predisposes to non alcoholic fatty liver disease, pancreatic and adipose tissue alterations in adulthood mice offspring. C57BL/6 female mice were fed, during gestation and/or lactation phases, with standard chow (SC) or HF diet. Male pups were divided into 5 groups: SC- from SC fed dam; G- from HF fed dam during gestation period; L- from HF fed dam during lactation period; GL- from HF fed dam during gestation and lactation periods and GL/HF- from HF fed dam during gestation and lactation, maintaining HF diet from post-weaning to adulthood. We analyzed body mass in all experiment, and at the euthanasia (3 mo-old), liver, pancreas and adipose tissue were removed, weighted and embedded. Blood was collected to biochemical analyses. At birth and at weaning, GL/HF pups were heavier than SC pups (+6% and +44%, p<0.05, respectively). G offspring showed insulin resistance and lower glucose transporter-2 expression (GLUT-2). Hepatic steatosis was present in G, L, GL and mainly in GL/HF offspring. Sterol regulatory element-binding protein-1c (SREBP-1c) expression was higher in G, GL and GL/HF offspring. It is important to mention that pancreatic islet hypertrophy and adipocyte hypertrophy were affected in G, GL and GL/HF offspring in comparison to SC. HF diet administration during gestation period is worse than lactation period. Furthermore, this type of programming by HF predisposes to adverse remodeling in liver, pancreas and adipose tissue in adult mice offspring programação fetal camundongos C57BL/6 dieta hiperlipídica materna gestação/lactação esteatose hepática alterações pancreáticas remodelamento do tecido adiposo maternal high-fat diet C57BL/6 mice fetal programming gestation/lactation liver steatosis pancreatic alteration adipose tissue remodeling MORFOLOGIA
147	Dieta hiperlipídica materna e pós-natal promove remodelamento adverso do fígado, pâncreas e tecido adiposo na prole / Maternal and postnatal high fat diet provoke adverse liver, pancreas and adipose tissue remodelling in offspring Bianca Martins Gregório 21 July 2010 (has links) A dieta hiperlipídica (high-fat, HF) materna durante a gestação e/ou lactação aumenta a susceptibilidade da prole para o desenvolvimento de doenças crônicas na fase adulta. Verificar a hipótese que a ingestão materna de dieta HF nos períodos críticos de desenvolvimento (gestação e/ou lactação) predispõe à doença não alcoólica do fígado gorduroso e alterações pancreáticas e no tecido adiposo de camundongos machos adultos. Camundongos C57BL/6 fêmeas receberam durante a gestação e/ou lactação dieta padrão (standard chow, SC) ou HF. Filhotes machos foram divididos em cinco grupos: SC provenientes de mães SC; G provenientes de mães HF durante a gestação; L provenientes de mães HF durante a lactação; GL/HF provenientes de mães HF durante a gestação/lactação, mantendo a mesma dieta HF no período pós-natal (do desmame aos 3 meses deidade); GL provenientes de mães HF durante a gestação/lactação trocando a dieta para SC no período pós-natal (do desmame aos 3 meses deidade). Foi analisada ao longo do experimento a massa corporal da prole. No sacrifício (3 meses), o fígado, o pâncreas e a gordura epididimária foram removidos, pesados e processados e o sangue foi coletado para análise bioquímica. Ao nascimento e ao desmame, filhotes GL/HF foram mais pesados (+6% e +44%, p<0,05, respectivamente) que os filhotes SC. Os filhotes G apresentaram resistência à insulina e menor expressão do transportador de glicose no fígado (GLUT-2). A esteatose hepática foi observada nos grupos G, L, GL e principalmente nos filhotes do grupo GL/HF. A expressão hepática da proteína ligante de elementos regulatórios de esteróis (SREBP-1c) estava aumentada nos filhotes G, GL e GL/HF. Os filhotes G, GL e GL/HF apresentaram hipertrofia da ilhota pancreática e dos adipócitos quando comparados com o grupo SC. O consumo de dieta HF durante a gestação mostra-se ser o período mais prejudicial para os filhotes adultos de camundongos. A programação metabólica por dieta HF leva ao remodelamento adverso do fígado, do pâncreas e do tecido adiposo / Maternal high-fat diet (HF) during gestation and/or lactation period increases the susceptibility to development of chronic disease in offspring adult life. This work aimed to verify the hypothesis that maternal intake of high-fat diet in critical periods of pregnancy and/or suckling period predisposes to non alcoholic fatty liver disease, pancreatic and adipose tissue alterations in adulthood mice offspring. C57BL/6 female mice were fed, during gestation and/or lactation phases, with standard chow (SC) or HF diet. Male pups were divided into 5 groups: SC- from SC fed dam; G- from HF fed dam during gestation period; L- from HF fed dam during lactation period; GL- from HF fed dam during gestation and lactation periods and GL/HF- from HF fed dam during gestation and lactation, maintaining HF diet from post-weaning to adulthood. We analyzed body mass in all experiment, and at the euthanasia (3 mo-old), liver, pancreas and adipose tissue were removed, weighted and embedded. Blood was collected to biochemical analyses. At birth and at weaning, GL/HF pups were heavier than SC pups (+6% and +44%, p<0.05, respectively). G offspring showed insulin resistance and lower glucose transporter-2 expression (GLUT-2). Hepatic steatosis was present in G, L, GL and mainly in GL/HF offspring. Sterol regulatory element-binding protein-1c (SREBP-1c) expression was higher in G, GL and GL/HF offspring. It is important to mention that pancreatic islet hypertrophy and adipocyte hypertrophy were affected in G, GL and GL/HF offspring in comparison to SC. HF diet administration during gestation period is worse than lactation period. Furthermore, this type of programming by HF predisposes to adverse remodeling in liver, pancreas and adipose tissue in adult mice offspring programação fetal camundongos C57BL/6 dieta hiperlipídica materna gestação/lactação esteatose hepática alterações pancreáticas remodelamento do tecido adiposo maternal high-fat diet C57BL/6 mice fetal programming gestation/lactation liver steatosis pancreatic alteration adipose tissue remodeling MORFOLOGIA
148	Estudo comparativo da esquistossomose mansônica no reservatório silvestre Nectomys squamipes naturalmente infectado e no modelo experimental camundongo Swiss: análises histopatológicas, bioquímicas e ultraestruturais Amaral, Kátia Batista do 11 December 2015 (has links) Submitted by Renata Lopes (renatasil82@gmail.com) on 2016-09-26T20:24:00Z No. of bitstreams: 1 katiabatistadoamaral.pdf: 5840188 bytes, checksum: bc96f4a6457a961cca6e272ba1aaaa5d (MD5) / Approved for entry into archive by Diamantino Mayra (mayra.diamantino@ufjf.edu.br) on 2016-09-26T20:29:35Z (GMT) No. of bitstreams: 1 katiabatistadoamaral.pdf: 5840188 bytes, checksum: bc96f4a6457a961cca6e272ba1aaaa5d (MD5) / Made available in DSpace on 2016-09-26T20:29:35Z (GMT). No. of bitstreams: 1 katiabatistadoamaral.pdf: 5840188 bytes, checksum: bc96f4a6457a961cca6e272ba1aaaa5d (MD5) Previous issue date: 2015-12-11 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / O roedor Nectomys squamipes, também conhecido como rato d’água, é considerado o mais importante reservatório silvestre do parasito Schistosoma mansoni no Brasil, contribuindo para a epidemiologia da esquistossomose mansônica humana. Além disso, quando infectado, não apresenta sinais clínicos da doença, apresentando lesões teciduais extremamente brandas decorrentes da infecção. Parâmetros relacionados à infecção esquistossomótica em modelos murinos de infecção experimental já foram bem documentados; porém, em modelos de infecção natural, ainda são pouco conhecidos. A relação parasito-hospedeiro neste modelo de infecção natural é de grande relevância e motivou o desenvolvimento deste trabalho. Foi realizado estudo comparativo da esquistossomose mansônica em N. squamipes naturalmente infectado pelo parasito S. mansoni e no camundongo Swiss experimentalmente infectado, nas fases aguda e crônica da infecção, através de análises histopatológicas, bioquímicas e ultraestruturais, objetivando obter uma melhor compreensão de como o rato d’água lida com o parasitismo pelo S. mansoni. Foram realizadas análises de frequências e tipos de granulomas, suas áreas médias e do comprometimento tecidual dos órgãos alvos da infecção (fígado e intestinos), nos dois modelos experimentais. A participação dos eosinófilos durante a resposta inflamatória granulomatosa também foi avaliada, visto que estas células estão presentes em grandes números nos granulomas. Dosagens bioquímicas das transaminases hepáticas auxiliaram na avaliação do dano hepatocelular. Além disso, a influência da esteatose hepática neste modelo de infecção natural foi estudada, visto que seus efeitos não são conhecidos em animais silvestres. Assim, dosagens séricas de glicose, colesterol total e triglicerídeos foram importantes para avaliar o perfil glicêmico e lipídico dos animais estudados. Os tecidos hepáticos dos animais foram submetidos à espectroscopia Raman, para avaliar o grau de insaturação presente. Finalmente, análises ultraestruturais ajudaram a aprofundar o conhecimento sobre os papéis dos eosinófilos e dos corpúsculos lipídicos presentes nos hepatócitos nestes dois modelos de esquistossomose mansônica. Os resultados revelaram que N. squamipes apresentou excelente modulação das lesões teciduais no fígado, com baixo comprometimento tecidual neste órgão e uma reação granulomatosa mais exacerbada no intestino delgado, favorável à eliminação dos ovos do parasito nas fezes. Além disso, os níveis séricos das transaminases não se alteraram em decorrência da infecção neste roedor silvestre, ao contrário do que ocorreu no camundongo Swiss. N. squamipes infectados e não infectados apresentaram os maiores graus de insaturação presentes nos tecidos hepáticos. Características ultraestruturais intrigantes dos eosinófilos de N. squamipes foram observadas por MET. Através dos dados obtidos, concluímos que o rato d’água apresenta uma relação ecológica bem estabelecida com o parasito S. mansoni, sendo que esta adaptação ao parasitismo pode estar relacionada ao metabolismo lipídico deste reservatório silvestre. / The rodent Nectomys squamipes, also known as water rat, is considered the most important wild reservoir of the parasite Schistosoma mansoni in Brazil, contributing to the epidemiology of human schistosomiasis. Furthermore, when infected, it shows no clinical signs of the disease with extremely soft tissue injuries resulting from infection. Parameters related to the infection in murine models of experimental infection have been well documented; however, in natural infection models, they are still largely unknown. The host-parasite relationship in this model of natural infection is highly relevant and motivated the development of this work. So, It was conducted a comparative study of schistosomiasis in N. squamipes naturally infected by the parasite Schistosoma mansoni and in Swiss experimentally infected mice, at the acute and chronic phases of the infection through histological, biochemical and ultrastructural analysis, aiming to gain a better understanding of how the water rat handles with parasitism by S. mansoni. Analysis of frequencies and types of granulomas were held, their average areas and tissue impairment of the target organs of infection (liver and intestines) in both experimental models. The involvement of eosinophils during granulomatous inflammatory response was also evaluated, as these cells are present in large numbers in the granulomas. Biochemical testing of liver transaminases contributed to the evaluation of hepatocellular damage. Furthermore, the influence of hepatic steatosis in the natural infection model was studied, since their effects are not known in wild animals. Thus, serum levels of glucose, total cholesterol and triglycerides were important to assess the glycemic and lipid profile of the animals studied. The liver tissues of animals were subjected to Raman spectroscopy, to assess the degree of unsaturation. Finally, ultrastructural analysis helped to deepen understanding of the roles of eosinophils and lipid bodies present in hepatocytes in these two models of schistosomiasis. The results revealed that N. squamipes showed excellent modulation of tissue lesions in the liver, with low tissue impairment and a more exacerbated granulomatous reaction in the small intestine, favoring the elimination of the parasite eggs in feces. Furthermore, serum transaminases levels did not change as a result of the infection in wild rodents, unlike what occurred in Swiss mice. N. squamipes infected and uninfected showed the highest degree of unsaturation present in liver tissue. Intriguing ultrastructural characteristics of N. squamipes eosinophils were observed by TEM. Through the data obtained, we concluded that the water rat has a wellestablished ecological relationship with the parasite Schistosoma mansoni, and this adaptation to parasitism may be related to lipid metabolism of this wild reservoir. CNPQ::CIENCIAS BIOLOGICAS::ECOLOGIA Nectomys squamipes Reservatório silvestre Schistosoma mansoni Granuloma Histopatologia Ultraestrutura Eosinófilos Corpúsculos lipídicos Esteatose hepática Nectomys squamipes Wild reservoir Schistosoma mansoni Granuloma Histopathology Ultrastructure Eosinophils Lipid body Hepatic steatosis
149	Rôle des points de contact Réticulum Endoplasmique-Mitochondrie (MAMs) dans la régulation du métabolisme glucido-lipidique du foie et importance du Monoxyde d’Azote (NO) / Role of Endoplasmic Reticulum-Mitochondria Contact Points (MAMs) in the regulation of glucose and lipid metabolisms in the liver and the importance of nitric oxide (NO) Bassot, Arthur 04 December 2019 (has links) Le réticulum endoplasmique et la mitochondrie sont deux organites majeurs impliqués dans la régulation du métabolisme glucido-lipidique. Ces structures interagissent au niveau de points de contact étroits appelés Mitochondria-Associated Endoplasmique Reticulum Membranes (MAMs). Les MAMs sont une zone de communication et d’échanges, de lipides et de calcium entre autre, indispensables à l’activité des deux organites et au maintien de l’homéostasie cellulaire. Des connexions physiques sont assurées par l’interaction de protéines complémentaires, comme le canal anionique voltage-dépendant (VDAC)-1, la protéine chaperonne (Grp)-75 et le récepteur de l'inositol 1,4,5-triphosphate (IP3R)-1, constituant un complexe impliqué dans le transfert de calcium. D’autres acteurs comme les mitofusines 1 et 2 (MFN1/2) assurent également un rapprochement entre les deux organites et semblent jouer un rôle dans les échanges des lipides. Récemment, les MAMs sont apparues comme un nouveau carrefour de la signalisation de l’insuline dans le foie. Le monoxyde d’azote (NO) participe également au contrôle de la réponse à l’insuline hépatique et a une action spécifique sur la mitochondrie. Mes travaux de thèse ont montré que le NO à des concentrations physiologiques module les interactions entre le RE et la mitochondrie dans le foie et que son action sur les MAMs implique la voie de signalisation sGC/cGMP/PKG. J’ai également démontré que la modulation des MAMs par le NO semble jouer un rôle clé dans la régulation de la voie de signalisation à l’insuline (projet1). Par ailleurs, j’ai exploré l’importance des MAMs dans la régulation du métabolisme lipidique. Pour cela, j’ai modulé l’expression protéique de Grp75 et Mfn2 sur un modèle d’hépatocarcinome humain (Huh7). Mes résultats ont montré qu’une surexpression des deux protéines améliore les MAMs et la β-oxydation mitochondriale mais conduit à une accumulation intracellulaire de lipides. Ceci serait dû à un défaut de sécrétion des lipides dans les lipoprotéines VLDL et pourrait impliquer l’apparition d’un stress mitochondrial et une altération des échanges de phospholipides entre les deux organites (projet 2). Par conséquence mon travail confirme le rôle physiologique des MAMs et éclaire les mécanismes d’actions de cette plateforme cellulaire dans la régulation du métabolisme glucido-lipidique hépatique. A plus long terme ces connaissances participeront peut-être à l’identification de potentielles cibles thérapeutiques afin de prévenir la stéatose et la résistance à l’insuline hépatiques et leurs complications / The endoplasmic reticulum and mitochondria are two major organelles involved in the regulation of glucose and lipid metabolism. These structures interact at close contact points called Mitochondria-Associated Endoplasmic Reticulum Membranes (MAMs). MAMs constitute an area of communication and exchange, of lipids and calcium among others, essential for the activity of both organelles and the maintenance of cellular homeostasis. Physical connections are ensured by the interaction of complementary proteins, such as the voltage-dependent anionic channel (VDAC)-1, the chaperone protein (Grp)-75 and the inositol 1,4,5-triphosphate receptor (IP3R)-1, constituting a complex involved in calcium transfer. Other actors such as mitofusins 1 and 2 (MFN1/2) also connect the two organelles and are involved in lipid exchanges. Recently, MAMs have emerged as a new carrefour for insulin signaling in the liver. Nitric oxide (NO) also helps control the response to hepatic insulin and has a specific action on mitochondria. My thesis work showed that NO at physiological concentrations modulates the interactions between RE and mitochondria in the liver and that its action on MAMs involves the sGC/cGMP/PKG signalling pathway. I also demonstrated that NO modulation of MAMs plays a key role in regulating the insulin signaling pathway (project 1). In addition, I explored the importance of MAMs in the regulation of lipid metabolism. For that purpose, protein expression of Grp75 and Mfn2 was modulated in a human hepatocarcinoma model (Huh7). Results showed that overexpression of both proteins improves MAMs and mitochondrial β-oxidation but leads to intracellular lipid accumulation. This could be due to a defect in lipid secretion in VLDL lipoproteins and could imply the appearance of mitochondrial stress and an alteration of phospholipid exchanges between the two organelles (project 2). Consequently, my work confirms the physiological role of MAMs and sheds light on the mechanisms of action of this cellular platform in the regulation of glucose and lipid metabolism in the liver. In the longer term, this knowledge may contribute to the identification of potential therapeutic targets to prevent steatosis and hepatic insulin resistance and their complications Foie Réticulum endoplasmique Mitochondrie MAMs Monoxyde d’azote (NO) Voie de signalisation de l’insuline Métabolisme Glucido-lipidique Stéatose Liver Endoplasmic reticulum Mitochondria MAMs Nitric oxide (NO) Insulin signaling pathway Glucido-lipid metabolism Steatosis 570
150	Lipotoxicity in diabetic cardiomyopathy Haffar, Taha 07 1900 (has links) No description available. acides gras cardiomyopathie diabétique lipotoxicité oxydation des acides gras stress du réticulum endoplasmique diabète type 2 stéatose cardiomyocytes Fatty acids Fatty acids Lipotoxicity fatty acids oxidation Endoplasmic reticulum stress type 2 diabetes steatosis cardiomyocytes

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