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Showing 1 to 3 of 3 (0.448 seconds)Spelling suggestions: "subject:"adipose tissue remodeling"" "subject:"dipose tissue remodeling""
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Caractérisation et fonction des vésicules extracellulaires sur le métabolisme adipocytaire : rôle du morphogène Sonic Hedgehog / Molecular characterization and functions of extracellular vesicles on adipocyte metabolism : a role for the morphogen Sonic HedgehogFleury, Audrey 17 November 2015 (has links)
Les vésicules extracellulaires (VE), incluant exosomes et microparticules (MP), vecteurs d’information biologique, peuvent moduler la fonction de cellules cibles. Une élévation du taux de VE circulantes est observée dans les pathologies cardiovasculaires dont l’obésité est l’un des facteurs de risque majeur. Cependant, il existe peu de données concernant la production de VE adipocytaires et leur capacité à moduler le métabolisme des adipocytes. Tout d’abord, nous avons caractérisé de manière morphologique et biochimique les MP et les exosomes adipocytaires. Nous montrons une production accrue de ces VE dans un contexte d’obésité murine. L’analyse protéomique des VE adipocytaires révèle un enrichissement spécifique des MP et des exosomes en protéines clé du métabolisme énergétique et de l’inflammation, respectivement. Dans une seconde partie, nous avons étudié l’effet de MP lymphocytaires portant le morphogène Hedgehog (MPHh+) sur la différenciation adipocytaire. A l’instar d’une activation classique de la voie de signalisation Hh, les MPHh+ inhibent l’adipogenèse. Bien que dépendant du récepteur Smoothened (Smo), cet effet inhibiteur est indépendant des facteurs de transcription Gli. Nous montrons que les MPHh+ activent un axe anti-adipogénique Smo/Lkb1/Ampk pouvant être stimulé par un nouvel agoniste de Smo, le GSA-10. Nos résultats démontrent, d’une part, la capacité des adipocytes à sécréter des VE, et d’autre part, le potentiel fonctionnel des MPHh+ à inhiber l’adipogenèse par une voie de signalisation Hhnon-canonique. Les VE pourraient contribuer aux dysfonctions métaboliques associées à l’obésité en véhiculant des messages métaboliques à l’échelle de l’organisme. / Extracellular vesicles (EV), including microparticles (MP) and exosomes, are able to modulate target cell function through exchange or transfer of biological material. Although EV are present in the blood of healthy individuals, an elevated quantity of circulating EV is associated with cardiovascular diseases, which obesity is a major cardiovascular risk factor. Nevertheless, few studies have reported the ability of adipocytes to release EV and their implication in adipose tissue metabolism. First of all, we could determine morphological and biochemical features of adipocyte-derived exosomes and MP through a combination of methods. We were able to demonstrate an increase in adipocyte EV production in a murine model of obesity. Proteomic analysis of adipocyte EV further revealed a specific enrichment of proteins crucial for glucose and lipid metabolism and related to inflammation in MP and exosomes respectively. We then evaluated the ability of lymphocytes-derived MP harboring the Sonic Hedgehog morphogen to control adipocyte differentiation. Activation of the Hedgehog canonical pathway inhibited adipogenesis, as did MPHh+. Surprisingly, although Smo dependent, inhibitory potential of such MP did not involve the Gli transcription factors. We show that MPHh+ inhibit adipocyte differentiation through a Smo/Lkb1/Ampk axis as does a new agonist of Smo, GSA-10. Our results demonstrate, on one hand, the ability of adipocyte to release EV and on the other hand, the capacity of MPHh+ to control adipogenesis through a non-canonical Hh signaling pathway. In conclusion, EV might contribute to obesity related metabolic dysfunctions through systemic regulation of metabolic pathways.
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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 offspringBianca 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
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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 offspringBianca 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
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