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: UNIPROT:P01275 (glucagon)
26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glucagon-like peptide-1 (7-36) amide (GLP-1), in addition to its well known effect of enhancing glucose-mediated insulin release, has been shown to have insulinomimetic effects and to enhance insulin-mediated glucose uptake and lipid synthesis in 3T3-L1 adipocytes. To elucidate the mechanisms of GLP-1 action in these cells, we studied the signal transduction and peptide specificity of the GLP-1 response. In 3T3-L1 adipocytes, GLP-1 caused a decrease in intracellular cAMP levels which is the opposite to the response observed in pancreatic beta cells in response to the same peptide. In 3T3-L1 adipocytes, free intracellular calcium was not modified by GLP-1. Peptide specificity was examined to help determine if a different GLP receptor isoform was expressed in 3T3-L1 adipocytes vs. beta cells. Peptides with partial homology to GLP-1 such as GLP-2, GLP-1 (1-36), and glucagon all lowered cAMP levels in 3T3-L1 adipocytes. In addition, an antagonist of pancreatic GLP-1 receptor, exendin-4 (9-39), acted as an agonist to decrease cAMP levels in 3T3-L1 adipocytes as did exendin-4 (1-39), a known agonist for the pancreatic GLP-1 receptor. Binding studies using 125I-GLP-1 also suggest that pancreatic GLP-1 receptor isoform is not responsible for the effect of GLP-1 and related peptides in 3T3-L1 adipocytes. Based on these results, we propose that the major form of the GLP receptor in 3T3-L1 adipocytes is functionally different from the pancreatic GLP-1 receptor.
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PMID:Novel signal transduction and peptide specificity of glucagon-like peptide receptor in 3T3-L1 adipocytes. 928 47

The whole-cell patch-clamp method was used to examine the effect of glucagon-like peptide I (GLP-I)(7-36) amide on the activation process of L-type Ca2+ channels of rat pancreatic beta-cells. After depolarization, GLP-I (1-100 nmol/l) caused action potentials in cells exposed to a glucose-free solution for 10 min. The percentage of cells producing action potential depended on the concentration of GLP-I. In some cells, GLP-I caused action potentials without the prior depolarization of the membrane. In cells exposed to the glucose-free solution for longer than 30 min, or in cells that were deprived of ATP by a means of the conventional whole-cell configuration, GLP-I (20 nmol/l) did not cause the electrical excitation. Application of GLP-I augmented the maximum Ba2+ current (IBa) through L-type Ca2+ channels and shifted the current voltage curve to the left. Values of changes in the maximum IBa depended on GLP-I concentration. Application of dibutyryl cAMP (dbcAMP, 1 mmol/l) also augmented IBa. In cells pretreated with Rp-cAMP, dbcAMP did not change the magnitude of IBa. Also in cells pretreated with Rp-cAMP, GLP-I failed to augment IBa. These results suggest that in pancreatic beta-cells, GLP-I, by a cAMP-dependent mechanism, increases opening of L-type Ca2+ channels. cAMP-dependent augmentation of Ca2+ entry as well as cAMP production itself by GLP-I plays a crucial role in controlling insulin secretion.
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PMID:GLP-I(7-36) amide augments Ba2+ current through L-type Ca2+ channel of rat pancreatic beta-cell in a cAMP-dependent manner. 935 22

Glucagon-like peptide 1 (GLP-1) has been shown to inhibit gastric emptying of liquid meals in type 2 diabetic patients. It was the aim of the present study to compare the action of physiological and pharmacological doses of intravenous GLP-1-(7-36) amide and GLP-1-(7-37) on gastric emptying in normal volunteers. Nine healthy subjects participated (26 +/- 3 yr; body mass index 22.9 +/- 1.6 kg/m2; hemoglobin A1C 5.0 +/- 0.2%) in five experiments on separate occasions after an overnight fast. A nasogastric tube was positioned for the determination of gastric volume by use of a dye-dilution technique (phenol red). GLP-1-(7-36) amide (0.4, 0.8, or 1.2 pmol.kg-1.min-1), GLP-1-(7-37) (1.2 pmol.kg-1.min-1), or placebo was infused intravenously from -30 to 240 min. A liquid meal (50 g sucrose, 8% amino acids, 440 ml, 327 kcal) was administered at 0 min. Glucose, insulin, and C-peptide were measured over 240 min. Gastric emptying was dose dependently slowed by GLP-1-(7-36) amide (P < 0.0001). Effects of GLP-1-(7-37) at 1.2 pmol.kg-1.min-1 were virtually identical. GLP.1 dose dependently stimulated fasting insulin secretion (-30 to 0 min) and slightly reduced glucose concentrations. After the meal (0-240 min), integrated incremental glucose (P < 0.0001) and insulin responses (P = 0.01) were reduced (dose dependently) rather than enhanced. In conclusion, 1) GLP-1-(7-36) amide or -(7-37) inhibits gastric emptying also in normal subjects, 2) physiological doses (0.4 pmol.kg-1.min-1) still have a significant effect, 3) despite the known insulinotropic actions of GLP-1-(7-36) amide and -(7-37), the net effect of administering GLP-1 with a meal is no change or a reduction in meal-related insulin responses. These findings suggest a primarily inhibitory function for GLP-1 (ileal brake mechanisms).
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PMID:Glucagon-like peptide 1 inhibition of gastric emptying outweighs its insulinotropic effects in healthy humans. 937 85

Glucagon-like peptide I (GLP-I) stimulates glucose-dependent insulin secretion and inhibits food intake in the central nervous system. Because leptin reduces food intake but inhibits insulin secretion, we examined leptin action in mice with a null mutation in the GLP-I receptor. Intracerebroventricular leptin administration inhibited food intake in both wild-type and GLP-I receptor (GLP-IR) -/- mice, and daily intraperitoneal administration of leptin for 2 weeks produced comparable reductions in food intake and body weight in control and GLP-IR -/- mice. Glucose tolerance was improved in both wild-type and GLP-IR -/- mice, whether pair fed or leptin treated; however, blood sugars were significantly lower in the leptin-treated GLP-IR -/- mice following oral glucose challenge (P < 0.01). Glucose-stimulated insulin was reduced in both pair-fed and leptin-treated mice (P < 0.01-0.001); however, insulin levels were significantly lower in leptin-treated versus pair-fed GLP-IR -/- mice (P < 0.01). A single leptin injection had no effect on glucose tolerance in GLP-IR -/- mice, but decreased hepatic PEPCK mRNA in both wild-type and GLP-IR -/- mice. The improvement in blood glucose excursion, despite lower levels of glucose-stimulated insulin in lean leptin-treated GLP-IR -/- mice, suggests that leptin may have beneficial effects on control of blood glucose in the absence of obesity. Furthermore, the greater effects of leptin on glucose and insulin in leptin-treated versus pair-fed GLP-IR -/- mice raises the possibility that disruption of GLP-I signaling modifies the sensitivity to leptin in vivo.
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PMID:Leptin sensitivity in nonobese glucagon-like peptide I receptor -/- mice. 939 91

Basic research on the cellular mechanisms that control the expression of the gene encoding glucagon has led to the discovery of proglucagon. This precursor is processed by tissue-specific proteolysis to produce glucagon in pancreatic alpha-cells and a glucagon-like peptide-1 (GLP-1) in the intestine. GLP-1 is a hormone that is released by intestinal cells into the circulation in response to food intake. GLP-1 and gastric inhibitory peptide (GIP) which has also been termed glucose-dependent insulinotropic peptide appear to account for most of the incretin effect in the augmentation of glucose-stimulated insulin secretion. These two hormones have specific beta-cell receptors that are coupled to GTP binding proteins to induce production of cyclic AMP and activation of cyclic AMP-dependent protein kinase. It is proposed that at least one factor contributing to the pathogenesis of non-insulin-dependent diabetes mellitus (NIDDM) is desensitization of the GLP-1 receptor on beta-cells. At pharmacological doses, infusion of GLP-1, but not of GLP, can improve and enhance postprandial insulin response in NIDDM patients. Agonists of GLP-1 receptor have been proposed as new potential therapeutic agents in NIDDM patients. The observations that GLP-1 induces both secretion and production of insulin, and that its activities are mainly glucose-dependent, led to the suggestion that GLP-1 may present a unique advantage over sulfonylurea drugs in the treatment of NIDDM.
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PMID:Glucagon-like peptide-1 structure, function and potential use for NIDDM. 939 46

The identification and distribution of endocrine cells within the gastro-entero-pancreatic (GEP) system of five species of the Osteoglossomorpha (Osteoglossum bicirrhosum, Scleropages jardini, Pantodon buchholzi, Notopterus chitala and Gnathonemus petersii) were analyzed by immunohistochemistry. Four immunoreactive cell types were identified within the pancreatic islets (A, B, D, and F cells), using antisera directed against mammalian insulin (m-INS), somatostatins (SST-14, SST-25), and members of the pancreatic polypeptide (aPY, NPY, PYY) and glucagon (GLU, GLP) families. The B cells were located throughout the center of the islets in the five species and, in general, D cells had a similar distribution. However, immunoreactivity to anti-somatostatins varied between four of the species and G. petersii, which showed less intensely stained D cells in the islets, but greater SST immunoreactivity in both the intestinal and the stomach epithelia than in comparable epithelia of other species. For peptides of both the pancreatic polypeptide and the glucagon families, the immunoreactivity was detected at the periphery of the islets, and there was a suggestion of an interfamily colocalization of peptides in some cells. In addition, glucagon family peptides showed a scattered immunoreactivity throughout the central portion of the islets. A moderately abundant number of cells in the intestine were immunoreactive to the PP family antisera in all five species. However, immunoreactivities to GLU, GLP, SST, and m-INS antisera were variable in intestinal cells of the species. Immunoreactivity with sera raised against m-INS and PYY was also observed in the stomach of P. buchholzi. The significance of these findings is discussed in both ontogenetic and phylogenetic contexts with respect to the GEP system in actinopterygian fishes and with respect to the possibility of variable processing of prohormones in the different organs of these osteoglossomorphs.
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PMID:Immunohistochemical studies of the endocrine cells within the gastro-entero-pancreatic system of Osteoglossomorpha, an ancient teleostean group. 957 Sep 33

Plasma concentrations of glucagon-like peptide-1(7-36)amide (GLP) and gastric inhibitory polypeptide (GIP) were determined at fortnightly intervals for over a year throughout the pregnancy-lactation cycle of goats. Both GIP and GLP concentrations were elevated during lactation and fell rapidly when milk secretion was terminated. At the onset of lactation GLP concentrations rose rapidly whereas GIP concentrations showed a delayed response. GLP concentrations remained high throughout lactation but those of GIP declined linearly as milk yields fell. Serum insulin concentrations correlated positively with plasma glucose concentrations but not with either GIP or GLP concentrations. Negative correlations were found between serum insulin concentrations and milk yield and plasma non-esterified fatty acid concentrations. The results are consistent with plasma GIP and GLP concentrations being determined by other factors in addition to nutrient intake and absorption. Changes in GIP concentrations mirrored reported changes in the hypertrophy and atrophy of the intestine in ruminants while GLP concentrations may be more dependent on the neural and endocrine factors associated with lactation. The elevated concentrations of both peptides indicated a specific role in lactation independent of their normal anabolic and insulinotropic effects.
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PMID:Changes in the concentrations of glucagon-like peptide-1(7-36)amide and gastric inhibitory polypeptide during the lactation cycle in goats. 971 96

Glucagon-like peptide-I (GLP-I) is a potent insulinotropic incretin hormone. Since the insulinotropic action of GLP-I is preserved in patients with diabetes mellitus, the peptide is now tested as new therapeutic agent for the treatment of diabetes. The number of GLP-I receptors present on B cells is regulated by several signal transduction pathways. In this study, we generated several Chinese hamster ovary (CHL) cell lines stably expressing different numbers of GLP-I receptors. The effects on binding properties and signal transduction were characterized. The lowest number of receptors was 1,791 per cell; the highest was 378,720 per cell. A comparable affinity against GLP-I was obtained with all clones. The three clones with the lowest numbers of receptors (1,791, 4,371, and 5,633 per cell) did not show any cyclic AMP (cAMP) generation in response to GLP-I (1 pM-1 microM). Cells expressing 13,175, 41,872, 271,003, and 378,720 receptors, respectively, increased cAMP concentration-dependently after GLP-I. The cell line with the highest number of receptors had the maximal response (352% of controls) but a dramatically reduced EC50 (100 nM, compared to 8 and 7 nM). All cell lines showed an identical cAMP response to 1 and 10 microM forskolin. These data demonstrate that a minimum number of GLP-I receptors is required for signal transduction. The GLP-I receptor is desensitized when expressed in high numbers on the cells. In this case, the signal transduction properties remain unchanged.
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PMID:High-level expression of the GLP-I receptor results in receptor desensitization. 978 47

As a therapeutic principle, the insulinotropic peptide, GLP-1, of the secretin-glucagon family of peptides, has turned out to possess some remarkably attractive properties, including the capability of normalizing blood glucose concentrations in patients with non-insulin-dependent diabetes mellitus and promoting satiety and reducing food intake in healthy volunteers. Because of rapid and extensive metabolization, the peptide is not immediately clinically applicable and, as a therapeutic principle, GLP-1 is still in its infancy. Some possible avenues for circumventing these difficulties are the development of DPP-IV-resistant analogs, the inhibition of DPP-IV, enhancement of GLP-1 secretion, GLP delivery systems using continuous subcutaneous infusion or buccal tablets, GLP-1 absorption, and orally active, stable analogs. It seems likely that one or more of these approaches could result in a clinically useful development program.
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PMID:On the treatment of diabetes mellitus with glucagon-like peptide-1. 992 27

The incretins glucose-dependent insulinotropic polypeptide (GIP1-42) and truncated forms of glucagon-like peptide-1 (GLP-1) are hormones released from the gut in response to ingested nutrients, which act on the pancreas to potentiate glucose-induced insulin secretion. These hormones are rapidly inactivated by the circulating enzyme dipeptidyl peptidase IV ([DPIV] CD26). This study describes the effect on glucose tolerance and insulin secretion of inhibiting endogenous DPIV in the rat using Ile-thiazolidide, a specific DPIV inhibitor. High-performance liquid chromatography (HPLC) analysis of plasma following in vivo administration of 125I-labeled peptides showed that inhibition of DPIV by about 70% prevented the degradation of 90.0% of injected 125I-GLP-17-36 after 5 minutes, while only 13.4% remained unhydrolyzed in rats not treated with the DPIV-inhibiting agent after only 2 minutes. Ile-thiazolidide treatment also increased the circulating half-life of intact GLP-17-36 released in response to intraduodenal (ID) glucose (as measured by N-terminal specific radioimmunoassay [RIA]). In addition, inhibition of DPIV in vivo resulted in an earlier increase and peak of plasma insulin and a more rapid clearance of blood glucose in response to ID glucose challenge. When considered with the HPLC data, these results suggest that the altered insulin profile is an incretin-mediated response. DPIV inhibition resulting in improved glucose tolerance may have therapeutic potential for the management of type 2 diabetes mellitus.
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PMID:Improved glucose tolerance in rats treated with the dipeptidyl peptidase IV (CD26) inhibitor Ile-thiazolidide. 1009 18


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