Rôle de la ghréline dans la régulation du coactivateur transcriptionnel PGC-1alpha

Keil, Sarah

12 1900

L’adaptation de l’organisme à son environnement est essentielle à sa survie. L’homéostasie énergétique permet l’équilibre entre les apports, les dépenses et le stockage d’énergie. Un surplus calorique important dérègle ce processus et mène au développement du syndrome métabolique caractérisé, entre autres, par une obésité, un diabète de type II, des maladies cardiovasculaires et des dyslipidémies. La ghréline participe au maintien de l’équilibre énergétique durant le jeûne en stimulant la production de glucose par le foie et le stockage lipidique dans le tissu adipeux. Le coactivateur transcriptionnel PGC-1alpha, surexprimé en situation de jeûne, est impliqué dans l’induction de la production de glucose par le foie et l’oxydation des acides gras. Notre hypothèse est que ces deux acteurs clés du métabolisme énergétique constituent un axe de régulation commun. Dans cette étude, nous montrons que la ghréline participe à la régulation de PGC-1alpha. Son récepteur GHS-R1a, possédant une forte activité constitutive, est également impliqué de façon indépendante au ligand. GHS-R1a réduit l’activité transcriptionnelle de PGC-1alpha tandis que l’ajout du ligand inverse modérément cette action. L’effet de GHS-R1a corrèle avec l’acétylation de PGC-1alpha qui est fortement augmentée de façon dose-dépendante. La stabilité de PGC-1alpha est également augmentée par le GHS-R1a indépendamment de l’ubiquitine. La ghréline diminue la capacité de PGC-1alpha à lier PPARbeta, un récepteur nucléaire partenaire de PGC-1alpha. De plus, la ghréline réduit, de façon ligand-dépendante, la capacité de coactivation de PGC-1alpha sur PPARbeta dans les hépatocytes. L’ensemble de ces résultats identifie PGC-1alpha comme cible du signal de la ghréline et suggère un axe de régulation ghréline/PGC-1alpha/PPARbeta.Une meilleure compréhension de cet axe de régulation va permettre la mise en évidence de nouvelles cibles thérapeutiques pour faire face aux pathologies associées au syndrome métabolique. / The adaptation of an organism to its environment is essential to its survival. Energy homeostasis is defined as the balance between intakes, expenses and storage of energy. An excess of calories disrupts this process and leads to the development of the metabolic syndrome that is characterized by obesity, type II diabetes, cardiovascular diseases and dyslipidemia. During fasting, ghrelin participates in the maintenance of energy balance by stimulating hepatic production of glucose and lipid storage in adipose tissue. The transcriptional coactivator PGC-1alpha is overexpressed in the liver during fasting and is involves in the induction of the hepatic glucose production and fatty acid oxidation. Our hypothesis is that these two key performers in the energy metabolism constitute a common axis control. In this study, we show that ghrelin plays a role in the regulation of PGC-1alpha. The ghrelin receptor GHS-R1a is also involved because of its strong constitutive activity in absence of ligand. We found that GHS-R1a inhibited PGC-1alpha transcriptional activity whereas adding ghrelin to cells moderated this effect. PGC-1alpha activation by GHS-R1a correlated with a dose-dependent increase of PGC-1alpha acetylation. The stability of PGC-1alpha was also increased by ghrelin receptor in a manner involving the ubiquitin-independent proteasome pathway. Ghrelin decreased the ability of PGC-1alpha to bind to PPARbeta, one of its nuclear receptor partners. Furthermore, ghrelin decreased the ability of PGC-1alpha to coactivate PPARbeta in a ligand-dependent manner in hepatocytes. Together, these results identify PGC-1alpha as a metabolic target of GHSR-1a signaling and defines a new regulatory axis involving ghrelin/PGC-1alpha/PPARbeta in hepatocytes. A better understanding of this regulation axis will provide novel aspects in therapeutic targeting of diseases associated with the metabolic syndrome.

PGC-1alpha

GHS-R1a

Ghréline

Coactivateur transcriptionnel

Récepteurs nucléaires

PPARbeta

PGC-1alpha

GHS-R1a

Ghrelin

Nuclear receptors

Transcriptional coactivator

Metabolic syndrome

Syndrome métabolique

PPARbeta

Μελέτη της σχέσης λεπτίνης και αυξητικής ορμόνης κατά τη διάρκεια του εικοσιτετραώρου και μετά φαρμακολογική πρόκληση σε παχύσαρκα παιδιά

Νικολακοπούλου, Νικολέτα

24 January 2011

Σκοπός της μελέτης ήταν: (1) να προσδιοριστεί η συχνότητα της διαταραχής ανοχής στη γλυκόζη (IGT) και του σακχαρώδη διαβήτη τύπου II (ΣΔII) σε παχύσαρκα παιδιά και εφήβους στην Ελλάδα και (2) να καθοριστεί εάν οι συγκεντρώσεις γλυκόζης και ινσουλίνης νηστείας μπορούν να προβλέψουν τη διαταραχή ανοχής στη γλυκόζη (IGT)) στα παιδιά αυτά σε σχέση με τα επίπεδα της λεπτίνης, της γκρελίνης, της αδιπονεκτίνης και της σωματομεδίνης, και την έκκριση της αυξητικής ορμόνης (GH) και της θυρεοειδοτρόπου ορμόνης (TSH) κατά τη διάρκεια του 24ωρου μαζί με την ημερήσια έκκριση της κορτιζόλης. Έγινε καμπύλη σακχάρου (OGTT) μαζί με επίπεδα ινσουλίνης σε 117 παχύσαρκα παιδιά και εφήβους 12,1  2,7 ετών και μελετήθηκαν τα επίπεδα της λεπτίνης, της γκρελίνης, της αδιπονεκτίνης και της σωματομεδίνης (IGF-I) κατά τη δοκιμασία ανοχής στη γλυκόζη (OGTT). Επίσης, μελετήθηκαν τα επίπεδα της 24ωρης έκκρισης της GH και της TSH και της ημερήσιας έκκρισης της κορτιζόλης. Χρησιμοποιήθηκαν οι δείκτες HOMA-IR και ο ινσουλινογόνος δείκτης για την εκτίμηση της αντίστασης της ινσουλίνης και της λειτουργίας των β κυττάρων, αντίστοιχα. 17 ασθενείς (14,5%) είχαν IGT και σε κανένα δε διαγνώστηκε ΣΔII. Τα ποσοστά IGT και ΣΔΙΙ ήταν χαμηλότερα από αυτά μιας πολυεθνικής Αμερικανικής μελέτης. Η διαφορά εντοπίστηκε κυρίως στα προεφηβικά παιδιά (9% έναντι 25,4%), ενώ δεν παρατηρήθηκε διαφορά στους εφήβους (18% έναντι 21%). Ωστόσο, τα ποσοστά IGT ήταν υψηλότερα από αυτά που βρέθηκαν σε άλλες μελέτες από την Ευρώπη. Η γλυκόζη νηστείας, η ινσουλίνη και ο δείκτης HOMA-IR δεν προέβλεψαν την εμφάνιση IGT, όμως, η απόλυτη τιμή της ινσουλίνης στις 2 ώρες της OGTT και ο δείκτης AUCG προέβλεψαν την εμφάνιση IGT. Τα επίπεδα λεπτίνης και γκρελίνης ήταν υψηλότερα στα κορίτσια. Υπήρχε συσχετισμός μεταξύ BMI και λεπτίνης νηστείας, BMI και αδιπονεκτίνης, σωματομεδίνης (IGF-I) και λεπτίνης νηστείας, ενώ δεν υπήρχε καμιά συσχέτιση με τα επίπεδα της κορτιζόλης ή με τα 24ωρα επίπεδα της αυξητικής ορμόνης και της θυρεοειδοτρόπου ορμόνης. Συμπερασματικά, η OGTT φαίνεται να έχει τη δυνατότητα να προβλέψει την IGT, ενώ οι τιμές γλυκόζης και ινσουλίνης νηστείας και οι τιμές του δείκτη HOMA-IR, αν και υψηλότερες στους ασθενείς με IGT και ενδεικτικές για αντίσταση στην ινσουλίνη, δεν μπορούν να προβλέψουν την IGT. / The aims of the present study were: (1) to determine the prevalence of impaired glucose tolerance (IGT) and diabetes mellitus II (DMII) in obese children and adolescents of Greek origin and (2) to study the concentrations of leptin, ghrelin, adiponectin and IGF-I during an oral glucose tolerance test as well as the 24-hour concentrations of growth hormone (GH) and thyrotropin secreting hormone (TSH), and the diurnal secretion of cortisol in these children. A total of 117 obese children and adolescents aged 12.1  2.7 years underwent an oral glucose tolerance test (OGTT) and the concentrations of leptin, ghrelin, adiponectin and IGF-I were studied during the duration of the OGTT in relation to the 24-hour secretion of GH and TSH and the diurnal secretion of cortisol. For the estimation of insulin resistance and beta cell function the homeostatic model assessment (HOMA-IR) and the insulinogenic index, respectively, were used. A total of 17 patients (14.5%) had IGT and none had DMII. The overall prevalence rates of both IGT and DMII observed in the obese children and adolescents were lower than those reported in a recent multiethnic US study. Nevertheless, the difference between the data of this study and those of the US study was mostly due to the prepubertal children (9% vs. 25.4%), while no difference was observed in the pubertal population (18% vs. 21%). The prevalence rates of IGT in this study though, were greater than those reported in other European studies. Fasting glucose, insulin and HOMA-IR values were not predictive of IGT. The absolute value of insulin at 2h of the OGTT combined with the time-integrated glycemia (AUCG) strongly predicted IGT, whereas higher area under the curve for insulin (AUCI) values were found to be protective. Leptin and ghrelin concentrations were higher in the females. There was a correlation found between BMI and fasting leptin, BMI and adiponectin, IGF-I and fasting leptin although there was no correlation found with the GH, TSH or cortisol concentrations. In conclusion, the OGTT seems to be capable of predicting IGT whereas the fasting glucose and insulin concentrations are unable to predict glucose intolerance since HOMA-IR values, although higher in IGT subjects and indicative of insulin resistance, cannot accurately predict IGT.

Παιδική παχυσαρκία

Λεπτίνη

Αυξητική ορμόνη

Γκρελίνη

Αδιπονεκτίνη

618.924 624

Childhood obesity

Impaired glucose tolerance

Diabetes type II

Leptin

Growth hormone

Ghrelin

Adiponectin

Oral glucose tolerance Test

Concentração plasmática da grelina total, grelina acetilada, leptina, GH e IGF-I em crianças e adolescentes com doença renal crônica / Plasma levels of acylated and total ghrelin in pediatric patients with mild to severe chronic kidney disease

Naufel, Maria Fernanda Soares [UNIFESP]

29 July 2009

Made available in DSpace on 2015-07-22T20:49:46Z (GMT). No. of bitstreams: 0 Previous issue date: 2009-07-29 / Background The mechanisms responsible for the uraemic anorexia are poorly understood. In children and adults with chronic kidney disease (CKD) increased levels of the orexigenic hormone ghrelin are often found. However, no data exits in relationship to concentration of acylated ghrelin in pediatric patients with CKD. Methods Cross-sectional study of acylated and total ghrelin plasma levels in pediatric patients with mild CKD undergoing conservative treatment (MCKD group, n = 19) and patients with end stage renal disease undergoing hemodialysis (ESRD group, n = 24) compared with healthy controls (n =20). The correlations between total or acyl ghrelin with leptin, GH, IGF-I, glomerular filtration rate (GFR) and anthropometric and nutritional measurements were also undertaken. Results ESRD patients had significantly lower BMI Z-score and energy intake while both ESRD and MCKD groups had lower height-for-age Z-score than control group. ESRD patients also exhibited higher total ghrelin levels (2009.7±1278.0 pg/ml, mean±SD) than either MCKD (1117.5±891.9 pg/ml) or controls (655.3±255.6 pg/ml). However, plasma acyl ghrelin levels did not differ between groups. The ESRD group had normal GH but low IGF-I levels. When all 43 uraemic subjects were combined, total ghrelin correlated positively with GH (r =0.340, p=0.0255) and negatively with IGF-I (r= - 0.415, p=0.0057) and GFR (r= -0.534, p<0.0002). Both total and acyl ghrelin correlated negatively with nutritional status. Conclusion The present findings suggest that most of the increased total ghrelin in CKD pediatric patients is desacylated. As desacyl ghrelin has been shown to inhibit feeding, its high levels may contribute to malnutrition and growth deficit in CKD patients. / TEDE / BV UNIFESP: Teses e dissertações

Adolescentes

Crianças

Doença renal crônica

Estado nutricional

Grelina

Leptina

Fator de crescimento Insulin-Like I

Desnutrição

Chronic kidney failure

Ghrelin

Leptin

Malnutrition

Child

Insulin-like growth factor I

Nutritional status

Adolescent

Sinalização da grelina no coração de camundongos obesos após hipernutrição durante a lactação / Ghrelin signaling in heart remodeling of adult obese mice

Glauciane Lacerda Miranda

19 February 2013

Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro / A grelina é um ligante endógeno do receptor secretagogo do hormônio do crescimento (GHSR), potente estimulador da liberação do hormônio de crescimento (GH), ingestão alimentar, e adiposidade. Além disso, sua ação hormonal inclui regulação do metabolismo energético cardíaco. Entretanto, a hipernutrição no início da vida leva ao desenvolvimento da obesidade, induz hipertrofia cardíaca, compromete a função cardíaca, e gera insuficiência cardíaca na vida adulta. Avaliar proteínas chaves no processo de sinalização da grelina no remodelamento cardíaco no coração de camundongos obesos após a hipernutrição na lactação. A obesidade foi induzida por redução de ninhada e camundongos adultos (180 dias) foram divididos em: grupo hiperalimentado, GH com obesidade decorrente de hipernutrição na lactação e controle, GC. Cardiomiócitos (cmi) do ventrículo esquerdo foram analisados por microscopia de luz e estereologia, o conteúdo e fosforilação de proteínas cardíacas: receptor de grelina (hormônio do crescimento secretagogo receptor 1a, GHSR-1a), proteína quinase-B (AKT e pAKT), phosphatidil inositol 3-quinase (PI3K), proteína quinase ativada por AMP (AMPK e pAMPK), m-TOR, pmTOR, Bax, Bcl2 e actina foram analizados por western blotting. A expressão gênica do GHSR-1a foi analisada por PCR em tempo real. A respirometria de alta resolução dos cardiomiócitos foi analisada por oxígrafo OROBOROS. Significância estatística (P< 0,05) determinada por teste t-Student não-pareado. Nossos dados demonstram que a hipernutrição na lactação induz aumento no peso corporal, iniciado aos 10 dias de idade, persistindo até os 180 dias de idade. A glicemia, peso do fígado, e da gordura visceral foram maiores no grupo GH. Além disso, o grupo GH também apresentou aumento no peso do coração e razão peso do coração/CT (comprimento da tíbia), indicando hipertrofia e remodelamento cardíaco, aumento na expressão e conteúdo de GHSR-1a no coração, associado ao maior conteúdo de PI3K e maior conteúdo e fosforilação de AKT, diminuição no conteúdo de Bcl2. Em contraste, o conteúdo e fosforilação da AMPK e mTOR no coração não foram diferentes entre os grupos. Os níveis de grelina plasmático no GH foram menores. A respiração do GH com grelina foi menor que no GC com grelina. A incubação das fibras cardíacas com grelina resultou em aumento do fluxo respiratório após adição de citocromo c nos grupos com grelina, indicando dano à membrana mitocondrial e extravazamento de citocromo c. Os grupos GC com grelina e GH sem grelina apresentaram RCR menor comparado ao GC sem grelina, indicando desacoplamento mitocondrial. Nossos resultados mostram que a hipernutrição na lactação induz diminuição do nível de grelina plasmática e aumento da expressão do GHS-R1a no cardiomiócito do animal quando adulto. Tal processo determina aumento da sensibilidade a grelina no coração, processo que ocorre independentemente de variações do AMPK e mTOR. Sugerimos uma redução no efeito protetor da ação da grelina na AMPK. Também, demonstramos que o remodelamento do miocárdio nestes animais adultos associa-se a GHSR-1a, PI3K, e fosforilação da AKT, mas não com AMPK e mTOR na vida adulta. / Ghrelin, an endogenous ligand of the growth hormone secretagogue receptor (GHS-R), has been suggested to be associated to obesity, insulin secretion, cardiovascular growth and homeostasis. GHS-R has been found in most of the tissues, and among the hormone action it is included the regulation of heart energy metabolism. Therefore, hypernutrition during early life leads to obesity, induces cardiac hypertrophy, compromises myocardial function, inducing heart failure in adulthood. We examined ghrelin signaling process in cardiac remodeling in these obese adult mice. We examined key proteins of cardiomyocyte metabolism in heart left ventricle from overfed (OG) and control (CG) groups from adult mice (180 days) overfed during lactation. Obesity was induced by litter reduction. Therefore, the study was done in adult mice 180 days old (OG, obese group (n=10) and CG, control group (n=10). The cardiomyocytes (cmy) of left ventricle were analyzed by light microscopy and stereology. The content and phosphorylation of cardiac proteins: growth hormone secretagogue receptor 1a (GHSR-1a), protein kinase B (AKT and pAKT), phosphatidil inositol 3 kinase (PI3K), AMP-activated protein kinase (AMPK and pAMPK), mTOR and pmTOR, BAX, Bcl2 and actin was achieved by western blotting. GHSR-1a gene expression was analyzed to RT-PCR. We performed high-resolution respirometry of cardiomyocytes with OROBOROS Oxygraph-2k. Statistical significance was determined by Student t-test for unpaired. P< 0.05 was considered statistical significant. Body weight, blood glucose, liver weight, and visceral fat weight were higher in OG than CG group. Obese mice had increased heart weight and heart weight/TL (tibia length) indicating cardiac remodeling and hypertrophy, increased GHSR-1a content and expression in the heart, associated to PI3K content, increased AKT content and phosphorylation (P< 0.05), decreased Bcl2 content. In contrast, AMPK and mTOR content and phosphorylation in heart were not different between the experimental groups. Ghrelin plasma levels in obese group were decreased when compared to control group. The O2 consumption of OG with ghrelin was lower than in the CG with ghrelin. Incubation of cardiac fibers with ghrelin resulted in increased respiration after addition of cytochrome c in groups with ghrelin, indicating mitochondrial membrane damage and leakage of cytochrome c. CG with ghrelin and OG without ghrelin showed RCR lower compared to GC without ghrelin, indicating mitochondrial uncoupling. In this study, our results showing a decrease of ghrelin level and an increase of GHS-R1a expression for a down regulation that leads a higher sensibility of ghrelin in heart, occurring independently of any association with AMPK and mTOR in hearts of obese mice. That suggests a reduction in protective effects through ghrelin action on AMPK. In addition, our data demonstrated that remodeled myocardial in obese mice exclusively overnourished in early life are associated with GHSR-1a, PI3K and AKT phosphorylation but not with AMPK and mTOR in adulthood.

GHSR-1a

Coração

Hipernutrição

AKT

PI3K

Grelina Teses

Hipernutrição Teses

Metabolismo Energético Teses

Coração Teses

Obesidade Teses

Overnutrition

Heart

GHSR-1a

AKT

PI3K

Ghrelin - Theses

Overnutrition - Theses

Energy Metabolism - Theses

Heart - Theses

Obesity - Theses

Estudo do metabolismo energético hepático e da via de sinalização da grelina na obesidade induzida por dieta ocidental / Hepatic metabolism energy study and ghrelin signaling pathway in the Western diet-induced obesity

Patricia Soares Pacheco

10 June 2015

Fundação Carlos Chagas Filho de Amparo a Pesquisa do Estado do Rio de Janeiro / A obesidade é um dos maiores problemas de saúde pública que cresce em todo o mundo, resultante de um desequilíbrio entre ingestão alimentar e gasto energético. Pode-se dizer que a obesidade é o principal fator de risco para o desenvolvimento de doenças crônicas de maior prevalência como dislipidemias, doenças cardiovasculares, diabetes do tipo 2 e esteatose hepática não alcóolica, acarretando na redução da qualidade e expectativa de vida. A Grelina é um hormônio sintetizado pelo estômago, que atua em diferentes tecidos através de um receptor específico (GHS-R1a), incluindo hipotálamo e tecidos periféricos, como o fígado. Esse hormônio está envolvido no comportamento alimentar e adiposidade, modulando o armazenamento ou utilização dos substratos energéticos no coração, músculo esquelético, adipócitos e fígado, além disso, revela-se de grande importância na manutenção do metabolismo energético hepático. Estes dados suportam a hipótese de que as vias de sinalização responsivas à grelina são um importante componente da regulação do metabolismo energético hepático e da homeostase glicêmica. O objetivo deste trabalho, foi estudar o metabolismo energético hepático e a sinalização da grelina em camundongos Swiss adultos obesos submetidos a dieta ocidental rica em gordura saturada e carboidratos simples. Avaliamos o efeito desta dieta a partir do 21 dia de idade (desmame) até o 133 dia destes animais, através de parâmetros biométricos e bioquímicos, avaliação histomorfológica, respirometria de alta resolução, conteúdo de glicogênio hepático e conteúdo de algumas proteínas envolvidas na sinalização de insulina e grelina, além do metabolismo energético hepático. Baseado em nossos resultados observamos que o consumo de dieta ocidental rica em gordura saturada e carboidrato simples durante 16 semanas causa hiperfagia, levando ao quadro de obesidade na idade adulta e prejuízo nas vias de sinalização dos hormônios insulina e grelina, que são importantes moduladores do metabolismo energético hepático, favorecendo o desenvolvimento de esteatose hepática não alcoólica. / Obesity is a major public health problem growing around the world, resulting from an imbalance between food intake and energy expenditure. Obesity is one of the main risk factor for developing the most prevalent chronic diseases as dyslipidemia, cardiovascular disease, type 2 diabetes and non-alcoholic fat liver disease, resulting in lower life expectancy and quality of life. Ghrelin is a hormone synthesized into the stomach, which has an important role in different tissues by a specific receptor (GHS-R1a), including the hypothalamus and peripheral tissues such as the liver. This hormone is involved in feeding behavior and adiposity by modulating storage or use of energy substrates in heart, skeletal muscle, adipocytes and liver. Moreover, Ghrelin is important in maintaining liver energy metabolism. These data support the hypothesis that ghrelin signaling pathways is a key component in the regulation of energy metabolism and hepatic glucose homeostasis. The aim of this study was to investigate the hepatic energy metabolism and signaling of ghrelin in obese adults Swiss mice fed the Western diet, rich in saturated fat and simple carboidrate. We analyzed the effect of this diet starting from 21 days of age (weaning) up to 133 days, using biometric and biochemical parameters, histomorphological assessment, high resolution respirometry, hepatic glycogen content and proteins content involved in insulin and ghrelin signaling besides the hepatic energy metabolism. Based on our results we found that the consumption of rich Western diet for 16 weeks promoves overeating leading to obesity in adulthood, metabolic desorders and impairment in signaling pathways of hormones insulin and ghrelin, which are important metabolic modulators of liver energy, contributing to the development of NAFLD.

Dieta ocidental

Esteatose hepática não alcóolica

Grelina

Metabolismo energético

Obesidade induzida por dieta

Western diet

Non-alcoholic fat liver disease

Ghrelin

Energy metabolism

Diet-induced obesity

FISIOLOGIA

Sinalização da grelina no coração de camundongos obesos após hipernutrição durante a lactação / Ghrelin signaling in heart remodeling of adult obese mice

Glauciane Lacerda Miranda

19 February 2013

Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro / A grelina é um ligante endógeno do receptor secretagogo do hormônio do crescimento (GHSR), potente estimulador da liberação do hormônio de crescimento (GH), ingestão alimentar, e adiposidade. Além disso, sua ação hormonal inclui regulação do metabolismo energético cardíaco. Entretanto, a hipernutrição no início da vida leva ao desenvolvimento da obesidade, induz hipertrofia cardíaca, compromete a função cardíaca, e gera insuficiência cardíaca na vida adulta. Avaliar proteínas chaves no processo de sinalização da grelina no remodelamento cardíaco no coração de camundongos obesos após a hipernutrição na lactação. A obesidade foi induzida por redução de ninhada e camundongos adultos (180 dias) foram divididos em: grupo hiperalimentado, GH com obesidade decorrente de hipernutrição na lactação e controle, GC. Cardiomiócitos (cmi) do ventrículo esquerdo foram analisados por microscopia de luz e estereologia, o conteúdo e fosforilação de proteínas cardíacas: receptor de grelina (hormônio do crescimento secretagogo receptor 1a, GHSR-1a), proteína quinase-B (AKT e pAKT), phosphatidil inositol 3-quinase (PI3K), proteína quinase ativada por AMP (AMPK e pAMPK), m-TOR, pmTOR, Bax, Bcl2 e actina foram analizados por western blotting. A expressão gênica do GHSR-1a foi analisada por PCR em tempo real. A respirometria de alta resolução dos cardiomiócitos foi analisada por oxígrafo OROBOROS. Significância estatística (P< 0,05) determinada por teste t-Student não-pareado. Nossos dados demonstram que a hipernutrição na lactação induz aumento no peso corporal, iniciado aos 10 dias de idade, persistindo até os 180 dias de idade. A glicemia, peso do fígado, e da gordura visceral foram maiores no grupo GH. Além disso, o grupo GH também apresentou aumento no peso do coração e razão peso do coração/CT (comprimento da tíbia), indicando hipertrofia e remodelamento cardíaco, aumento na expressão e conteúdo de GHSR-1a no coração, associado ao maior conteúdo de PI3K e maior conteúdo e fosforilação de AKT, diminuição no conteúdo de Bcl2. Em contraste, o conteúdo e fosforilação da AMPK e mTOR no coração não foram diferentes entre os grupos. Os níveis de grelina plasmático no GH foram menores. A respiração do GH com grelina foi menor que no GC com grelina. A incubação das fibras cardíacas com grelina resultou em aumento do fluxo respiratório após adição de citocromo c nos grupos com grelina, indicando dano à membrana mitocondrial e extravazamento de citocromo c. Os grupos GC com grelina e GH sem grelina apresentaram RCR menor comparado ao GC sem grelina, indicando desacoplamento mitocondrial. Nossos resultados mostram que a hipernutrição na lactação induz diminuição do nível de grelina plasmática e aumento da expressão do GHS-R1a no cardiomiócito do animal quando adulto. Tal processo determina aumento da sensibilidade a grelina no coração, processo que ocorre independentemente de variações do AMPK e mTOR. Sugerimos uma redução no efeito protetor da ação da grelina na AMPK. Também, demonstramos que o remodelamento do miocárdio nestes animais adultos associa-se a GHSR-1a, PI3K, e fosforilação da AKT, mas não com AMPK e mTOR na vida adulta. / Ghrelin, an endogenous ligand of the growth hormone secretagogue receptor (GHS-R), has been suggested to be associated to obesity, insulin secretion, cardiovascular growth and homeostasis. GHS-R has been found in most of the tissues, and among the hormone action it is included the regulation of heart energy metabolism. Therefore, hypernutrition during early life leads to obesity, induces cardiac hypertrophy, compromises myocardial function, inducing heart failure in adulthood. We examined ghrelin signaling process in cardiac remodeling in these obese adult mice. We examined key proteins of cardiomyocyte metabolism in heart left ventricle from overfed (OG) and control (CG) groups from adult mice (180 days) overfed during lactation. Obesity was induced by litter reduction. Therefore, the study was done in adult mice 180 days old (OG, obese group (n=10) and CG, control group (n=10). The cardiomyocytes (cmy) of left ventricle were analyzed by light microscopy and stereology. The content and phosphorylation of cardiac proteins: growth hormone secretagogue receptor 1a (GHSR-1a), protein kinase B (AKT and pAKT), phosphatidil inositol 3 kinase (PI3K), AMP-activated protein kinase (AMPK and pAMPK), mTOR and pmTOR, BAX, Bcl2 and actin was achieved by western blotting. GHSR-1a gene expression was analyzed to RT-PCR. We performed high-resolution respirometry of cardiomyocytes with OROBOROS Oxygraph-2k. Statistical significance was determined by Student t-test for unpaired. P< 0.05 was considered statistical significant. Body weight, blood glucose, liver weight, and visceral fat weight were higher in OG than CG group. Obese mice had increased heart weight and heart weight/TL (tibia length) indicating cardiac remodeling and hypertrophy, increased GHSR-1a content and expression in the heart, associated to PI3K content, increased AKT content and phosphorylation (P< 0.05), decreased Bcl2 content. In contrast, AMPK and mTOR content and phosphorylation in heart were not different between the experimental groups. Ghrelin plasma levels in obese group were decreased when compared to control group. The O2 consumption of OG with ghrelin was lower than in the CG with ghrelin. Incubation of cardiac fibers with ghrelin resulted in increased respiration after addition of cytochrome c in groups with ghrelin, indicating mitochondrial membrane damage and leakage of cytochrome c. CG with ghrelin and OG without ghrelin showed RCR lower compared to GC without ghrelin, indicating mitochondrial uncoupling. In this study, our results showing a decrease of ghrelin level and an increase of GHS-R1a expression for a down regulation that leads a higher sensibility of ghrelin in heart, occurring independently of any association with AMPK and mTOR in hearts of obese mice. That suggests a reduction in protective effects through ghrelin action on AMPK. In addition, our data demonstrated that remodeled myocardial in obese mice exclusively overnourished in early life are associated with GHSR-1a, PI3K and AKT phosphorylation but not with AMPK and mTOR in adulthood.

GHSR-1a

Coração

Hipernutrição

AKT

PI3K

Grelina Teses

Hipernutrição Teses

Metabolismo Energético Teses

Coração Teses

Obesidade Teses

Overnutrition

Heart

GHSR-1a

AKT

PI3K

Ghrelin - Theses

Overnutrition - Theses

Energy Metabolism - Theses

Heart - Theses

Obesity - Theses

Perorální podání acipimoxu během fyzické zátěže způsobuje negativní zpětnovazebný mechanismus růstového hormonu na sekreci ghrelinu u pacientek s mentální bulimií a zdravých žen:Úloha lipolýzy / Acipimox during Short-Term Exercise Exerts A Negative Feedback of Growth Hormone on Ghrelin Secretion in Patients with Bulimia Nervosa and in Healthy Women: The Role of Lipolysis

Smitka, Kvido

January 2011

Title: Acipimox during Short-Term Exercise Exerts A Negative Feedback of Growth Hormone on Ghrelin Secretion in Patients with Bulimia Nervosa and in Healthy Women: The Role of Lipolysis Objective: Eating disorders, such as bulimia nervosa (BN) and anorexia nervosa (AN), are characterized by abnormal eating behavior. The main features of BN are binge-eating and inappropriate compensatory methods to prevent weight gain. The appetite-modulating peptide ghrelin is secreted by the stomach and shows a strong release of growth hormone (GH). A potential GH-ghrelin feedback loop between stomach and the pituitary has been recently reported. Acipimox (Aci), an analogue of nicotinic acid, inhibits lipolysis in adipose tissue (AT) and reduces plasma glycerol and free fatty acids (FFA) levels. Exercise and Aci are stimulators of GH secretion. We suppose that a negative feedback from increased GH levels during exercise may play a role in reducing plasma ghrelin levels. We surmised that altered baseline activity and exercise-induced activation of the sympathetic nervous system (SNS) results in excessive stimulation of lipolysis associated with negative energy balance and may lead to abnormal AT metabolism in patients with BN. Disruption of the gut-brain-AT axis might be involved in the pathogenesis of BN. The...

Efeito de um extrato de ervas sobre a ingestão alimentar e concentrações de grelina acilada e peptídeo semelhante ao glucagon 1 em mulheres com excesso de peso / Effect of herbal extract on food intake and acylated ghrelin concentrations and glucagon-like peptide 1 in women who are overweight

Celestino, Marina Monteiro

05 February 2016

Submitted by Cássia Santos (cassia.bcufg@gmail.com) on 2016-06-02T12:58:47Z No. of bitstreams: 2 Dissertação - Marina Monteiro Celestino - 2016.pdf: 3038939 bytes, checksum: f658681fb77c19cdbec1ee83ee51b443 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2016-06-02T14:50:30Z (GMT) No. of bitstreams: 2 Dissertação - Marina Monteiro Celestino - 2016.pdf: 3038939 bytes, checksum: f658681fb77c19cdbec1ee83ee51b443 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Made available in DSpace on 2016-06-02T14:50:30Z (GMT). No. of bitstreams: 2 Dissertação - Marina Monteiro Celestino - 2016.pdf: 3038939 bytes, checksum: f658681fb77c19cdbec1ee83ee51b443 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Previous issue date: 2016-02-05 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Overweight and obesity are associated with excessive food intake, due to changes in the productions of gastrointestinal hormones productions. Objectives: To evaluated the effect of a herbal extract derived from native species of South America on food intake, acylated ghrelin concentrations and peptide similar to glucagon 1. Material and methods: A randomized, blind, placebo-controlled, crossover design methodology, with intervention in two days with an interval (washout) seven days, consisted of 20 overweight women. Three capsules a mix of herbal medicines were administered, containing 112 mg of yerba mate, guarana 95 mg and 36 mg of damiana, or three placebo capsules containing 100 mg of lactose. The herbal extract was administered 15 minutes before a standardized breakfast (494.50 kcal, carbohydrates 52.67%, 12.91% protein and 34.5% lipid) and a standard lunch (632.05 kcal, 61, 67% carbohydrates, 16.97% protein and 21.44% lipid) for all patients. Food not eaten by the participants was weighed to evaluated food intake. Blood samples were collected at baseline and on days 45, 60, 90, 150, 210 minutes after breakfast in the morning and lunch for determination of plasma glucose concentrations, acylated ghrelin and peptide similar to glucagon 1. To compare the differences of the mean energy food intake and macronutrient was performed paired t-test, for the behavior of hormones was performed ANOVA and was calculated area under the curve and to determine the differences between the areas was performed Student's t test. Results: In the supplemented group, there was significant reduction in energy intake at lunch and macronutrients in both meals (p <0.05). The acylated ghrelin concentrations were lower after breakfast (p <0.05) and glucagon-like peptide 1 were higher (p <0.05) after breakfast in the supplemented group. Conclusion: Supplementation with herbal mix reduced energy intake and macronutrients by the modulating hormones glucagon-like 1 and acylated ghrelin in overweight and obesity women. / O excesso de peso se relaciona com a ingestão alimentar excessiva, decorrente de alterações nas produções de hormônios gastrointestinais. Objetivos: Avaliar o efeito de um extrato de ervas oriundos de espécies nativas da América do Sul sobre a ingestão alimentar, as concentrações de grelina acilada e peptídeo semelhante ao glucagon 1. Material e métodos: Ensaio clínico randomizado cego, crossover com intervenção em dois dias, com intervalo (washout) de sete dias, composto por 20 mulheres adultas com excesso de peso. Foram administradas três cápsulas de um extrato de ervas, contendo 112 mg de erva-mate, 95 mg de guaraná e 36 mg de damiana, ou três cápsulas de placebo, contendo 100 mg de lactose. O extrato de ervas foi administrado 15 minutos antes de um desjejum padronizado (494,50 kcal, 52,67% carboidratos, 12,91% proteínas e 34,5% lipídios) e de um almoço padronizado (632,05 kcal, 61,67% carboidratos, 16,97% proteínas e 21,44% lipídios) para todas pacientes. Os alimentos não ingeridos pelos participantes foram pesados para avaliar a ingestão alimentar. Foram coletadas amostras de sangue no início do estudo e nos tempos de 45, 60, 90, 150, 210 minutos após o café-da-manhã e almoço para determinação das concentrações plasmáticas de glicose, grelina acilada e peptídeo semelhante ao glucagon 1. Para comparar as diferenças das médias da ingestão alimentar energética e de macronutrientes foi realizado o teste t pareado, para o comportamento dos hormônios foi realizado ANOVA e foi calculado a área abaixo da curva e para determinar as diferenças entre as áreas foi realizado teste T de Student. Resultados: No grupo suplementado, foi observada redução significativa da ingestão energética no almoço e de macronutrientes em ambas as refeições (p < 0,05). As concentrações de grelina acilada foram menores após o almoço (p <0,05) e de peptídeo semelhante ao glucagon 1 foram maiores (p < 0,05) após o desjejum no grupo suplementado. Conclusão: A administração do extrato de ervas reduziu a ingestão calórica e de macronutrientes sugerindo que possa ter ocorrido por meio da modulação da ação dos hormônios peptídeo semelhante ao glucagon 1 e grelina acilada em mulheres com sobrepeso e obesidade.

Obesidade

Hormônios gastrointestinais

Peptídeo semelhante ao glucagon 1

Grelina acilada

Erva-mate

Guaraná

Damiana

Obesity

Gastrointestinal hormones

Peptide similar to glucagon 1

Acylated ghrelin

Yerba mate

Guarana

Damiana

CIENCIAS DA SAUDE::NUTRICAO

Relação de polimorfismos nos genes da perilipina 1, visfatina, resistina e grelina com a resposta a um programa de orientação nutricional para a redução de peso corporal / Relationship of polymorphisms in the perilipine 1, visfatin, resistin and ghrelin genes with the response to the nutritional orientation program for the reduction of body weight

Marina Aparecida dos Santos

01 September 2017

A obesidade é causada pelo desequilíbrio entre a ingestão alimentar e o gasto energético corporal, com o armazenamento de energia na forma de gordura, no tecido adiposo. A obesidade causa alterações metabólicas, como resistência à insulina e dislipidemia, além de aumento de adipocinas e citocinas pró-inflamatórias. Este trabalho investigou a influência de polimorfismos nos genes da perilipina 1 (PLINl), visfatina (NAMPT) , resistina (RETN) e grelina (GHRL) na adiposidade e no perfil metabólico e inflamatório, antes e após um programa de orientação nutricional. Foram selecionados indivíduos obesos (OB, n=214), sobrepeso (SOB, n=71) e não obesos (NOB, n=69), com idade de 30 a 70 anos. Foram obtidos dados clínicos, antropométricos e de composição corporal. O recordatório de 24h foi aplicado a 87 indivíduos obesos para avaliação de consumo alimentar, antes e após o programa de orientação nutricional. Foi obtido sangue para extração de DNA e para analisar parâmetros laboratoriais (perfil lipídico e glicêmico, marcadores inflamatórios e adipocinas). Polimorfismos dos genes PLINl, NAMPT, RETN e GHRL foram analisados por PCR em tempo real. O grupo OB teve perfil antropométrico alterado e risco aumentado de hipertensão, diabetes tipo 2 e dislipidemia em comparação com os grupos SOB e NOB (p<0,05). As concentrações de glicose, colesterol total, LDL colesterol, VLDL colesterol, triglicérides, apolipoproteína B (ApoB), interleucina 1&#946; (IL-l &#946;) e fator de necrose tumoral alfa (TNF&#945;) foram maiores e as concentrações de HDL colesterol e apolipoproteina AI (apoAI) foram menores, no grupo OB que nos outros grupos (p<0,05). As frequências dos polimorfismos genéticos do grupo total foram similares as de outras populações. Os polimorfismos NAMPT rs1319501 C>T e rs10763861 C>T foram associados com obesidade (p<0,05). Os polimorfismos genéticos não influenciaram o perfil antropométrico do grupo total (p>0,05), mas no grupo de obesos, o polimorfismo GHRL rs4684677 T>A foi relacionado com maior porcentagem de gordura corporal (p=0,043). Após a orientação nutricional, observou-se diminuição da ingestão de calorias e do consumo de carboidratos, gorduras totais, sódio, magnésio e betacaroteno (p<0,05). Os polimorfismos genéticos não influenciaram o perfil antropométrico e o consumo alimentar de obesos, após a orientação nutricional. Em conclusão, polimorfismos dos genes NAMPT e GHRL contribuem para a adiposidade, mas não influenciam o comportamento alimentar e o perfil antropométrico, após orientação nutricional. / Obesity is caused by the imbalance between food intake and body energy expenditure, with the storage of energy in the form of fat, in adipose tissue. Obesity causes metabolic changes, such as insulin resistance and dyslipidemia, and an increase in adipokines and pro-inflammatory cytokines. This work investigated the influence of polymorphisms in the perilipine 1 (PLINI) , visfatin (NAMPT) , resistin (RETN) and ghrelin (GHRL) genes on adiposity and metabolic and inflammatory profile, before and after a nutritional orientation programo Obese (OB, n=214), overweight (SOB, n=71) and nonobese subjects (NOB, n=69), aged 30 to 70 years, were selected. ClinicaI, anthropometric and body composition data were obtained. The 24-hour dietary recall was applied to 87 obese subjects to eva1uate food intake before and after the nutritiona1 orientation programo Blood was obtained for DNA extraction and to analyze 1aboratory parameters (lipid and glycemic profile, inflammatory markers and adipokines). Po1ymorphisms of the PLINI, NAMPT, RETN and GHRL genes were analyzed by real-time PCR. The OB group had altered anthropometric profile and increased risk for hypertension, type 2 diabetes and dyslipidemia in comparison with SOB and NOB groups (p <0.05). Concentrations of glucose, total cholesterol, LDL cholesterol, VLDL cholesterol, triglycerides, apolipoprotein B (ApoB), interleukin 1&#946; (IL-1&#946;) and tumor necrosis factor alpha (TNF&#945;) were higher and the concentrations ofHDL cholesterol and apolipoprotein AI (apoAI) were lower in the OB than in the other groups (p <0.05). The frequencies of the genetic polymorphisms of the total group were similar to those of other populations. NAMPT rs1319501 C> T and rs10763861 C> T polymorphisms were associated with obesity (p <0.05). Genetic polymorphisms did not influence the anthropometric profile ofthe total group (p> 0.05), but in the obese group, the GHRL rs4684677 T> A polymorphism was related to a higher body fat percentage (p = 0.043). After nutritional orientation, a decrease in calorie intake and in the consumption of carbohydrates, total fats, sodium, magnesium and beta-carotene CP <0.05) were observed. Genetic polymorphisms did not influence the anthropometric profile and the dietary intake of obese individuaIs after nutritional orientation. In conclusion, NAMPT and GHRL gene polymorphisms contribute to adiposity but do not influence dietary behavior and anthropometric profile after nutritional orientation.

Consumo alimentar

Grelina

Marcadores inflamatórios

Obesidade

Perfil metabólico

Perilipina 1

Polimorfismos genéticos

Resistina

Visfatina

Food consumption assessment

Food intake

Ghrelin (GHRL)

Obesity

Perilipin 1 (PLIN1), Visfatin (NAMPT)

Resistin (RETN)

Ghrelin, metabolic risk factors and carotid artery atherosclerosis

Pöykkö, S. (Seppo)

12 April 2005

Abstract The increasing prevalence of metabolic syndrome and the consequent cardiovascular diseases, including atherosclerotic diseases and type 2 diabetes, are a cause of public concern worldwide. This development has stimulated an active search for novel risk factors and new candidate genes. The hormones regulating energy balance and the polymorphisms associated with them are of special interest as potential risk factors for metabolic syndrome. Ghrelin is a novel peptide hormone from stomach with strong growth hormone releasing activity. It is also able to modify glucose and insulin metabolism, blood pressure levels, cardiac function, adipogenesis and inflammatory processes in experimental conditions. Whether ghrelin and ghrelin gene variations have a role in the development of metabolic syndrome and the associated diseases, is not known. In the present study, the associations between fasting plasma ghrelin concentrations, ghrelin gene mutations (Arg51Gln and Leu72Met), features of metabolic syndrome, type 2 diabetes and carotid artery atherosclerosis were analysed. In addition, the relationship between ghrelin and insulin-like growth factor I (IGF-I) concentrations was studied. The study population consisted of 1045 middle-aged subjects of the hypertensive and the control cohorts of the OPERA project from the City of Oulu, Finland. Low ghrelin concentrations were found to be associated with several components of metabolic syndrome: adiposity, low HDL cholesterol levels, high insulin concentrations and high blood pressure levels. The prevalence of insulin resistance and type 2 diabetes was increased amongst the subjects with low ghrelin concentrations. Out of the individual factors tested, IGF-I concentration was the most significant predictor of ghrelin concentrations. This negative association was strongest in the subjects with insulin resistance and type 2 diabetes, which suggests that changes in ghrelin/IGF-I interactions might be involved in the development of these conditions. The subjects with the Gln51 allele of the ghrelin gene had lower ghrelin concentrations and, consistent with the findings mentioned above, higher prevalence of type 2 diabetes and hypertension compared with the subjects homozygous for the Arg51 allele. No correlation between ghrelin and C-reactive protein concentrations was seen. However, there was a positive association between ghrelin concentrations and carotid artery intima-media thickness. This association was independent of the commonly recognised risk factors of atherosclerosis and was only seen in men, who also had more advanced atherosclerosis than women. These observations call for further studies to clarify the potential causative role of ghrelin in the etiology of metabolic syndrome, type 2 diabetes and atherosclerotic cardiovascular diseases. / Tiivistelmä Metaboliseen oireyhtymään liittyy kohonnut riski sairastua sydän- ja verisuonisairauksiin kuten tyypin 2 diabetekseen ja sepelvaltimotautiin. Metabolisen oireyhtymän nopea esiintyvyyden kasvu on johtanut aktiiviseen uusien riskitekijöiden etsintään. Erityisen kiinnostuksen kohteena ovat olleet energia-aineenvaihduntaa säätelevät hormonit ja niihin liittyvät polymorfiat. Greliini on ensisijaisesti vatsalaukusta erittyvä hormoni, joka lisää voimakkaasti kasvuhormonin eritystä. Koeolosuhteissa sillä on myös vaikutuksia sokeriaineenvaihduntaan, verenpaineeseen, sydämen toimintaan, rasvakudoksen kehittymiseen ja tulehduksellisiin tapahtumiin, minkä perusteella on syytä epäillä greliinillä olevan osuutta metabolisen oireyhtymän ja siihen liittyvien sairauksien synnyssä. Tässä tutkimuksessa selviteltiin greliinin paastoplasmapitoisuuksien ja greliinipolymorfioiden (Arg51Gln ja Leu72Met) yhteyksiä metabolisen oireyhtymän piirteisiin, tyypin 2 diabetekseen ja kaulavaltimoiden ateroskleroosiin. Lisäksi tutkittiin greliinin ja insuliinin kaltaisen kasvutekijän (IGF-I) pitoisuuksien yhteyksiä. Tutkimusväestö koostui 1045 oululaisesta keski-ikäisestä OPERA tutkimukseen kuuluvasta henkilöstä. Tutkimuksessa matalien greliinipitoisuuksien havaittiin olevan yhteydessä useisiin metabolisen oireyhtymän piirteisiin: lihavuuteen, alhaisiin HDL kolesterolin pitoisuuksiin, korkeisiin insuliinipitoisuuksiin ja kohonneeseen verenpaineeseen. Matala greliinipitoisuus yhdistyi myös tyypin 2 diabeteksen ja verenpainetaudin esiintyvyyteen. Tutkituista tekijöistä IGF-I -pitoisuudet selittivät parhaiten greliinipitoisuuksia. Tämä käänteinen yhteys oli erityisen vahva tyypin 2 diabeetikoilla ja insuliiniresistenteillä henkilöillä viitaten greliinin ja IGF-I:n mahdollisen vuorovaikutukseen liittyvän näiden tilojen kehittymiseen. Lisäksi havaittiin, että greliinigeenin Gln51-alleelia kantavien henkilöiden greliinipitoisuudet olivat alhaiset, ja että he sairastivat enemmän diabetesta ja verenpainetautia kuin henkilöt jotka olivat homotsygootteja Arg51-alleelin suhteen. Greliinipitoisuudet ja C-reaktiivisen proteiinin pitoisuudet eivät korreloineet keskenään. Kaulavaltimon seinämäpaksuus korreloi positiivisesti greliinipitoisuuksien kanssa miehillä riippumatta perinteisistä ateroskleroosin riskitekijöistä. Tutkimustulokset tukevat olettamusta, että greliinillä saattaa olla merkitystä metabolisen oireyhtymän, tyypin 2 diabeteksen ja ateroskleroosin kehittymisessä. Jatkotutkimukset ovat tarpeen tämän yhteyden osoittamiseksi.

atherosclerosis

carotid arteries

diabetes mellitus type 2

ghrelin

hypertension

insulin resistance

insulin-like growth factor I

metabolic syndrome

obesity

polymorphism

ateroskleroosi

greliini

insuliinin kaltainen kasvutekijä

insuliiniresistenssi

kaulavaltimot

lihavuus

metabolinen oireyhtymä

polymorfismi

tyypin 2 diabetes

verenpainetauti