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)

Regulation of blood glucose homeostasis is complex. Its major hormonal regulators include insulin, glucagon and somatostatin from the endocrine pancreas. Secretion of these hormones is controlled predominantly by the supply of nutrients in the circulation but also by nerve signals and other peptides. Thus, it is likely that peptides, released from cells of the gut or endocrine pancreas or from peptidergic nerves, affect glucose homeostasis by modulating the secretion of insulin, glucagon and somatostatin. When searching for novel gut peptides with such effects, diazepam binding inhibitor (DBI) was isolated from the porcine small intestine. By immunocytochemistry, DBI has been demonstrated to occur not only in the gut but also in endocrine cells of the pancreatic islets, namely in the somatostatin-producing D-cells in pig and man, and in the glucagon-producing A-cells in rat. Porcine DBI (pDBI; 10(-8)-10(-7) M) has been shown to suppress glucose-stimulated release of insulin from both isolated islets and perfused pancreas of the rat. Furthermore, secretion of insulin stimulated by either the sulfonylurea glibenclamide or the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (IBMX), was inhibited by the peptide. In contrast, arginine-induced release of insulin was unaffected by pDBI. Moreover, pDBI decreased arginine-induced release of glucagon from the perfused rat pancreas, whereas release of somatostatin was unchanged. Notably, rat DBI, structurally identical with rat acyl-CoA-binding protein, has also been demonstrated to inhibit glucose-stimulated release of insulin in the rat, both in vivo and in vitro. Long-term exposure of cultured fetal rat islets to pDBI (10(-8) M) significantly decreased the synthesis of DNA in islet cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Diazepam binding inhibitor and the endocrine pancreas. 178 37

Pancreatic procolipase, a protein cofactor for lipase, is activated by trypsin, with a simultaneous formation of colipase and a pentapeptide with the sequence Val-Pro-Asp-Pro-Arg (VPDPR). This peptide was found to significantly inhibit pancreatic protein secretion after intraduodenal infusion in pigs (2 mg/kg/h). The inhibition, amounting to 60%, occurred under base-line conditions as well as after stimulation with cholecystokinin (CCK)/secretin (1 U of each peptide/h/kg body wt). In contrast, intravenous infusion of VPDPR (0.2 mg/h/kg) did not affect pancreatic secretion. There was no significant change in the plasma levels of pancreatic polypeptide, insulin, glucagon, or glucose following intraduodenal infusion of VPDPR. It is concluded that the procolipase activation peptide might have an inhibitory function in pancreatic enzyme secretion mediated indirectly through a gut action. Therefore, the lipolytic enzymes of pancreas may also take part in the feed-back regulation of the pancreatic function. We suggest the name enterostatin for this novel regulatory peptide.
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PMID:Pancreatic procolipase activation peptide-enterostatin-inhibits pancreatic enzyme secretion in the pig. 178 Mar 22

We studied the cellular distribution of glucagon-like peptide-1 (GLP-1) in the pancreas and gut and the effects of GLP-1 and its truncated form, GLP-1(7-36) amide, on basal and stimulated insulin and glucagon secretion in the mouse. Immunofluorescence staining showed that GLP-1 immunoreactivity occurred within peripheral islet cells and in cells located mainly distally in the small intestine and in the entire large intestine. Double-immunostaining revealed that the GLP-1-immunoreactive cells were identical to the glucagon/glicentin cells. Experiments in vivo revealed that basal insulin secretion was stimulated by GLP-1(7-36) amide at the dose levels of 8 and 32 nmol/kg, and by GLP-1 at 32 nmol/kg. Furthermore, GLP-1(7-36) amide showed additive stimulatory influence with glucose (2.8 mmol/kg), the cholinergic agonist carbachol (0.16 mumol/kg), and the C-terminal octapeptide of cholecystokinin (CCK-8, 5.3 nmol/kg), when injected at 8 or 32 nmol/kg. In contrast, stimulated insulin secretion was unaffected by GLP-1. Moreover, the glucagon secretory responses to carbachol and CCK-8 were inhibited by GLP-1(7-36) amide but were unaffected by the entire GLP-1. We conclude that GLP-1(7-36) has the potential for being a modulator of islet hormone secretion.
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PMID:GLP-1 and GLP-1(7-36) amide: influences on basal and stimulated insulin and glucagon secretion in the mouse. 188 89

Postprandial glucagon-like peptide-1 (GLP-1), pancreatic glucagon, and insulin were measured in 27 tumor-free patients 43 months (median) after total gastrectomy and in four controls using a 99technetium-labeled 100-g carbohydrate solid test meal. Emptying of the gastric substitute was measured by scintigraphy. Fourteen patients suffered from early dumping symptoms, and five of them also reported symptoms suggestive of reactive hypoglycemia (late dumping). The median emptying half-time (T1/2) of the gastric substitute was 480 sec. Sigstad's dumping score was 8.5 +/- 1.6 (mean +/- SE) in patients with rapid emptying (T1/2 less than 480 sec), and 3.0 +/- 1.5 in patients with slow emptying of the gastric substitute (P = 0.02). The peak postprandial concentration of GLP-1 was 44 +/- 20 pmol/liter in controls, 172 +/- 50 in patients without reactive hypoglycemia, and 502 +/- 116 in patients whose glucose fell below 3.8 mmol/liter during the second postprandial hour. Plasma GLP-1 concentrations peaked at 15 min, and insulin concentrations at 30 min after the end of the meal. A close correlation between integrated GLP-1 responses and integrated insulin responses (r = 0.68) was observed. Multiple regression revealed that three factors were significantly associated with the integrated glucose concentrations during the second hour (60-120 min): Early (first 30 min) integrated GLP-1 (inverse correlation; P = 0.006), age (P = 0.006), and early integrated pancreatic glucagon (P = 0.005). There was a close (inverse) relationship of T1/2 with early integrated GLP-1 and pancreatic glucagon, but not with insulin. Gel filtration of pooled postprandial plasma of gastrectomized individuals revealed that all glucagon-like immunoreactivity eluted at Kd 0.30 (Kd, coefficient of distribution), the elution position of glicentin. Almost all of the GLP-1 like immunoreactivity eluted at Kd 0.60, the elution position of gut GLP-1. The authors contend that GLP-1-induced insulin release and inhibition of pancreatic glucagon both contribute to the reactive hypoglycemia encountered in some patients following gastric surgery. Rapid emptying seems to be one causative factor for the exaggerated GLP-1 release in these subjects.
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PMID:Emptying of the gastric substitute, glucagon-like peptide-1 (GLP-1), and reactive hypoglycemia after total gastrectomy. 191 56

Effects of various forms of gastric surgery on gut hormones and pancreatic secretions were examined using canine models. These operative procedures included simple laparotomy (group A; n = 13), truncal vagotomy with pyloroplasty (B; n = 17), selective proximal vagotomy (C; n = 17), proximal gastrectomy with pyloroplasty (D; n = 6), proximal gastrectomy with truncal vagotomy and pyloroplasty (E; n = 7), and distal gastrectomy (F; n = 19). The mean fasting serum gastrin and secretin levels (pg/ml) were 71.0, 82.5 in A, 94.0, 97.7 in B, 62.1, 108.1 in C, 58.2, 123.0 in D, 91.2, 138.6 in E, and 50.9, 74.5 in F, respectively. The mean value of plasma pancreatic glucagon (pg/ml) showed 73.6, 109.9, 106.8, 47.2, 37.8, and 74.5 in each of the six groups. Significant correlations were observed between values of serum lipase and those of serum gastrin as well as between the amount of pancreatic secretions and serum secretin levels. Pancreatic secretions were decreased markedly in group F and moderately in B. Basal tissue blood flow measured by hydrogen clearance method was low in D, E, and F when compared with that in A.
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PMID:[Effects of various forms of gastric surgery on gut hormones and pancreatic secretions]. 194 82

The aganglionic intestine in Hirschsprung's disease displays a severe neuronal derangement. The changes are particularly evident in the muscular innervation. In the gut the endocrine cells are among the cells known to be influenced by neurons. We have, therefore, examined the endocrine cells in ganglionic and aganglionic intestine using immunocytochemistry and immunochemistry. The endocrine cells were studied using antibodies against the neuroendocrine marker chromogranin A, the amine serotonin and the hormonal peptides somatostatin, glucagon/glicentin and peptide YY (PYY), thus covering virtually all endocrine cell types known to occur in this region. The PYY concentration in the mucosal layer was measured by radioimmunoassay. In ganglionic as well as in aganglionic intestine large populations of cells storing chromogranin A, serotonin, glucagon and PYY and a smaller population of somatostatin cells were seen. There was an increase in the density of these cells in the aganglionic intestine compared with ganglionic. The data indicate that the endocrine cell populations in the intestinal wall can be maintained despite severe derangements of the nerve supply.
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PMID:Intestinal endocrine cells in Hirschsprung's disease. No reduction in density in aganglionic compared with ganglionic segment. 197 32

The effects of parasitic infection on plasma and tissue content of immunoreactive somatostatin (SRIF) were studied in 4-mo old male calves inoculated with the protozoan Sarcocystis cruzi. Because feed intake significantly decreased (70%) in infected calves around day 28 postinfection (pi), concomitant with the asexual replication of S. cruzi and outward expression of clinical signs, the relative contributions of infection and associated reduction in nutrition on plasma SRIF were evaluated. Treatment groups were: noninfected ad libitum fed (C), infected (250,000 S. cruzi oocysts per os) ad libitum fed (I) and noninfected calves pairfed to the level of intake of each infected calf (PF). Mean plasma concentrations of SRIF (pg/ml) on day 30 pi were: C, 224 +/- 22; I, 742 +/- 150; PF, 246 +/- 31 (effect of infection P less than .05). In another study, SRIF was measured in plasma and in pancreatic, duodenal, jejunal and ileal tissue extracts from normal and S. cruzi infected calves. Plasma and tissue samples were collected on day 42 pi. Mean plasma SRIF were 2.5 times higher in infected than control calves. Plasma insulin and insulin-like growth factor 1 was lower in infected v control calves (P less than .02). Plasma glucagon was similar between groups. Duodenal (P less than .05) and jejunal (P less than .02) SRIF content was higher in infected than control calves. Chromatography of tissue extracts on Sephadex G-50 revealed that the increase in SRIF was accounted for, in part, by molecular forms larger than cyclic SRIF-14. Data suggest that peripheral SRIF is increased in calves during S. cruzi infection. The increase in SRIF is not solely related to plane of nutrition. Altered levels of gut SRIF(s) may be associated with perturbed metabolic regulation in parasitized animals through direct effects on the gut.
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PMID:Plasma and tissue concentrations and molecular forms of somatostatin in calves infected with Sarcocystis cruzi. 197 66

The effects of i.v. glucagon-like peptide-1-(7-36)amide (GLP-1; 10 micrograms) on starved sheep given an i.v. glucose load (5 g) were studied. Plasma insulin concentrations rose significantly more after glucose administration in fed than in starved sheep. Giving GLP-1 to starved sheep increased the insulin response to the glucose load. The rise in plasma insulin concentrations in starved sheep given GLP-1 was similar to that observed in fed sheep. Plasma glucose concentrations returned to normal values more quickly in the starved sheep given GLP-1 than in starved sheep not given gut hormone. Plasma concentrations of free fatty acid, urea and alpha-amino nitrogen decreased more quickly following glucose administration in starved sheep given GLP-1 than in those not given GLP-1. The data suggest a role for GLP-1 in regulating plasma insulin concentrations and hence metabolism in ruminant animals. The possible role of gut hormones in ruminants is discussed.
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PMID:Effects of truncated glucagon-like peptide-1 on the responses of starved sheep to glucose. 203 Mar 30

To establish whether secretion of proglucagon-derived peptides (PGDPs) by the intestinal L cell is nutrient- and/or location-dependent, 0.9% saline, 200 mM glucose, or emulsified fats were administered into the ileal or duodenal lumen of normal rats. Fat administration, but not saline or glucose treatment, significantly increased circulating levels of the intestinal PGDPs in a time-dependent fashion, indicating a selectivity of the L cell in its response to nutrients. Interestingly, the response to duodenal fats was quantitatively and qualitatively identical to the response to ileal fats, despite 50-fold lower concentrations of PGDPs in the duodenum. These results suggest the existence of a duodenal factor that stimulates ileal PGDP secretion in response to fat ingestion. Ileal and plasma levels of gut PGDPs have been reported to be elevated in poorly controlled streptozotocin-diabetic rats. Whether the sensitivity of the L cell to luminal nutrients is altered in diabetes was, therefore, also examined. The L cell responses to luminal nutrients in diabetic rats were not significantly different from those of the normal rat, indicating a normal responsiveness of the L cell. However, independent of changes in glycemia, luminal glucose perfusion significantly decreased circulating glucagon levels in normal rats, but not in diabetics. Furthermore, luminal fat administration increased plasma glucagon levels in normal rats only. These results indicate that moderately controlled diabetes is associated with alterations in the pancreatic A cell, but not the intestinal L cell response to ingested nutrients. The results of the present study indicate that the response of the intestinal L cell to ingested food is nutrient-specific and that this specificity is not altered in diabetes. A duodenal-ileal axis is proposed to contribute to increments in circulating intestinal PGDPs in response to nutrient ingestion.
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PMID:Secretion of proglucagon-derived peptides in response to intestinal luminal nutrients. 203 83

The activity of phosphate-dependent glutaminase and glutamine metabolism by tissues known markedly to utilize or synthesize glutamine (or both) were studied in rats made septic by cecal ligation and puncture technique and compared with the same measures in rats that underwent sham operation (laparotomy). Blood glucose level was not markedly different in septic rats, but lactate, pyruvate, alanine, and glutamine levels were markedly increased. Conversely, blood ketone body concentrations were significantly decreased in septic rats. Both plasma insulin and glucagon levels were markedly elevated in response to sepsis. The maximal activity of phosphate-dependent glutaminase was decreased in the small intestine, increased in the kidney and mesenteric lymph nodes, and unchanged in the liver of septic rats. Arteriovenous concentration difference measurements across the gut showed a decrease in the net glutamine removed from the circulation in septic rats. Arteriovenous concentration difference measurements for glutamine showed that both renal uptake and skeletal muscle release of the amino acid were increased in response to sepsis, whereas measurements across the hepatic bed showed a net uptake of glutamine in septic rats. Enterocytes isolated from septic rats exhibited a decreased rate of utilization of glutamine and production of glutamate, alanine, and ammonia, whereas lymphocytes isolated from septic rats showed an enhanced rate of utilization of glutamine and production of glutamate, aspartate, and ammonia. It is concluded that, during sepsis, glutamine uptake and metabolism are enhanced in renal and lymphoid tissue but decreased in that of the small intestine, with increased rates of release by skeletal muscle; however, the liver appears to utilize glutamine in septic rats.
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PMID:Maximal activity of phosphate-dependent glutaminase and glutamine metabolism in septic rats. 206 39


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