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)

A histological study has been conducted on pancreata from insulin resistant sand rats treated with S15261. As previously shown, standard laboratory chow induced dietary hyperinsulinaemia, insulin resistance and hyperlipaemia in sand rats (Psammomys obesus). Degranulation, vacuolization and even necrosis of beta-cells were observed in these animals. These changes were often accompanied by fibrosis and lymphocytic infiltration. Insulin and amylin immuno-reactivity of beta-cells was markedly decreased whilst glucagon secreting cells were localized now in the centre of the islets. Chronic treatment with S15261, a compound able to restore insulin sensitivity in insulin resistant animals, promoted the regranulation of the beta-cells and maintained the usual cytoarchitecture and integrity of the islets.
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PMID:S 15261, a novel agent for the treatment of insulin resistance. Studies on Psammomys obesus. Effect on pancreatic islets of insulin resistant animals. 913 Jun 8

Effects of amylin and calcitonin gene-related peptide on several processes involved in carbohydrate metabolism were investigated in rat hepatocytes, non-parenchymal cells (Kupffer, Ito and endothelial cells) and alveolar macrophages. In hepatocytes, cAMP levels were increased 25-fold by glucagon (10 nM), less than 2-fold by calcitonin gene-related peptide (100 nM) and not at all by amylin (100 nM). In non-parenchymal cells and cultured alveolar macrophages, calcitonin gene-related peptide potently, and amylin weakly, stimulated cAMP levels. In hepatocytes neither amylin nor calcitonin gene-related peptide affected glycogen phosphorylase activity, glucose output, lactate uptake, glycogen synthesis, glycogen mass or tyrosine aminotransferase activity. The density of calcitonin gene-related peptide specific binding sites in parenchymal cells was 10-fold less then seen in non-parenchymal cells. We found no significant evidence of specific amylin binding sites. These results are consistent with the notion that amylin does not exert a direct effect in hepatocytes. However, we do not rule out that amylin may affect hepatic glucose output indirectly through Cori cycling of lactate derived from skeletal muscle or from interactions through non-parenchymal cells.
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PMID:Lack of effect of calcitonin gene-related peptide and amylin on major markers of glucose metabolism in hepatocytes. 916 66

A 13-year-old dog was referred for a severe dermatological problem of 12 months duration. Skin biopsy results were compatible with superficial necrolytic dermatitis. The only laboratory abnormalities were hyperglycaemia and hyperglucagonaemia. These findings suggested a pancreatic endocrine tumour in association with superficial necrolytic dermatitis. Abdominal ultrasound examination was unremarkable. The dog was euthanased due to the lack of clinical improvement following symptomatic therapy. Postmortem examination revealed a pancreatic endocrine tumour with liver metastases. Pancreatic endocrine tumour cells were immunoreactive for glucagon, insulin and islet amyloid polypeptide.
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PMID:Superficial necrolytic dermatitis and a pancreatic endocrine tumour in a dog. 920 Jan 14

The diabetes or impaired glucose tolerance that occurs in most patients with pancreatic cancer is characterized by profound insulin resistance. Recent evidence suggests that the diabetes may result from the presence of the tumor rather than being a predisposing factor to development of the malignancy. Some islet hormones have been shown to exhibit diabetogenic effects. To investigate the potential role of these hormones in the diabetic state associated with pancreatic cancer, we measured islet hormones during fasting in pancreatic cancer patients (n = 30), patients with other malignancies (n = 43), and healthy controls (n = 25). Preoperative pancreatic cancer patients were classified as normal glucose tolerance (NGTT), impaired glucose tolerance (IGTT), non-insulin-requiring diabetes (NIRD), and insulin-requiring diabetes (IRD). Nine pancreatic cancer patients were studied after tumor removal by subtotal pancreatectomy. Some preoperative pancreatic cancer patients (n = 19), postoperative patients (n = 9), and controls (n = 8) were also studied during hyperglycemia and following glucagon injection. Fasting plasma C-peptide was elevated in NIRD pancreatic cancer patients compared to controls. Fasting levels of islet amyloid polypeptide (IAPP), glucagon, and somatostatin were elevated in NIRD and IRD patients. IAPP and glucagon, but not somatostatin, normalized following subtotal pancreatectomy. During hyperglycemia, increases in C-peptide and IAPP were seen only in controls and in NGTT and postoperative pancreatic cancer patients. After glucagon infusion, IAPP levels increased in controls and nondiabetic cancer patients; C-peptide levels increased in controls, nondiabetic patients, and NIRD. Responses of C-peptide and IAPP to glucagon normalized after pancreatectomy. During hyperglycemia, glucagon levels fell in all groups except IGTT patients and a decrease in somatostatin concentrations was seen in controls.
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PMID:Islet hormone secretion in pancreatic cancer patients with diabetes. 921 94

The presence of amyloid deposits in the pancreas was first described at the beginning of the 20th century. However, it was not until 1987 that the structure of the amylin molecule was identified. Amylin is a 37-amino-acid peptide hormone that is co-secreted with insulin by the pancreatic beta-cells in response to a nutrient stimulus. It is deficient in patients with Type 1 diabetes and elevated in patients in the early stages of Type 2 diabetes, a condition which is characterized by hyperinsulinaemia. Elevation of plasma amylin levels has also been described in patients with impaired glucose tolerance, obese subjects and in pregnant women with both normal glucose tolerance and gestational diabetes mellitus. However, it appears that deficiencies of amylin secretion appear before those of insulin in patients in the later stages of Type 2 diabetes. Early experimental studies suggested that amylin inhibits basal insulin secretion, and induces insulin resistance in skeletal muscle, leading to the hypothesis that it has a role in the aetiology of Type 2 diabetes. However, a number of more recent experimental studies have indicated that amylin is a third active pancreatic islet hormone that works with insulin and glucagon to maintain glucose homeostasis. Amylin appears to regulate glucose inflow to the circulation by influencing the rate of gastric emptying, and thus the rate at which meal-derived glucose enters the system, and also by inhibiting glucose release and hepatic glucose production in the postprandial period.
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PMID:Amylin: history and overview. 921 23

The pancreatic hormone amylin is co-secreted with insulin by beta-cells in response to nutrient intake. Studies performed in experimental animals have provided evidence that amylin may have several effects associated with carbohydrate metabolism. Amylin is a potent inhibitor of gastric emptying. This effect appears to require an intact vagus nerve and it is over-ridden by hypoglycaemia. These observations, coupled with the identification of putative amylin receptors in the area postrema of the hindbrain (a region implicated in the regulation of gastric motility) suggest that the effects of amylin on gastric emptying are mediated, at least in part, by the central nervous system. There is also evidence that amylin acts to inhibit food intake, an action which is distinct from its effects on gastric emptying. In addition, amylin has been shown to inhibit amino acid-stimulated glucagon secretion, suggesting that it may reduce endogenous glucose production in the postprandial period.
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PMID:Role of amylin in nutrient intake - animal studies. 921 24

This study concerns whether the pancreatic beta cell expresses cell-surface ectopeptidases that are capable of proteolysis of peptide hormones and neuropeptides that modify glucose-dependent insulin release. These biochemical investigations of the RINm5F cell line found that these cells express ectopeptidases. We have characterized the limited endoproteolysis of GLP-1 (7-36) amide that occurs in the presence of RINm5F plasma membranes. The products and the sensitivity to specific peptidase inhibitors of the proteolysis is characteristic of neutral endopeptidase (NEP) 24.11. Vasoactive intestinal polypeptide (VIP), pituitary adenylate cyclase-activating peptide (PACAP), amylin, glucagon, glucose-dependent insulinotropic polypeptide (GIP), and exendin-4 also undergo proteolysis in the presence of RIN cell membranes. NEP 24.11-activity in RIN cell membranes was confirmed using a specific fluorogenic assay, by histochemistry, and by comparison with the recombinant enzyme with respect to the kinetics of proteolysis of GLP-1 (7-36) amide and of a fluorogenic substrate. Specific fluorogenic assays revealed the presence of aminopeptidase N and the absence of aminopeptidase A and of dipeptidylpeptidase IV.
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PMID:Endoproteolysis of glucagon-like peptide (GLP)-1 (7-36) amide by ectopeptidases in RINm5F cells. 921 54

Insulin promoter factor-1 (IPF1) (renamed to pancreatic-duodenal homeobox factor-1, PDX1) was originally cloned and characterized as an islet beta-cell specific insulin gene transcription factor (1) and later shown to be essential for the formation of the mature pancreas (2, 3). In the adult normal pancreas PDX1 is almost exclusively expressed in the beta-cell compartment and generally absent from the alpha-cell while it is widely expressed in the pancreatic epithelium during development. Using pluripotent rat islet tumor cultures and derived insulinomas and glucagonomas we have analyzed differential expression of a large number of genes including the transcription factors PDX1, Nkx6.1, Pax6, and NeuroD. While NeuroD and Pax6 expression was detectable among all phenotypes, PDX1 was expressed in the pluripotent culture and maintained in the insulinoma, while Nkx6.1 was selectively co-induced with insulin during insulinoma formation. Both factors were not detectable in the glucagonoma. Nkx6.1 proved to have a highly beta-cell restricted expression in the adult rat. Forced expression of recombinant PDX1 in the glucagonoma resulted in efficient transcriptional activation of the endogenous insulin and IAPP genes, but did not affect glucagon gene activity. In this hybrid alpha/beta-cell phenotype the endogenous Nkx6.1 gene remained silent. We conclude that PDX1 in synergy with NeuroD specifies part of the beta-cell phenotype including transcriptional activation of insulin and IAPP genes, but that other factors such as Nkx6.1 and Pax6 are required for additional features of the fully mature beta-cell phenotype.
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PMID:Transcription factors contributing to the pancreatic beta-cell phenotype. 923 Mar 47

Non-insulin-dependent diabetes mellitus (NIDDM, type 2 diabetes) is a heterogeneous disease resulting from a dynamic interaction between defects in insulin secretion and insulin action. There are various pharmacological approaches to improving glucose homeostasis, but those currently used in clinical practice either do not succeed in restoring normoglycaemia in most patients or fail after a variable period of time. For glycaemic regulation, 4 classes of drugs are currently available: sulphonylureas, biguanides (metformin), alpha-glucosidase inhibitors (acarbose) and insulin, each of which has a different mode and site of action. These standard pharmacological treatments may be used individually for certain types of patients, or may be combined in a stepwise fashion to provide more ideal glycaemic control for most patients. Adjunct treatments comprise a few pharmacological approaches which may help to improve glycaemic control by correcting some abnormalities frequently associated with NIDDM, such as obesity (serotoninergic anorectic agents) and hyperlipidaemia (benfluorex). There is intensive pharmaceutical research to find new drugs able to stimulate insulin secretion (new sulphonylurea or nonsulphonylurea derivatives, glucagon-like peptide-1), improve insulin action (thiazolidinediones, lipid interfering agents, glucagon antagonists, vanadium compounds) or reduce carbohydrate absorption (miglitol, amylin analogues, glucagon-like peptide-1). Further studies should demonstrate the superiority of these new compounds over the standard antidiabetic agents as well as their optimal mode of administration, alone or in combination with currently available drugs.
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PMID:Drug treatment of non-insulin-dependent diabetes mellitus in the 1990s. Achievements and future developments. 927

Syngeneic islets were transplanted into the liver of streptozotocin (STZ)-induced diabetic LEW.1W rats, and the expression of the glucose transporter isoform GLUT 2, an essential component of the glucose-sensing mechanism of the pancreatic beta-cell, was determined in the grafted islet tissue. Graft-bearing liver was obtained 12, 36, and 60 weeks after transplantation, and tissue sections were immunoperoxidase stained for GLUT 2 and major islet peptides. Islet cell aggregates of different sizes were found in the portal tract and in juxtaposition to the hepatocytes. At all time points, beta-cells in the grafts displayed GLUT 2 expression comparable to that of islets in nondiabetic rats. Islet cells containing immunoreactive insulin and islet amyloid polypeptide were plentiful, while those staining positive for glucagon and somatostatin were scarce in these grafts. The results show that beta-cells in islets engrafted in the liver, although initially exposed to chronic hyperglycemia, have the capability of stably expressing GLUT 2 over long-term periods.
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PMID:Glucose transporter isoform (GLUT) 2 expression in beta-cells of long-term syngeneic islet grafts. 945 76


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