UNIPROT:P01275 - FACTA Search

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

This study examines the immediate effect of modulating postprandial insulin and insulinotropic hormone (glucose-dependent insulinotropic polypeptide, GIP; glucagon-like peptide-1, GLP-1) secretion on the activation of lipoprotein lipase (LPL) in six lean and six obese age-matched women. Subjects were given, on two separate occasions, 340 kcal of carbohydrate alone or combined with an IV infusion of octreotide, (100 microg infusion from 30 min before the meal for 150 min). Post-heparin LPL activity (10,000 U) was measured on each occasion 120 minutes post-carbohydrate. Following oral carbohydrate postprandial plasma insulin levels were significantly higher in obese subjects than in lean (p < 0.01). Glucose tolerance was slightly impaired in obese subjects. Insulin, GIP and GLP-1 secretion post-carbohydrate was markedly reduced by octreotide in lean and obese subjects. LPL activity was similar in the two groups after carbohydrate administration and was unaffected by octreotide. Inhibition of postprandial insulin, GIP and GLP-1 secretion acutely did not reduce post-heparin LPL activity either in lean or obese subjects.
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PMID:Inhibition of insulin, glucose-dependent insulinotropic polypeptide (GIP) and glucagon-like peptide-1 (GLP-1) secretion by octreotide has no effect on post-heparin plasma lipoprotein lipase activity. 1033 81

The post-prandial release of glucagon-like peptide-1 (GLP-1) from the distal gut appears to involve a neural reflex that arises from the proximal gut. The neuropeptide calcitonin gene-related peptide (CGRP)'s potent stimulatory effect on GLP-1 release was characterized, using the isolated vascularly perfused rat ileum. CGRP, but not its homolog amylin, induced a dose-dependent and sustained release of GLP-1. This effect was greatly reduced in the presence of CGRP(8-37), was abolished by galanin, potentiated by luminal glucose and unaffected by atropine. GIP enhanced, but did not potentiate, this effect. The results reveal how CGRP is involved in the complex regulation of GLP-1 release.
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PMID:Calcitonin gene-related peptide potently stimulates glucagon-like peptide-1 release in the isolated perfused rat ileum. 1079 28

Several factors are determinant for postprandial blood glucose. Knowing and analysing these factors will help to optimize diabetes management. First, meal introduces the concept of food glycemic index. Blood glucose peak following a meal is modulated by gut hormones incretin effect, essentially GIP and GLP1. At the hepatic level, 30% of absorbed glucose is extracted by the liver which reduces its endogenous production in parallel. A reduction in hepatic glucose production blockade--through an excess in glucagon or free fatty acids in portal flow--will result in postprandial hyperglycemia. Finally, insulin secretion pattern is less influent than the hepatic insulin resistant state itself in determining this hyperglycemia.
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PMID:[Physiopathology of postprandial hyperglycemia]. 1097 43

Post-prandial hyperglycemia (PPHG) is an independent risk factor for the development of macrovascular complications. It is now recognized that normalizing post-prandial blood glucose is more difficult than normalizing fasting glucose. Many factors affect the post-prandial blood glucose excursion. The glycemic index of the meal depends on the nature of the ingested food and starch composition. Gastric emptying is influenced by various factors including gut hormones such as GIP and GLP1, which potentiate insulin secretion, especially in its acute first phase, now referred to as an incretin effect. They also modulate glucagon secretion. Post-prandial hyperglycemia is limited by uptake of glucose by the liver and by inhibition of endogenous glucose production in this organ. In healthy controls, hepatic glucose production is halved after a meal, whereas in glucose-intolerant individuals and type 2 diabetics this inhibition is impaired (20-30% versus 50%). The persistence of endogenous glucose production during the post-prandial phase appears to be the main culprit in the PPHG. This reduced decrease in endogenous glucose in glucose intolerant and type 2 diabetic patients depends not only on the first acute phase of insulin secretion, but above all on the non-suppressed glucagon level during the post-prandial phase. Glucagon levels fall in healthy control subjects during the post-prandial phase. Although peripheral glucose uptake by insulin-dependent tissues is altered in type 2 diabetic patients, it does not appear to be the major cause of the PPHG as there are patients with insulin resistance but without post-prandial hyperglycemia.
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PMID:Post-prandial hyperglycemia. post-prandial hyperglycemia and diabetes. 1101 Dec 18

Diets enriched in monounsaturated fatty acids (MUFA)s have been shown to benefit glycemic control. Furthermore, MUFAs specifically stimulate secretion of the antidiabetic hormone, Glucagon-like peptide-1 (GLP-1) in vitro. To determine whether the MUFA-induced benefit in glycemic tolerance in vivo is due to increased GLP-1 release, lean Zucker rats were pair-fed a synthetic diet containing 5% fat derived from either olive oil (OO; 74% MUFA) or coconut oil (CO; 87% saturated fatty acids; SFA) for 2 weeks. Food intake and body weight gain were similar for both groups over the feeding period. The OO group had improved glycemic tolerance compared with the CO group in both oral and duodenal glucose tolerance tests [area under curve (AUC) 121 +/- 61 vs. 290 +/- 24 mM.120 min, P < 0.05; and 112 +/- 28 vs. 266 +/- 65 mM.120 min, P < 0.05, respectively]. This was accompanied by increased secretion of gut glucagon-like immunoreactivity (gGLI; an index of GLP-1 levels) in the OO rats compared with the CO rats (402 +/- 96 vs. 229 +/- 33 pg/ml at t = 10 min, P < 0.05). Tissue levels of GLP-1 and plasma insulin and glucagon levels were not different between the two groups. To determine the total contribution of GLP-1 to the enhanced glycemic tolerance in OO rats, the GLP-1 receptor antagonist exendin(9-39) (Ex(9-39)) was infused 3 min before a duodenal glucose tolerance test. Ex(9-39) abolished the benefit in glycemic tolerance conferred by OO feeding (OO+Ex(9-39) vs. CO+Ex(9-39), P = NS), and resulted in a deterioration of glycemic tolerance in the OO+Ex(9-39) group when compared with the OO controls (AUC 331 +/- 21 vs. 112 +/- 28 mM.120 min, P < 0.05). To probe the mechanism by which the OO diet enhanced GLP-1 secretion, a GLP-1-secreting L cell line was incubated for 24 h with either 100 microM oleic acid (MUFA) or 100 microM palmitic acid (SFA) and subsequently challenged with GIP, a known stimulator of the L cell. Preexposure to oleic acid but not to palmitic acid significantly increased GIP-induced GLP-1 secretion when compared with controls (55 +/- 12% vs. 34 +/- 9%, P < 0.01). These results demonstrate that the benefit in glycemic tolerance obtained with MUFA diets occurs in association with increased GLP-1 secretion, through a mechanism of enhanced L cell sensitivity. These results suggest that diet therapy with MUFAs may be useful for the treatment of patients with impaired glucose tolerance and/or type 2 diabetes through increased GLP-1 secretion.
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PMID:Monounsaturated fatty acid diets improve glycemic tolerance through increased secretion of glucagon-like peptide-1. 1118 30

Rapid gastric emptying and exaggerated plasma concentrations of the insulinotropic hormone GLP-1 precede reactive hypoglycemia after oral glucose in gastrectomy patients. We suspected that the plasma volume drop associated with rapid gastric emptying (early dumping) would be accompanied by elevated plasma concentrations of norepinephrine. In order to study any relationship between postprandial norepinephrine, the enteroinsular axis, and plasma glucose, twelve patients with dumping syndrome and nine controls were studied. The plasma concentrations of norepinephrine, GLP-1, GIP, glucagon, insulin, and glucose were measured following a 1.5 g/kg lean body mass glucose meal. The early (0-30 min) integrated norepinephrine concentration was significantly higher in dumpers (22.1 +/- 3.8 nmol/ml/min) compared to controls (14.7 +/- 3.1 nmol/ml/min; P < 0.001) and correlated closely with the postprandial hematocrit increment (r = 0.71; P < 0.05). Early immunoreactivities of GLP-1, GIP, and glucagon peaked 30 min after glucose ingestion and were significantly higher in dumpers. Insulin peaked after 60 min and correlated with early GLP-1. In 11 of the patients glucose fell below baseline after a median interval of 120 min. Glucose at 120 min, when most of the nadirs occurred was lowest in patients with high early GLP-1 concentrations (r = 0.78; P < 0.001). Gel filtration chromatography of the dumpers' plasma revealed that pancreatic glucagon was detectable at time 0 and after 20 min, but not after 120 min. It is concluded that in dumpers pancreatic glucagon is augmented in the early postprandial period, probably through stimulation by catecholamines. At 120 min, when most of the hypoglycemias are encountered, pancreatic glucagon is no longer detectable, probably through inhibition by GLP-1.
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PMID:Postprandial GLP-1, norepinephrine, and reactive hypoglycemia in dumping syndrome. 1157 44

It is currently believed that pancreatic progenitor or stem cells exist in the ductal cell population and that these cells have the ability to be grown and differentiated into endocrine cells for the treatment of diabetes. In this study, we have examined this potential in IMPAN (Immortalized Pancreatic) cells. These cells are derived from the adult H-2K(b)-tsA58 transgenic mouse. We observed an increased mRNA expression of insulin, proendocrine gene neurogenin 3, and beta-cell transcription factor Pdx1 when the cells were grown on bovine collagen I gels. The induction profile of these three genes was similar under the tested conditions. No glucagon or other endocrine-specific transcription factors were detectable. Application of GIP, GLP-1 derivative NN2211, and activin-A/betacellulin to IMPAN cells in normal culture did not lead to endocrine differentiation. In conclusion, it appears that the ability of IMPAN cells to mature to endocrine cells is limited.
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PMID:IMPAN cells: a pancreatic model for differentiation into endocrine cells. 1169 65

Incretin hormones are insulinotropic hormones from the intestinal mucosa, which after being released in response to ingestion of a meal, enhance insulin secretion in excess of that elicited by the absorbed nutrients (glucose. amino acids etc) themselves. To day it is well established that the most important incretin hormones are glucose-dependent insulinotropic polypeptide (GIP, previously known as gastric inhibitory polypeptide) and glucagon-like peptide-1 (GLP-1) from the upper and lower small intestinal mucosa, respectively. It has been shown that interference with the incretin function causes glucose intolerance and it has also been shown that the incretin function is greatly impaired in type 2 diabetes mellitus. The reason for this seems to be twofold: an impaired secretion of GLP-1 and a severely impaired insulinotropic effect of GIP in these patients. In agreement with this, administration of the active incretin, GLP-1, to patients with type 2 diabetes may nearly normalise their fasting and postprandial hyperglycaemia. In addition to its insulinotropic effects, GLP-1 has been shown to stimulate the formation of new beta cells in rodents, partly by enhanced beta cell proliferation and partly by enhancing differentiation of duct progenitor cells to mature beta cells. GLP-1 also inhibits glucagon secretion, inhibits gastric emptying and reduces appetite and food intake. During the last years, therefore, several most promising attempts have been made to develop GLP-1 into a clinically useful therapeutic agent for the treatment of type 2 diabetes.
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PMID:Incretin hormones--an update. 1171 84

The human proglucagon gene (GCG) is encoded within a finished 576-kb DNA sequence generated by the Human Genome Project. GCG is flanked by 18 kb and 65 kb of DNA, 5' and 3', respectively, that do not encode genes. The genomic sequence that includes GCG was found to have a long history of gene duplication events. Some members of the glucagon-like family of genes, GCG on chromosome 2 and GIP on chromosome 17, may be products of ancient genome duplications on the early vertebrate lineage. A large genomic tandem duplication event that included DPP4-like and GCG genes occurred before the amphibian-mammal divergence, but one of the duplicated copies of GCG has been lost on the human lineage. Recently, a processed pseudogene of the X-chromosome-linked gene TIMM8A was inserted downstream of GCG. Some ancient duplicates of GCG may retain physiological functions in other vertebrates.
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PMID:Ancient duplications of the human proglucagon gene. 1199 25

Gastric inhibitory polypeptide (GIP, also called glucose-dependent insulinotropic polypeptide) and glucagon-like peptide-1 (GLP-1) are peptide hormones from the gut that enhance nutrient-stimulated insulin secretion (the 'incretin' effect). Judging from experiments in mice with targeted deletions of GIP and GLP-1 receptors, the incretin effect is essential for normal glucose tolerance. In patients with type 2 diabetes mellitus it turns out that the incretin effect is severely impaired or abolished. The explanation seems to be that both the secretion of GLP-1 and the effect of GIP are impaired (whereas both the secretion of GIP and the effect of GLP-1 are near normal). The impaired GLP-1 secretion is probably a consequence of diabetic metabolic disturbances. The known genetic variations in the GIP receptor sequence are not associated with type 2 diabetes mellitus, but a defective insulinotropic effect of GIP may be found in first degree relatives of the patients, suggesting a genetic background for the defect. The molecular nature of the defect is not known and given the close similarity of the two receptors and their signalling, the dissociation of their effects is remarkable. Whereas GLP-1 and its analogues are attractive as therapeutic agents for type 2 diabetes mellitus, analogues of GIP are unlikely to be effective. On the other hand, GIP seems to play an important role in lipid metabolism, promoting the disposal of ingested lipids, and mice with a targeted deletion of the GIP receptor do not become obese when exposed to a high-fat diet. Therefore, antagonistic analogues of GIP may be speculated to have a role in the pharmaceutical management of obesity.
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PMID:Gastric inhibitory polypeptide analogues: do they have a therapeutic role in diabetes mellitus similar to that of glucagon-like Peptide-1? 1210 45

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