Global ETD Search

21	Effects of Acute Nutrient Stimulation and Chronic High-Fat Feeding on GIP and GLP-1 Secretion in the Lymph Fistula Rat Yoder, Stephanie M. January 2010 (has links) No description available. Physiological Psychology GIP GLP-1 Incretin Lymph Fistula Rat Model Macronutrients High-Fat Diet
22	Grape powder attenuates the negative effects of GLP-1 receptor antagonism by exendin-3 (9-39) in a normoglycemic mouse model Haufe, Thomas Carl 20 May 2016 (has links) Prediabetes is a condition affecting 35% of US adults and about 50% of US adults age 65+. Foods rich in polyphenols, including flavanols and other flavonoids, have been studied for their putative beneficial effects on many different health conditions including type 2 diabetes mellitus and prediabetes. Studies have shown that some flavanols increase glucagon-like peptide 1 (GLP- 1) levels. GLP-1 is a feeding hormone that increases insulin secretion after carbohydrate consumption and increased GLP-1 levels may be responsible for some of the beneficial effects on glycemic control after flavanol consumption. The present study explored the effects of grape powder consumption on metrics of glycemic health in normoglycemic and prediabetic C57BL/6J mice; additionally, the mechanism of action of grape powder was investigated. Grape powder significantly reduced (p<0.01) blood glucose levels following oral glucose gavage after GLP-1 receptor antagonism by exendin-3 (9-39) compared to sugar-matched control; indicating that it was able to attenuate the hyperglycemic effects of GLP-1 receptor antagonism. Grape powder was employed in acute (1.6 g grape powder/kg bodyweight) and long-term high fat diet (grape powder incorporated into treatment diets at 5% w/w) feeding studies in normoglycemic and prediabetic (diet-induced obesity) mice; grape powder did not improve glycemic control in these studies versus sugar-matched control. The mechanisms by which grape powder ameliorates the deleterious effects of GLP-1 receptor antagonism warrants further study. / Master of Science in Life Sciences grape powder procyanidins incretin exendin-3 prediabetes Obesity glucose tolerance glucagon-like peptide 1 GLP-1
23	The analysis of pharmacotherapy by patients suffering with DM in Greece I Kalaitzidis, Georgios January 2015 (has links) The analysis of pharmacotherapy by patients suffering with DM in Greece I Author: Georgios Kalaitzidis Tutor: Professor RNDr.Jiri Vlcek,CSc. Department of Social and Clinical Pharmacy, Charles University in Prague, Faculty of Pharmacy in Hradec Kralove. Introduction: The diabetes in developed countries concerns 11% of people over 70 years and is the cause of 3% of total deaths in general population. Aim: The aim of the study was to assess the Pharmacotherapy of Diabetes mellitus type II in a pharmacy of a small town of Greece, Veria. Methods: It is retrospective cross-sectional study, which was conducted in a pharmacy in a small town of Greece, Veria. The study population consists of 60 patients with known Type II diabetes Melitus. The data collection was performed by a self-reported questionnaire, which was created and developed by the researcher and filled by the respondents. Results: The mean age of the sample was 56.5±17.5 years. Most of them were females (n=40). Most of the patients knew their fasting glucose level (93.3%,n=56).Of the patients who knew their fasting glucose level, 36 (64.3%) patients had high fasting glucose level and 20 (35.7%) had physiological fasting glucose level. From all the patients(n=60), some of them visited their physician every 6 months (n=24), and every 3 months...
24	Respostas transcriptômica e sistêmica de hormônios gastrintestinais à derivação gástrica em Y de Roux e sua correlação com homeostase glicêmica em pacientes obesas portadoras de diabetes mellitus tipo 2 / Transcriptomic and systemic responses of gastrointestinal hormones to Roux-en-Y gastric bypass and its correlation with glycemic homeostasis in obese patients with type 2 diabetes mellitus Candian, Danielle Cristina Fonseca 03 April 2018 (has links) Indivíduos obesos, portadores de diabetes mellitus tipo 2 (DM2), atingem controle glicêmico poucos dias após realização de derivação gástrica em Y de Roux (DGYR), antes mesmo de ocorrer perda de peso significativa. Entre os mecanismos propostos, para explicar o rápido controle glicêmico, a alteração da produção de hormônios gastrintestinais é muito estudada, porém pouco se explorou a expressão tecidual dos genes que os transcrevem. O presente estudo avaliou a resposta, em curto prazo, da expressão gástrica e intestinal de genes que transcrevem peptídeo semelhante ao glucagon 1 (GLP-1), peptídeo insulinotrópico dependente de glicose (GIP), peptídeo tirosina-tirosina (PYY) e grelina, e de níveis sistêmicos desses hormônios à DGYR, bem como, sua correlação com homeostase glicêmica pós-operatória. Mulheres obesas portadoras de DM2 (n=20) foram avaliadas antes e após 3 meses de DGYR. Todas as pacientes foram avaliadas em conjunto e, posteriormente, divididas em dois subgrupos de doentes, determinados pelo grau de remissão pós-operatória de DM2 (parcial ou completa) de acordo com o critério ADA. Biopsias do corpo e fundo gástrico, duodeno, jejuno e íleo foram coletadas por enteroscopia de duplo balão para análise de expressão dos genes GCG (precursor do GLP-1), GIP (precursor do GIP), PYY (precursor de PYY) e GHRL (precursor da grelina). As análises de expressão gênica foram feitas por abordagem global e alvo, por meio das técnicas de microarray e RT-qPCR, respectivamente. Concentrações plasmáticas dos hormônios transcritos pelos genes avaliados também foram dosadas em jejum e após teste de refeição mista, bem como níveis circulantes de peptídeo C, hemoglobina glicada (jejum), glicose, insulina e glucagon (jejum e após teste de refeição mista). Essa abordagem permitiu avaliar a correlação de dados teciduais de expressão gênica e de níveis circulantes de hormônios GI com marcadores sistêmicos de homeostase glicêmica. Após DGYR, alterações significativas na expressão de GCG, GIP, PYY e GHRL ocorreram ao longo dos segmentos GI estudados, em paralelo à melhora significativa de marcadores plasmáticos da homeostase glicêmica. Particularmente, aumento da expressão de GCG e diminuição da expressão de GIP ao longo do intestino foram acompanhados por alterações sistêmicas concordantes dos hormônios por eles transcritos. Essas alterações transcriptômicas se correlacionaram direta (GCG) e inversamente (GIP) com níveis de insulina e glicose, e, inversamente, com níveis de hemoglobina glicada (GCG e GIP). Apenas o hormônio GLP-1 se correlacionou inversamente com níveis de hemoglobina glicada. Além disso, as pacientes com remissão completa de DM2 apresentaram, em relação às medidas pré-operatórias, aumento de GCG no jejuno e íleo, e aumento significativo da área sob a curva de GLP-1 ativo após DGYR. No estômago excluso, ocorreu aumento da expressão de GHRL, mas os níveis sistêmicos de grelina não sofreram alterações significativas no pós-operatório. De acordo com nossos dados, DGYR modificou a expressão de genes que transcrevem hormônios GI capazes de influenciar a homeostase glicêmica. Essas alterações foram acompanhadas por modificações concordantes de níveis sistêmicos das incretinas GLP-1 e GIP e se correlacionaram com marcadores de melhora da homeostase glicêmica. Em conjunto, nossos resultados sugerem que DGYR pode influenciar a homeostase glicêmica por mecanismos que incluem modificação transcriptômica de genes relacionados a hormônios gastrintestinais / Obese subjects with type 2 diabetes mellitus (T2DM) achieve glycemic control few days after Roux-en-Y gastric bypass (RYGB), even before significant weight loss occurs. Among all proposed mechanisms to explain the rapid glycemic control after surgery, alteration of gastrointestinal (GI) hormones production is widely studied, however, GI expression of these genes is still little explored. The present study evaluated the short-term response of gastric and intestinal expression of genes transcribing glucagon-like peptide 1 (GLP-1), glucose-dependent insulinotropic peptide (GIP), tyrosine-tyrosine peptide (PYY), and ghrelin and systemic levels of these hormones after RYGB, as well as their correlation with postoperative glycemic homeostasis. Obese women with T2DM (n = 20) were assessed before and after 3 months of RYGB. All patients were evaluated together and subsequently divided in two subgroups of patients, according the degree of postoperative T2DM remission (partial or complete), following ADA criteria. Biopsies of body and gastric fundus, duodenum, jejunum and ileum were collected by double-balloon enteroscopy for analysis of GCG (precursor of GLP-1), GIP (GIP precursor), PYY (precursor of PYY) and GHRL ghrelin precursor). Gene expression analysis was done by global and target approach, using microarray and RT-qPCR techniques, respectively. Plasmatic concentrations of hormones transcribed by the genes under study were also measured in fasted and after mixed meal test samples, as well as circulating levels of C peptide, glycated hemoglobin (fasting), glucose, insulin and glucagon (fasting and after mixed meal test). This approach allowed the correlation of tissue expression data and circulating levels of GI hormones with systemic markers of glycemic homeostasis. After RYGB, significant changes in GCG, GIP, PYY and GHRL expression were observed along the studied GI segments, in parallel with significant improvement in plasma markers of glycemic homeostasis. In particular, increased GCG expression and decreased GIP expression throughout the small intestine was followed by consistent systemic alterations of its related hormones. These transcriptomic changes are directly (GCG) and inversely (GIP) correlated with insulin and glucose levels and inversely with glycated hemoglobin levels (GCG and GIP). Only GLP-1 was inversely correlated with glycated hemoglobin levels. In addition, regarding the preoperative measurements, patients with complete T2DM remission presented increased GCG in jejunum and ileum, and significant increase in the area under curve of active GLP-1 after RYGB. In the excluded stomach, an increase in GHRL gene expression was recognized, but systemic levels of ghrelin did not changed significantly. According to our data, RYGB altered the expression of genes that transcribe GI hormones related to glycemic homeostasis. These changes were followed by expected modifications of GLP-1 and GIP incretin systemic levels and were correlated with improved glycemic homeostasis markers. Taken together, our results suggest that RYGB can influence glycemic homeostasis by mechanisms that include transcriptomic modification of genes related to gastrointestinal hormones Bariatric surgery Cirurgia bariátrica Derivação gástrica Diabetes mellitus tipo 2 Expressão gênica Gastric bypass Gastrointestinal tract Gene expression Incretin Incretinas Trato gastrointestinal Type 2 diabetes mellitus
25	Respostas transcriptômica e sistêmica de hormônios gastrintestinais à derivação gástrica em Y de Roux e sua correlação com homeostase glicêmica em pacientes obesas portadoras de diabetes mellitus tipo 2 / Transcriptomic and systemic responses of gastrointestinal hormones to Roux-en-Y gastric bypass and its correlation with glycemic homeostasis in obese patients with type 2 diabetes mellitus Danielle Cristina Fonseca Candian 03 April 2018 (has links) Indivíduos obesos, portadores de diabetes mellitus tipo 2 (DM2), atingem controle glicêmico poucos dias após realização de derivação gástrica em Y de Roux (DGYR), antes mesmo de ocorrer perda de peso significativa. Entre os mecanismos propostos, para explicar o rápido controle glicêmico, a alteração da produção de hormônios gastrintestinais é muito estudada, porém pouco se explorou a expressão tecidual dos genes que os transcrevem. O presente estudo avaliou a resposta, em curto prazo, da expressão gástrica e intestinal de genes que transcrevem peptídeo semelhante ao glucagon 1 (GLP-1), peptídeo insulinotrópico dependente de glicose (GIP), peptídeo tirosina-tirosina (PYY) e grelina, e de níveis sistêmicos desses hormônios à DGYR, bem como, sua correlação com homeostase glicêmica pós-operatória. Mulheres obesas portadoras de DM2 (n=20) foram avaliadas antes e após 3 meses de DGYR. Todas as pacientes foram avaliadas em conjunto e, posteriormente, divididas em dois subgrupos de doentes, determinados pelo grau de remissão pós-operatória de DM2 (parcial ou completa) de acordo com o critério ADA. Biopsias do corpo e fundo gástrico, duodeno, jejuno e íleo foram coletadas por enteroscopia de duplo balão para análise de expressão dos genes GCG (precursor do GLP-1), GIP (precursor do GIP), PYY (precursor de PYY) e GHRL (precursor da grelina). As análises de expressão gênica foram feitas por abordagem global e alvo, por meio das técnicas de microarray e RT-qPCR, respectivamente. Concentrações plasmáticas dos hormônios transcritos pelos genes avaliados também foram dosadas em jejum e após teste de refeição mista, bem como níveis circulantes de peptídeo C, hemoglobina glicada (jejum), glicose, insulina e glucagon (jejum e após teste de refeição mista). Essa abordagem permitiu avaliar a correlação de dados teciduais de expressão gênica e de níveis circulantes de hormônios GI com marcadores sistêmicos de homeostase glicêmica. Após DGYR, alterações significativas na expressão de GCG, GIP, PYY e GHRL ocorreram ao longo dos segmentos GI estudados, em paralelo à melhora significativa de marcadores plasmáticos da homeostase glicêmica. Particularmente, aumento da expressão de GCG e diminuição da expressão de GIP ao longo do intestino foram acompanhados por alterações sistêmicas concordantes dos hormônios por eles transcritos. Essas alterações transcriptômicas se correlacionaram direta (GCG) e inversamente (GIP) com níveis de insulina e glicose, e, inversamente, com níveis de hemoglobina glicada (GCG e GIP). Apenas o hormônio GLP-1 se correlacionou inversamente com níveis de hemoglobina glicada. Além disso, as pacientes com remissão completa de DM2 apresentaram, em relação às medidas pré-operatórias, aumento de GCG no jejuno e íleo, e aumento significativo da área sob a curva de GLP-1 ativo após DGYR. No estômago excluso, ocorreu aumento da expressão de GHRL, mas os níveis sistêmicos de grelina não sofreram alterações significativas no pós-operatório. De acordo com nossos dados, DGYR modificou a expressão de genes que transcrevem hormônios GI capazes de influenciar a homeostase glicêmica. Essas alterações foram acompanhadas por modificações concordantes de níveis sistêmicos das incretinas GLP-1 e GIP e se correlacionaram com marcadores de melhora da homeostase glicêmica. Em conjunto, nossos resultados sugerem que DGYR pode influenciar a homeostase glicêmica por mecanismos que incluem modificação transcriptômica de genes relacionados a hormônios gastrintestinais / Obese subjects with type 2 diabetes mellitus (T2DM) achieve glycemic control few days after Roux-en-Y gastric bypass (RYGB), even before significant weight loss occurs. Among all proposed mechanisms to explain the rapid glycemic control after surgery, alteration of gastrointestinal (GI) hormones production is widely studied, however, GI expression of these genes is still little explored. The present study evaluated the short-term response of gastric and intestinal expression of genes transcribing glucagon-like peptide 1 (GLP-1), glucose-dependent insulinotropic peptide (GIP), tyrosine-tyrosine peptide (PYY), and ghrelin and systemic levels of these hormones after RYGB, as well as their correlation with postoperative glycemic homeostasis. Obese women with T2DM (n = 20) were assessed before and after 3 months of RYGB. All patients were evaluated together and subsequently divided in two subgroups of patients, according the degree of postoperative T2DM remission (partial or complete), following ADA criteria. Biopsies of body and gastric fundus, duodenum, jejunum and ileum were collected by double-balloon enteroscopy for analysis of GCG (precursor of GLP-1), GIP (GIP precursor), PYY (precursor of PYY) and GHRL ghrelin precursor). Gene expression analysis was done by global and target approach, using microarray and RT-qPCR techniques, respectively. Plasmatic concentrations of hormones transcribed by the genes under study were also measured in fasted and after mixed meal test samples, as well as circulating levels of C peptide, glycated hemoglobin (fasting), glucose, insulin and glucagon (fasting and after mixed meal test). This approach allowed the correlation of tissue expression data and circulating levels of GI hormones with systemic markers of glycemic homeostasis. After RYGB, significant changes in GCG, GIP, PYY and GHRL expression were observed along the studied GI segments, in parallel with significant improvement in plasma markers of glycemic homeostasis. In particular, increased GCG expression and decreased GIP expression throughout the small intestine was followed by consistent systemic alterations of its related hormones. These transcriptomic changes are directly (GCG) and inversely (GIP) correlated with insulin and glucose levels and inversely with glycated hemoglobin levels (GCG and GIP). Only GLP-1 was inversely correlated with glycated hemoglobin levels. In addition, regarding the preoperative measurements, patients with complete T2DM remission presented increased GCG in jejunum and ileum, and significant increase in the area under curve of active GLP-1 after RYGB. In the excluded stomach, an increase in GHRL gene expression was recognized, but systemic levels of ghrelin did not changed significantly. According to our data, RYGB altered the expression of genes that transcribe GI hormones related to glycemic homeostasis. These changes were followed by expected modifications of GLP-1 and GIP incretin systemic levels and were correlated with improved glycemic homeostasis markers. Taken together, our results suggest that RYGB can influence glycemic homeostasis by mechanisms that include transcriptomic modification of genes related to gastrointestinal hormones Cirurgia bariátrica Derivação gástrica Diabetes mellitus tipo 2 Expressão gênica Incretinas Trato gastrointestinal Bariatric surgery Gastric bypass Gastrointestinal tract Gene expression Incretin Type 2 diabetes mellitus
26	Obesity alters global response to ischemia and GLP-1 agonism Sassoon, Daniel Jay 13 May 2016 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Glucagon-like peptide 1 (GLP-1) receptor agonists are a class of incretin based therapeutics which aid in blood glucose management in Type II diabetes mellitus (T2DM). Recent studies have demonstrated direct cardiovascular benefits conferred by these agents including protection in ischemia and heart failure. Despite these observations, human clinical trials fail to support improvements in cardiovascular outcomes independent of glucose lowering effects in the T2DM populations. Prior data from our lab demonstrate that obesity impairs GLP-1 associated increases in myocardial glucose uptake. However, the reasons for this impairment/resistance to cardiac effects of GLP-1 in the setting of obesity remain ill defined. This investigation tested the hypothesis that underlying differences in the cardiac proteome and microRNA (miR) transcriptome could contribute to distinct cardiac responses to ischemia and activation of GLP-1 signaling in the setting of obesity. To identify whether obesity modulated cardiac functional responses to GLP 1 related drugs, we first examined the effects of obesity on cardiac function, miR transcriptome, and proteome in response to short duration ischemia-reperfusion (I/R). We observed divergent physiologic responses (e.g. increased diastolic volume and systolic pressure in lean, decreased diastolic volumes in obese) to regional I/R in obese vs lean hearts that were associated with significant molecular changes as detected by protein mass spectrometry and miR microarray. Molecular changes were related to myocardial calcium handling (SERCA2a, histidine-rich Ca2+ binding protein), myocardial structure and function (titin), and miRs relating to cardiac metabolism, hypertrophy, and cell death, including miR-15, miR-30, miR-199a, miR-214. Importantly, these effects were modified differently by GLP-1 agonism in lean vs obese swine. Additional studies investigated the functional effects of 30 days of treatment with the GLP-1 analogue liraglutide on a model of slowly-developing, unrelieved coronary ischemia. Liraglutide failed to reduce infarct size or collagen deposition. However, analysis of left ventricular pressure-volume relationships support that liraglutide improved diastolic relaxation/filling, load-dependent indices of cardiac function, and cardiac efficiency in response to sympathetic stimulation in obese swine. Taken together, these findings support that miR and proteomic differences underlie distinct changes in functional cardiac responses to I/R and pharmacologic activation of GLP-1 signaling in the setting of obesity. microRNA Cardiac Incretin Infarction Obesity Proteome Glucagon-like peptide 1 Gastrointestinal hormones Peptide hormones Blood sugar monitoring Non-insulin-dependent diabetes Obesity Heart -- Metabolism
27	On the Impact of Bariatric Surgery on Glucose Homeostasis Abrahamsson, Niclas January 2016 (has links) Obesity has grown to epidemic proportions, and in lack of efficient life-style and medical treatments, the bariatric surgeries are performed in rising numbers. The most common surgery is the Gastric Bypass (GBP) surgery, with the Biliopancreatic diversion with duodenal switch (DS) as an option for the most extreme cases with a BMI>50 kg/m2. In paper I 20 GBP-patients were examined during the first post-operative year regarding the natriuretic peptide, NT-ProBNP, which is secreted from the cardiac ventricles. Levels of NT-ProBNP quickly increased during the first post-surgery week, and later established itself on a higher level than pre-surgery. In paper II we report of 5 patient-cases after GBP-surgery with severe problems with postprandial hypoglycaemia that were successfully treated with GLP-1-analogs. The effect of treatment could be observed both symptomatically and in some cases using continuous glucose measuring systems (CGMS). In paper III three groups of subjects; 15 post-GBP patients, 15 post-DS, and 15 obese controls were examined for three days using CGMS during everyday life. The post-GBP group had high glucose variability as measured by MAGE and CONGA, whereas the post-DS group had low variability. Both post-operative groups exhibited significant time in hypoglycaemia, about 40 and 80 minutes per day <3.3mmol/l and 20 and 40 minutes < 2.8mmol/l, respectively, longer time for DS-group. Remarkably, only about 20% of these hypoglycaemic episodes were accompanied with symptoms. In Paper IV the hypoglycaemia counter regulatory system was investigated; 12 patients were examined before and after GBP-surgery with a stepped hypoglycaemic hyperinsulinemic clamp. The results show a downregulation of symptoms, counter regulatory hormones (glucagon, cortisol, epinephrine, norepinephrine, growth hormone), incretin hormones (GLP-1 and GIP), and sympathetic nervous response. In conclusion patients post bariatric surgery exhibit a downregulated counter regulatory response to hypoglycaemia, accompanied by frequent asymptomatic hypoglycaemic episodes in everyday life. Patients suffering from severe hypoglycaemic episodes can often be treated successfully with GLP-1-analogues. Hypoglycaemia Gastric Bypass surgery NT-ProBNP GLP-1-analog glucose variability MAGE CONGA counter regulation incretin Heart Rate Variability
28	O efeito pró-apoptótico de oligômeros da amilina humana não é potencializado pela lipotoxicidade em ilhotas pancreáticas de rato em cultura / The pro-apoptotic effect of human amylin oligomers is not potentiated by lipotoxicity in rat pancreatic islets in culture Oliveira, Érika Rodrigues de 25 July 2012 (has links) O depósito de amilina é um achado histopatológico frequente em pacientes portadores de diabetes mellitus tipo 2 (DM 2) e parece estar relacionado à disfunção da célula beta pancreática característica desta doença. Um estudo previamente desenvolvido em nosso laboratório verificou que oligômeros de amilina humana provocam diminuição na expressão do mRNA do gene que codifica o receptor do hormônio incretínico peptídeo insulinotrópico dependente de glicose (Gipr) e aumento do índice de apoptose em ilhotas pancreáticas de rato mantidas em cultura. Considerando o importante papel do depósito amilóide e das incretinas na fisiopatologia do DM 2, os objetivos deste trabalho foram investigar (1) o efeito da amilina humana sobre a expressão dos receptores de incretinas e (2) a modulação de seu efeito tóxico por outras condições concomitantes presentes no DM, como a lipotoxicidade e os produtos finais de glicação avançada (AGEs). Para isto, foi realizada a avaliação da expressão do mRNA dos genes Gipr e Glp1r (receptor do peptídeo semelhante ao glucagon) por PCR em tempo real em ilhotas expostas apenas aos oligômeros de amilina humana (10 M) por 4 e 8 h e em ilhotas expostas aos oligômeros e ao palmitato (0,5 mM) por 24 e 48 h; avaliação da expressão das proteínas GIPR e GLP1R por Western blot em ilhotas tratadas com oligômeros de amilina por 12 h; e avaliação do índice de apoptose pela quantificação da atividade de caspase 3 em ilhotas tratadas com oligômeros de amilina isoladamente, ou na presença de palmitato (0,5mM) por 48 h ou 5 mg/ml de albumina glicada (AlbGAD) por 72 h. A amilina não provocou alteração na expressão dos genes Gipr e Glp1r após 4 h de exposição. Após 8 e 24 h de tratamento, os oligômeros modularam negativamente a expressão destes genes. Entretanto, o tratamento das ilhotas com amilina por 48 h resultou no aumento da expressão do mRNA dos receptores de incretinas. O tratamento simultâneo com palmitato não alterou o efeito modulatório da amilina sobre a expressão dos genes Gipr e Glp1r após 24 e 48 h. A exposição das ilhotas aos oligômeros de amilina por 12 h não causou alteração na expressão das proteínas GIPR e GLP1R. A lipotoxicidade e a albumina glicada não aumentaram o efeito pró-apoptótico da amilina sobre as ilhotas pancreáticas. Em conclusão, a redução na expressão gênica dos receptores de incretinas em ilhotas pancreáticas de rato expostas aos oligômeros de amilina, que poderia indicar um mecanismo adicional pelo qual a amilina exerceria seu efeito deletério sobre células beta, diminuindo o efeito insulinotrópico induzido pelas incretinas em pacientes com DM 2, não foi constatada em relação à expressão protéica de GIPR e GLP1R no período de tempo estudado. O aumento na expressão do mRNA destes receptores provocado pela amilina após 48 horas de incubação poderia ser um mecanismo de compensação das células frente aos efeitos tóxicos dos oligômeros de amilina. O efeito próapoptótico da amilina humana sobre as células beta não parece ser potencializado pela lipotoxicidade ou por AGEs / The amyloid deposit is a common histopathological feature in patients with type 2 diabetes mellitus (T2DM) and it seems to be related to the pancreatic beta cell dysfunction characteristic of this disease. A study previously developed in our laboratory found that human amylin oligomers decrease mRNA expression of the glucose-dependent insulinotropic polypeptide receptor (Gipr) and increase apoptosis rate in rat pancreatic islets maintained in culture. Considering the important role of the amyloid deposition and of incretins in the pathophysiology of T2DM, the aims of the present study were to investigate (1) the effect of human amylin on the expression of incretin receptors and (2) the modulation of amylin toxicity by other concomitant conditions present in T2DM, as lipotoxicity and advanced glycation end products (AGEs). The evaluation of mRNA expression of Gipr and Glp1r (glucagonlike peptide -1 receptor) was performed by real time PCR in islets exposed only to human amylin oligomers (10 M) for 4 and 8 h, and in islets exposed to human amylin and palmitate (0,5 mM) for 24 and 48 h; GIPR and GLP1R protein expression was assessed by Western blot in islets treated with amylin oligomers by 12 h; apoptosis rate was evaluated by measuring caspase 3 activity in islets treated with amylin alone or combined to palmitate (0,5 mM) for 48 h or 5 mg/mL of glycated albumin (AlbGAD) for 72 h. Amylin did not affect the expression of Gipr and Glp1r mRNA following 4 h of exposure. Eight and 24 h after treatment, amylin negatively modulated the expression of these genes. However, treatment of the islets for 48 h with amylin elicited an increase in mRNA expression of both incretin receptors. The simultaneous treatment with palmitate did not change the effects of amylin on the expression of Gipr and Glp1r mRNA after 24 and 48 h. Exposure of islets to amylin for 12 h caused no change in GIPR and GLP1R protein expression. Lipotoxocity and glycated albumin did not increase the pro-apoptotic effect of amylin on pancreatic islets. In conclusion, the reduction in mRNA expression of the incretin receptors on rat pancreatic islets exposed to amylin, which could indicate an additional mechanism whereby amylin exert its deleterious effect on beta cells, reducing the insulinotropic effects of incretins in patients with T2DM was not confirm regarding GIPR and GLP1R protein expression at the time period studied. The increased mRNA expression of these receptors caused by amylin after 48 h of incubation could be a compensation mechanism against the toxic effects of amylin oligomers. The pro-apoptotic effect of amylin on human beta cells does not appear to be potentiated by lipotoxicity or by advanced glycation end products Amilina Amylin Apoptose Apoptosis Diabetes mellitus tipo 2 Glycosylation end products advanced Ilhotas pancreáticas Incretin receptors Islets of langerhans Lipídeos/toxicidade Lipids/toxicity Produtos finais de glicação avançada Receptores de incretinas Type 2 diabetes mellitus
29	O efeito pró-apoptótico de oligômeros da amilina humana não é potencializado pela lipotoxicidade em ilhotas pancreáticas de rato em cultura / The pro-apoptotic effect of human amylin oligomers is not potentiated by lipotoxicity in rat pancreatic islets in culture Érika Rodrigues de Oliveira 25 July 2012 (has links) O depósito de amilina é um achado histopatológico frequente em pacientes portadores de diabetes mellitus tipo 2 (DM 2) e parece estar relacionado à disfunção da célula beta pancreática característica desta doença. Um estudo previamente desenvolvido em nosso laboratório verificou que oligômeros de amilina humana provocam diminuição na expressão do mRNA do gene que codifica o receptor do hormônio incretínico peptídeo insulinotrópico dependente de glicose (Gipr) e aumento do índice de apoptose em ilhotas pancreáticas de rato mantidas em cultura. Considerando o importante papel do depósito amilóide e das incretinas na fisiopatologia do DM 2, os objetivos deste trabalho foram investigar (1) o efeito da amilina humana sobre a expressão dos receptores de incretinas e (2) a modulação de seu efeito tóxico por outras condições concomitantes presentes no DM, como a lipotoxicidade e os produtos finais de glicação avançada (AGEs). Para isto, foi realizada a avaliação da expressão do mRNA dos genes Gipr e Glp1r (receptor do peptídeo semelhante ao glucagon) por PCR em tempo real em ilhotas expostas apenas aos oligômeros de amilina humana (10 M) por 4 e 8 h e em ilhotas expostas aos oligômeros e ao palmitato (0,5 mM) por 24 e 48 h; avaliação da expressão das proteínas GIPR e GLP1R por Western blot em ilhotas tratadas com oligômeros de amilina por 12 h; e avaliação do índice de apoptose pela quantificação da atividade de caspase 3 em ilhotas tratadas com oligômeros de amilina isoladamente, ou na presença de palmitato (0,5mM) por 48 h ou 5 mg/ml de albumina glicada (AlbGAD) por 72 h. A amilina não provocou alteração na expressão dos genes Gipr e Glp1r após 4 h de exposição. Após 8 e 24 h de tratamento, os oligômeros modularam negativamente a expressão destes genes. Entretanto, o tratamento das ilhotas com amilina por 48 h resultou no aumento da expressão do mRNA dos receptores de incretinas. O tratamento simultâneo com palmitato não alterou o efeito modulatório da amilina sobre a expressão dos genes Gipr e Glp1r após 24 e 48 h. A exposição das ilhotas aos oligômeros de amilina por 12 h não causou alteração na expressão das proteínas GIPR e GLP1R. A lipotoxicidade e a albumina glicada não aumentaram o efeito pró-apoptótico da amilina sobre as ilhotas pancreáticas. Em conclusão, a redução na expressão gênica dos receptores de incretinas em ilhotas pancreáticas de rato expostas aos oligômeros de amilina, que poderia indicar um mecanismo adicional pelo qual a amilina exerceria seu efeito deletério sobre células beta, diminuindo o efeito insulinotrópico induzido pelas incretinas em pacientes com DM 2, não foi constatada em relação à expressão protéica de GIPR e GLP1R no período de tempo estudado. O aumento na expressão do mRNA destes receptores provocado pela amilina após 48 horas de incubação poderia ser um mecanismo de compensação das células frente aos efeitos tóxicos dos oligômeros de amilina. O efeito próapoptótico da amilina humana sobre as células beta não parece ser potencializado pela lipotoxicidade ou por AGEs / The amyloid deposit is a common histopathological feature in patients with type 2 diabetes mellitus (T2DM) and it seems to be related to the pancreatic beta cell dysfunction characteristic of this disease. A study previously developed in our laboratory found that human amylin oligomers decrease mRNA expression of the glucose-dependent insulinotropic polypeptide receptor (Gipr) and increase apoptosis rate in rat pancreatic islets maintained in culture. Considering the important role of the amyloid deposition and of incretins in the pathophysiology of T2DM, the aims of the present study were to investigate (1) the effect of human amylin on the expression of incretin receptors and (2) the modulation of amylin toxicity by other concomitant conditions present in T2DM, as lipotoxicity and advanced glycation end products (AGEs). The evaluation of mRNA expression of Gipr and Glp1r (glucagonlike peptide -1 receptor) was performed by real time PCR in islets exposed only to human amylin oligomers (10 M) for 4 and 8 h, and in islets exposed to human amylin and palmitate (0,5 mM) for 24 and 48 h; GIPR and GLP1R protein expression was assessed by Western blot in islets treated with amylin oligomers by 12 h; apoptosis rate was evaluated by measuring caspase 3 activity in islets treated with amylin alone or combined to palmitate (0,5 mM) for 48 h or 5 mg/mL of glycated albumin (AlbGAD) for 72 h. Amylin did not affect the expression of Gipr and Glp1r mRNA following 4 h of exposure. Eight and 24 h after treatment, amylin negatively modulated the expression of these genes. However, treatment of the islets for 48 h with amylin elicited an increase in mRNA expression of both incretin receptors. The simultaneous treatment with palmitate did not change the effects of amylin on the expression of Gipr and Glp1r mRNA after 24 and 48 h. Exposure of islets to amylin for 12 h caused no change in GIPR and GLP1R protein expression. Lipotoxocity and glycated albumin did not increase the pro-apoptotic effect of amylin on pancreatic islets. In conclusion, the reduction in mRNA expression of the incretin receptors on rat pancreatic islets exposed to amylin, which could indicate an additional mechanism whereby amylin exert its deleterious effect on beta cells, reducing the insulinotropic effects of incretins in patients with T2DM was not confirm regarding GIPR and GLP1R protein expression at the time period studied. The increased mRNA expression of these receptors caused by amylin after 48 h of incubation could be a compensation mechanism against the toxic effects of amylin oligomers. The pro-apoptotic effect of amylin on human beta cells does not appear to be potentiated by lipotoxicity or by advanced glycation end products Amilina Apoptose Diabetes mellitus tipo 2 Ilhotas pancreáticas Lipídeos/toxicidade Produtos finais de glicação avançada Receptores de incretinas Amylin Apoptosis Glycosylation end products advanced Incretin receptors Islets of langerhans Lipids/toxicity Type 2 diabetes mellitus
30	Recherche de sécrétagogues naturels du GLP-1 : exploration du potentiel antidiabétique d'espèces du genre Cynanchum (Apocynaceae) / Research for natural GLP-1 secretagogues : exploration of the antidiabetic potential of Cynanchum species (Apocyanceae) Tsoukalas, Michail 14 September 2015 (has links) Dans le cadre de la recherche de composés pouvant stimuler la sécrétion de l’hormone hypoglycémiante GLP-1 (glucagon-like-peptide 1) et sur des critères ethno-pharmacologiques et taxonomiques, différentes Asclepiadoidées ont été criblées sur un modèle cellulaire (lignée STC-1). Cette approche nous a permis de sélectionner deux espèces de Cynanchum malgaches. L’isolement bio-guidé de C. marnierianum a conduit à la purification de 2 nouveaux glycosides prégnaniques, les marnieranosides. L’exploration phytochimique de C. menarandrense a permis l’identification de 5 nouvelles structures prégnaniques et de 2 prégnanes déjà signalés dans un genre taxonomiquement proche et hypoglycémiant : Caralluma. Les prégnanes purifiés ont aussi été évalués pour leur effet sécrétagogue GLP-1 et cytotoxique mais seuls les marnieranosides se sont avérés bioactifs. Des analogies structurales entre les molécules identifiées dans le genre Cynanchum et des molécules bioactives isolées au préalable d’espèces antidiabétiques (genres Hoodia et Caralluma) valident notre stratégie pour la découverte des métabolites secondaires avec un potentiel antidiabétique. / In the framework of our search for antidiabetic compounds capable of stimulating the secretion of the hypoglycemic hormone GLP-1 (glucagon-like-peptide 1), based on ethnopharmacological and taxomic criteria, several Asclepiadoidae plants were screened with an in vitro model (STC-1 cell line). This approach led to the selection of two Malagasy Cynanchum species.Bio-guided fractionation of C. marnierianum led to the purification of two new pregnane glycosides named marnieranosides. The phytochemical study of C. menarandrense led to the identification of 5 new pregnane structures along with 2 pregnanes previously reported in the closely related and hypoglycemic Caralluma genus. The isolated pregnanes were evaluated for their GLP-1 secretagogue and cytotoxic activity but only the marnieranosides were proven bioactive. Structural similarities of the Cynanchum pregnanes with the ones previously isolated from antidiabetic plants (Hoodia and Caralluma), validated our approach for the discovery of secondary metabolites with antidiabetic potential. Asclépiadoidées Cynanchum marnierianum Cynanchum menarandrense Glycosides prégnaniques Diabète de type 2 Incrétine STC-1 P57 Triterpènes Flanoïdes MTT MTS Cytométrie Asclepiadoidae Cynanchum marnierianum Cynanchum menarandrense Pregnane glycosides Type 2 diabetes Incretin STC-1 P57 Triterpenes Flavonoids MTT MTS Cytometry 581 615.32

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