Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0011860 (type 2 diabetes)
57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The desert gerbil Psammomys obesus, an established model of type 2 diabetes (T2D), has previously been shown to lack pancreatic and duodenal homeobox gene 1 (Pdx-1) expression. Pdx-1 deficiency leads to pancreas agenesis in both mice and humans. We have therefore further examined the pancreas of P. obesus during embryonic development. Using Pdx-1 antisera raised against evolutionary conserved epitopes, we failed to detect Pdx-1 immunoreactivity at any time points. However, at E14.5, Nkx6.1 immunoreactivity marks the nuclei of all epithelial cells of the ventral and dorsal pancreatic buds and the only endocrine cell types found at this time point are glucagon and PYY. At E18.5 the pancreas is well branched and both glucagon- and ghrelin-positive cells are scattered or found in clusters, whereas insulin-positive cells are not found. At E22.5, the acini of the exocrine pancreas are starting to mature, and amylase and carboxypeptidase A immunoreactivity is found scattered and not in all acini. Ghrelin-, glucagon-, PYY-, gastrin-, somatostatin (SS)-, pancreatic polypeptide (PP)-, and insulin-immunoreactive cells are found scattered or in small groups within or lining the developing ductal epithelium as marked by cytokeratin 19. Using degenerate PCR, the P. obesus Neurogenin-3 (Ngn-3) gene was cloned. Nucleotide and amino acid sequences show high homology with known Ngn-3 sequences. Using specific antiserum, we can observe that Ngn-3-immunoreactive cells are rare at E14.5 but readily detectable at E18.5 and E22.5. In conclusion, despite the lack of detection of Pdx-1, the P. obesus pancreas develops similarly to Muridae species, and the Ngn-3 sequence and expression pattern is highly conserved in P. obesus.
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PMID:Developmental biology of the Psammomys obesus pancreas: cloning and expression of the Neurogenin-3 gene. 1698 47

The gastric hormone ghrelin and its receptor, growth hormone secretagogue receptor (GHSR), are expressed in pancreas. Here, we report that ghrelin is released from pancreatic islets to regulate glucose-induced insulin release. Plasma concentrations of ghrelin, as well as insulin, were higher in pancreatic veins than in arteries. GHSR antagonist and immunoneutralization of endogenous ghrelin enhanced glucose-induced insulin release from perfused pancreas, whereas exogenous ghrelin suppressed it. GHSR antagonist increased plasma insulin levels in gastrectomized and normal rats to a similar extent. Ghrelin knockout mice displayed enhanced glucose-induced insulin release from isolated islets, whereas islet density, size, insulin content, and insulin mRNA levels were unaltered. Glucose tolerance tests (GTTs) in ghrelin knockout mice showed increased insulin and decreased glucose responses. Treatment with high-fat diet produced glucose intolerance in GTTs in wild-type mice. In ghrelin knockout mice, the high-fat diet-induced glucose intolerance was largely prevented, whereas insulin responses to GTTs were markedly enhanced. These findings demonstrate that ghrelin originating from pancreatic islets is a physiological regulator of glucose-induced insulin release. Antagonism of the ghrelin function can enhance insulin release to meet increased demand for insulin in high-fat diet-induced obesity and thereby normalize glycemic control, which may provide a potential therapeutic application to counteract the progression of type 2 diabetes.
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PMID:Blockade of pancreatic islet-derived ghrelin enhances insulin secretion to prevent high-fat diet-induced glucose intolerance. 1713 Apr 96

Ghrelin is a potent orexigenic and adipogenic hormone that strongly influences fat deposition and the generation of hunger in obesity. Indeed, hyperghrelinemia appears to promote an increase in food intake as seen in Prader-Willi Syndrome (PWS). Exendin (Ex)-4 is an agonist of the glucagon-like peptide (GLP)-1 receptor (GLP-1r) that has anorexigenic and fat-reducing properties. Here, we report that Ex-4 reduces the levels of ghrelin by up to 74% in fasted rats. These effects are dose dependent and long lasting (up to 8 h), and they can be detected after both central and peripheral administration of Ex-4. Suppression of ghrelin was neither mimicked by GLP-1(7-36)-NH(2) nor blocked by the GLP-1r antagonist Ex-(9-39). Moreover, it was independent of the levels of leptin and insulin. The decrease in ghrelin levels induced by Ex-4 may explain the reduced food intake in fasted rats, justifying the more potent anorexigenic effects of Ex-4 when compared with GLP-1. As well as the potential benefits of Ex-4 in type 2 diabetes, the potent effects of Ex-4 on ghrelin make it tempting to speculate that Ex-4 could offer a therapeutic option for PWS and other syndromes characterized by substantial amounts of circulating ghrelin.
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PMID:Exendin-4 potently decreases ghrelin levels in fasting rats. 1719 76

Lipid-lowering therapy is associated with reduced cardiovascular risk. The aim of the present study was to investigate whether lipid-lowering therapy might be associated with changes in the concentrations of metabolically important hormone concentrations. We performed a randomised cross-over open-label trial with atorvastatin (10 mg/day) and fenofibrate (200 mg/day), each for 6 weeks separated by a 6-week washout period in 13 patients (5 men, 8 women, age 60.0+/-6.8 years, body mass index 30.0+/-3.0 kg/m2) with type 2 diabetes mellitus and mixed hyperlipoproteinaemia. Plasma ghrelin (RIA, Phoenix Pharmaceuticals, Mountain View, CA, USA), adiponectin (ELISA, Biovendor, Heidelberg, Germany) as well as resistin (ELISA, Linco Research, St. Charles, MO, USA) concentrations were measured before and after atorvastatin as well as before and after fenofibrate. Ghrelin (462+/-84 pg/ml before vs. 464+/-102 pg/ml after atorvastatin, n.s.; 454+/-85 pg/ml before vs. 529+/-266 pg/ml after fenofibrate, n.s.), resistin (24.4+/-7.4 pg/ml before vs. 23.7+/-9.1 pg/ml after atorvastatin, n.s.; 23.4+/-8.2 pg/ml before vs. 19.9+/-5.5 pg/ml after fenofibrate, n.s.), adiponectin (10.89+/-5.33 pg/ml before vs. 12.41+/-5.75 pg/ml after atorvastatin, n.s.; 12.58+/-9.87 pg/ml before vs. 10.27+/-5.23 pg/ml after fenofibrate, n.s.) and insulin levels did not change significantly during lipid-lowering therapy. In patients with type 2 diabetes and mixed hyperlipoproteinaemia, short-term atorvastatin as well as fenofibrate therapy had no significant effects on adiponectin, ghrelin or resistin levels.
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PMID:Short-term therapy with atorvastatin or fenofibrate does not affect plasma ghrelin, resistin or adiponectin levels in type 2 diabetic patients with mixed hyperlipoproteinaemia. 1753 Apr 69

Insulin release from pancreatic islet beta-cells is stimulated by glucose. Glucose-induced insulin release is potentiated or suppressed by hormones and neural substances. Ghrelin, a novel acylated 28-amino acid peptide isolated from stomach, is the endogenous ligand for the growth hormone (GH) secretagogue-receptor (GHS-R). Circulating ghrelin is produced predominantly in stomach. Ghrelin is a potent stimulator of GH release and feeding as well as exhibiting positive cardiovascular effects. In relation to the glucose metabolism, initial studies indicated that low plasma ghrelin levels are associated with elevated fasting insulin levels, insulin resistance, and obesity. It has recently been demonstrated that ghrelin suppresses glucose-induced insulin release via G alpha(i2) subtype of GTP-binding proteins and delayed outward K(+) (Kv) channels, representing a novel signaling mechanism, and that the ghrelin originating from islets regulates insulin release and thereby glycemia. Furthermore, elimination of ghrelin enhances insulin release to prevent or ameliorate glucose intolerance in high-fat diet fed mice and ob/ob mice. This review focuses on the physiological roles of ghrelin in regulating insulin release and glycemia, the insulinostatic mechanisms of ghrelin in islet beta-cells, and the potential of ghrelin-GHS-R system as the therapeutic target to treat type 2 diabetes.
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PMID:Ghrelin regulates insulin release and glycemia: physiological role and therapeutic potential. 1822 Jun 91

The various hormones, proteins and other compounds related to developing obesity, insulin resistance and type 2 diabetes are analyzed in the paper. 1) Leptin, ciliary neurutrophic factor, adiponectin, glucagon-like peptide 1, peptide YY, neuromedin S, as well as the protein receptors of these hormones decrease the food consumption, increase the energy turnover, and prevent obesity, insulin resistance, and type 2 diabetes development. The mediators of these hormone and receptor actions are melanocyte stimulating hormone (MSH), corticotropin-releasing hormone (CRH), and the others. 2) Ghrelin, endogenose cannabinoides, galanin-like peptide and the mediators of their actions: neuropeptide Y (NPY) and Agouti gene related protein (AGRP) increase the appetite and food consumption. Peroxisome proliferation-activated receptor (PPAR) performs the similar action on food intake. The activation of the first group compound functioning decreases the obesity, increases the energy turnover, facilitates the insulin action and prevents the insulin resistance and type 2 diabetes. Increasing the activities of the second group, as well as, decreasing the actions of the first one of substances induce the opposite effects and facilitate obesity, insulin resistance, and type 2 diabetes developments. The interconnections of the molecular mechanisms of so many hormone actions make the very complicated tusk to study the various endocrine disorders including diabetes mellitus as well.
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PMID:[The interconnections of molecular mechanisms of hormone actions and their role in pathogenesis of obesity, insulin resistance, and diabetes mellitus]. 1842 6

Ghrelin, an acylated 28-amino acid peptide, was isolated from the stomach as the endogenous ligand for the growth hormone (GH) secretagogue receptor (GHS-R). Circulating ghrelin is produced predominantly in the oxyntic mucosa of stomach. Ghrelin potently stimulates GH release and feeding, and exhibits positive cardiovascular effects, suggesting a possible clinical application. Low plasma ghrelin levels are associated with elevated fasting insulin levels and insulin resistance, suggesting both physiological and pathophysiological roles for ghrelin in glucose metabolism. Here, we review the physiological role of ghrelin in the regulation of insulin release and glucose metabolism, and a potential therapeutic avenue to treat type 2 diabetes by manipulating ghrelin and/or its signaling. Ghrelin inhibits insulin release in mice, rats and humans. The signal transduction mechanisms of ghrelin in islet beta-cells are distinct from those utilized in GH-releasing and/or GHS-R-expressing cells. Ghrelin is expressed in pancreatic islets and released into pancreatic microcirculations. Pharmacological and genetic blockades of islet-derived ghrelin markedly augment glucose-induced insulin release in vitro. In high-fat diet-induced mildly obese mice, ghrelin-deficiency enhances insulin release and prevents impaired glucose tolerance. Thus, manipulation of insulinostatic function of ghrelin--GHS-R system, particularly that in islets, could optimize the amount of insulin release to meet the systemic demand, providing a potential therapeutic application to prevent type 2 diabetes.
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PMID:Ghrelin is a physiological regulator of insulin release in pancreatic islets and glucose homeostasis. 1843 74

Effects of glucomannan as a supplementary treatment in type 2 diabetes mellitus were investigated by measuring ghrelin, leptin and insulin responses to OGTT. Glucomannan enhanced prandial ghrelin reduction when given before glucose load and impeded the rise of fasting ghrelin after 4-week supplement. Ghrelin-induced feeding may be attenuated by glucomannan.
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PMID:Immediate and long-term effects of glucomannan on total ghrelin and leptin in type 2 diabetes mellitus. 1910 25

Ghrelin, a potent gut-brain orexigenic peptide, has a role in stimulation of food intake and long-term regulation of body weight. Metformin and pioglitazone treatment have different effects on body weight. This discrepancy might be related with the effect of these two drugs on plasma ghrelin levels. We investigated the effect of these two drugs on post-prandial acylated and total ghrelin levels in patients with type 2 diabetes. Eleven patients treated with diet, 12 patients treated with 850 mg/day metformin monotherapy and 12 patients treated with 30 mg/day pioglitazone monotherapy for at least 6 months were enrolled in the study. Plasma acylated and total ghrelin levels were investigated at baseline and at the 60 (th), 120 (th), 180 (th), 240 (th) minutes after a mixed meal test. There were no differences between groups in any of baseline metabolic and anthropometric parameters, including acylated and total ghrelin levels. Acylated and total ghrelin concentrations were suppressed similarly after food consumption, and we could not determine any significant difference between the groups at any time interval. A prolonged postprandial suppression of acylated ghrelin concentrations was observed in the pioglitazone treatment group compared with baseline values. In conclusion, total and acylated ghrelin levels after a mixed meal test were similar in type 2 diabetic patients treated with metformin, pioglitazone or diet therapy alone. These results suggest that changes in body weight during metformin and pioglitazone treatment are not associated with plasma ghrelin levels.
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PMID:Total and acylated ghrelin levels in type 2 diabetic patients: similar levels observed after treatment with metformin, pioglitazone or diet therapy. 1962 33

Lipotoxicity plays an important role in underlying mechanism of type 2 diabetes. Prolonged exposure of pancreatic beta-cells to elevated levels of fatty acid is associated with beta-cell apoptosis. Ghrelin is a 28-amino acid peptide, mainly secreted from X/A like cells of gastric fungus. The effects of ghrelin are considered to be broadly including cell protection. However, the mechanism of ghrelin protecting pancreatic beta-cells against lipotoxicity is unknown. Our study showed that ghrelin promoted cell survival and attenuated palmitate-induced apoptosis in pancreatic beta-cells (MIN6). Exposure of MIN6 cells to palmitate (0.4mM) for 24h caused a significant increase in cell apoptosis, which could be protected by ghrelin. Exposure of MIN6 cells to ghrelin caused a rapid activation of protein kinase B (PKB) and inhibition of c-Jun N-terminal kinase (JNK) under lipotoxic state. Furthermore, LY294002, a PI3K inhibitor, abolished the anti-lipotoxic effect of ghrelin, as well as ghrelin-induced inhibition of JNK, while JNK inhibitor, SP600125 enhanced protective effect of ghrelin on MIN6 cells. Ghrelin also inhibited the mitochondrial pathway of apoptosis and it down-regulated Bax in MIN6 cells. For secretion experiment, ghrelin suppressed insulin release under palmitate-incubated state. Our findings suggest that ghrelin may prevent lipotoxicity-induced apoptosis in MIN6 cells through activation of PKB, inhibition of JNK and mitochondrial pathway.
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PMID:Ghrelin inhibits cell apoptosis induced by lipotoxicity in pancreatic beta-cell line. 2007 80


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