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)

The presence of islet amyloid polypeptide in amyloid within pancreatic islet cells in Type 2 (non-insulin-dependent) diabetes, and its reported inhibition of glucose uptake by skeletal muscle in vitro, has prompted speculation concerning its role in the pathogenesis of diabetes. We investigated the effect of infused synthetic amidated human islet amyloid polypeptide (mol. wt. 3904, confirmed by mass spectroscopy) on intravenous glucose tolerance. Seven healthy, non-obese volunteers (age +/- SD, 27 +/- 4 years) were infused over 50 min with normal (0.9%) saline or islet amyloid polypeptide at 50 pmol.kg-1.min-1. After 20 min, a bolus of 0.5 g/kg glucose was given within 1 min and blood sampling continued for up to 60 min. Circulating concentrations of islet amyloid polypeptide reached at steady state were 1130 +/- 90 pmol/l. The calculated half-life was 11.8 +/- 0.9 min, metabolic clearance rate 5.7 +/- 0.6 ml.kg-1.min-1 and apparent distribution space therefore 94 +/- 12 ml/kg. However, islet amyloid polypeptide was found to have no effect on the peak value reached, or the total area under the curve for plasma glucose, insulin or glucagon following intravenous glucose. This study suggests circulating islet amyloid polypeptide may not be an important influence on intravenous glucose tolerance in man.
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PMID:Failure to establish islet amyloid polypeptide (amylin) as a circulating beta cell inhibiting hormone in man. 232 45

A novel putative polypeptide hormone identified as islet amyloid polypeptide (IAPP) was recently purified from islet amyloid (IA) of diabetic humans and cats, and also from amyloid of a human insulinoma. Although the function of IAPP is yet unknown, its occurrence in pancreatic endocrine tissue and its partial amino acid sequence identity with calcitonin gene-related peptide (CGRP) suggests an endocrine regulatory effect. In the present investigation, the authors utilized antisera to insulin, glucagon, somatostatin, pancreatic polypeptide, synthetic human CGRP, and a synthetic human IAPP (7-17) undecapeptide to immunohistochemically (PAP technique) document the presence of IAPP immunoreactive cells in the islets of the cat, dog, mouse, and rat, but not in the islets of the horse or calf. In serial sections of islets from these species it was shown that IAPP immunoreactivity occurred in insulin-reactive beta cells. This observation was confirmed immunocytochemically in cat islets by means of protein A-gold probes. With protein A-gold labeling techniques, IAPP immunoreactivity was localized to the outer lucent compartment of the beta cell secretory granule, whereas insulin immunoreactivity was associated with the electron-dense core. These findings provide strong evidence that IAPP or an IAPP precursor is synthesized by beta cells and is stored in beta cell granules for subsequent co-secretion with insulin. The conservation of IAPP in humans and multiple animal species and the localization of IAPP to pancreatic beta cells provide further evidence that IAPP has an important endocrine regulatory function. The propensity of IAPP to polymerize and form IA fibrils in diabetes associated with aging may indicate that IAPP is in some way also linked to the development of Type 2 diabetes.
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PMID:Immunolocalization of islet amyloid polypeptide (IAPP) in pancreatic beta cells by means of peroxidase-antiperoxidase (PAP) and protein A-gold techniques. 327 6

Amylin inhibits glucose-induced insulin secretion in the rat pancreas. To study the mechanism by which amylin acts on the B-cell, we have investigated, in the perfused rat pancreas, the effect of synthetic rat amylin (75 pM) on insulin release elicited by secretagogues acting on the B-cell via the adenylate cyclase/cAMP system, i.e., glucagon (10 nM), gastric inhibitory polypeptide (GIP, 1 nM), forskolin (1 microM) and isobutylmethylxanthine (IBMX, 75 microM). In addition, we examined the effect of amylin on GIP-induced insulin release in pancreata from rats pretreated with pertussis toxin, an agent which inactivates certain Gi proteins coupled to adenylate cyclase. Amylin inhibited the insulin response to glucagon (approx. 70%), GIP (approx. 90%), IBMX (approx. 75%) as well as the early phase of forskolin-induced insulin output (approx. 74%). However, amylin failed to modify GIP-induced insulin release in pancreata obtained from pertussis toxin pretreated rats. These results would indicate that the inhibitory effect of amylin on insulin secretion could be, at least in part, attributed to its interfering with the adenylate cyclase/cAMP system. Furthermore, prevention of the inhibitory effect of amylin on GIP-induced insulin output by pertussis toxin pretreatment, supports the concept that amylin can inhibit insulin release via a pertussis toxin-sensitive Gi protein coupled to the adenylate cyclase system.
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PMID:Amylin (islet amyloid polypeptide) inhibition of insulin release in the perfused rat pancreas: implication of the adenylate cyclase/cAMP system. 751 1

Differential developmental regulation of pancreas-specific genes has not been reported for the human fetal pancreas. We have therefore undertaken a systematic, quantitative analysis of the transcriptional levels of various genes in the human pancreas at different stages of fetal and postnatal development. Using sensitive ribonuclease protection assays, in situ hybridization, and the polymerase chain reaction, our results indicate the following: 1) Transcriptional levels of insulin and amylin remain lower in the fetal than in the adult pancreas, whereas glucagon and somatostatin mRNA levels are consistently greater after 14 wk gestation than postnatally. These results are in agreement with previous immunohistochemical studies of these gene products. 2) The reg gene exhibits a 20-fold increase in mRNA levels after 16 wk gestation. The gene is expressed exclusively in the acinar cells and does not colocalize with insulin. This restricted exocrine expression does not indicate a direct role for the reg gene in islet development. 3) Glucose transporter 2 and glucokinase mRNA are detectable as early as 13 wk gestation and remain low throughout development. Glucose transporter 1 reaches adult transcriptional levels by 18 wk gestation. The early detection of glucose transporter 2 and glucokinase implies that lack of expression of these "glucose sensor" genes does not account for the known insensitivity of the fetal beta-cells to glucose.
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PMID:Developmental gene expression in the human fetal pancreas. 752 96

The mouse homeodomain protein insulin promoter factor-1 (IPF-1) and the rat homologue somatostatin transactivating factor-1 (STF-1) are involved in early pancreatic development and have been implicated in the cell-specific regulation of insulin- and somatostatin-gene expression in mature islet beta- and delta-cells. The cell specificity of IPF-1/STF-1 expression in mature islets is, however, still unclear. Using antisera against recombinant IPF-1 and STF-1 in combination with antisera against islet hormones we find that all beta-cells in monolayers of newborn rat islet cells express STF-1, as do a fraction of the delta-cells. In adult rat and mouse pancreas we find a similar distribution. IPF-1/STF-1 expression was not detected in glucagon-producing alpha-cells. In islet cell tumour models we found that a glucagon/islet amyloid polypeptide (IAPP)-producing pluripotent rat islet cell line (NHI-6F-GLU) expresses STF-1 in all cells prior to insulin gene activation induced by in vivo culture. In contrast, a mouse alpha-cell line (alpha TC1) exclusively expressed IPF-1 in a small subset of insulin-producing cells while an insulin-negative subclone (alpha TC1.9) was negative for IPF-1. In transfection experiments using alpha TC1.9 cells STF-1 activated a rat insulin 1 reporter gene dependent not only on both STF-1-binding sites, but also on the E1-binding site for the helix-loop-helix factor IEF-1. However, the endogenous mouse insulin genes remained inactive in these cells. These results suggest that the insulin promoter acquires its very high, yet cell-specific, activity at least partly through the action of IPF-1/STF-1. This action is dependent on helix-loop-helix factors bound to the E1 element.
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PMID:The homeodomain protein IPF-1/STF-1 is expressed in a subset of islet cells and promotes rat insulin 1 gene expression dependent on an intact E1 helix-loop-helix factor binding site. 757 38

It has already been shown that insulin cells studied under experimental conditions exhibit differences in insulin immunoreactivity and insulin release. The aim of this study, therefore, was to investigate whether insulin cells themselves exhibit morphological abnormalities after transplantation. Insulin cells in rat pancreas isografts with preserved or suppressed exocrine secretion were studied immunocytochemically and ultrastructurally and compared with those of unoperated rats. In isografts with preserved exocrine secretion, cortical insulin cells connected to the exocrine parenchyma or to glucagon or somatostatin cells expressed mostly dense immunoreactivities for insulin and amylin. In addition, medullary insulin cells connected only to other insulin cells displayed faint immunoreactivities for both constituents as found in unoperated animals. After duct ligation, however, pancreatic ducts and elongated capillaries extended into the islets. Corresponding to the stages of islet fragmentation, the heterogeneity among insulin cells underwent changes and was finally abolished. Ultrastructurally, differences in the number of secretory granules paralleled the heterogeneity in insulin immunoreactivity. It is interesting to note that the heterogeneity among insulin cells is preserved after transplantation, indicating that this phenomenon might be of physiological relevance. The heterogeneity may implicate differences in insulin storage and release as found in insulin cells under normal conditions.
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PMID:Insulin cells in rat whole-pancreas isografts display heterogeneous immunoreactivities and ultrastructure. 762 6

Cats are one of the few species that develop a form of diabetes mellitus that is clinically and histologically analogous to human type 2 diabetes mellitus. Figure 9 summarizes the etiologic factors thought to be involved in the development of feline and human type 2 diabetes. The main metabolic characteristics of type 2 diabetes mellitus are impaired insulin secretion and resistance to the action of insulin in its target tissues. Impaired beta cell function occurs before histologic changes become evident. The characteristic histologic finding in cats with type 2 diabetes is deposition of amyloid in pancreatic islets. Amyloid deposition occurs before the onset of clinical signs, but does not seem to be the primary defect. Pancreatic amyloid is derived form the recently discovered pancreatic hormone amylin. Amylin is synthesized in pancreatic beta cells, and is co-stored and co-secreted with insulin. Amylin has been postulated to be involved in the pathogenesis of feline diabetes mellitus both through its metabolic effects, which include inhibition of insulin secretion and induction of insulin resistance, and via progressive amyloid deposition and beta cell degeneration. Increased amylin concentration has been documented intracellularly in cats with impaired glucose tolerance and in the plasma of diabetic cats, and supports the hypothesis that amylin is involved in the pathogenesis of type 2 diabetes. Obesity is a common finding in diabetic felines and is a contributing factor to the insulin resistance present in type 2 diabetes. Clinical signs of diabetes develop once total insulin secretion decreases to 20% to 25% of normal levels. Many diabetic cats have been treated successfully with oral hypoglycemics, but 50% to 70% of diabetic cats are insulin dependent. Based on histologic evidence, this is the result of extensive amyloid deposition and subsequent beta cell degeneration, rather than autoimmune destruction of pancreatic beta cells associated with type 1 diabetes. Alternative ways of treating type 2 diabetes currently are being investigated. Amylin antagonists recently have been proposed as a novel treatment to reverse the deleterious effects of excessive amylin concentrations. The gastrointestinal hormone glucagon-like peptide-1 may also prove useful in treating diabetic cats, because of its stimulatory effect on insulin secretion and synthesis, and the absence of significant hypoglycemic effect.
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PMID:Pathogenesis of feline diabetes mellitus. 766 May 30

A number of cell and tissue-specific differences have been described in studies of the regulation of glucagon gene expression. DNA sequences important for islet cell-specific transcription are not sufficient for expression of the glucagon gene in the intestine, and the posttranslational processing of proglucagon results in the liberation of different peptides in pancreas and intestine. We have studied the control of glucagon gene expression in STC-1 cells, a mouse intestinal neuroendocrine cell line. STC-1 cells are plurihormonal and contain glucagon, somatostatin, amylin, and cholecystokinin, but not insulin mRNA transcripts. Glucagon gene expression is regulated by a cAMP-dependent pathway in STC-1 cells, with an increase in glucagon mRNA transcripts detected 2 h after forskolin stimulation. The levels of glucagon mRNA transcripts remained elevated for 36-48 h after forskolin stimulation, but cycloheximide inhibited the forskolin induction of glucagon gene expression. Although sequences up-stream of -1300 are necessary for intestine-specific glucagon gene transcription in transgenic mice, glucagon-chloramphenicol acetyltransferase (CAT) plasmids containing less than 1300 basepairs of 5'-flanking sequences were transcriptionally active in STC-1 cells. The transcriptional properties of specific DNA elements important for glucagon gene transcription in islet cells differed in STC-1 cells. Deletion of the islet cell-specific enhancer G3 element resulted in an increase in the transcriptional activity of transfected glucagon-CAT plasmids, suggesting that G3 may function as a negative element in STC-1 cells. Deletion of the cAMP response element sequence from -291 to -298 did not eliminate the forskolin induction of glucagon-CAT activity in STC-1 cells, and forskolin responsiveness was maintained with deletions containing only 60 basepairs of rat glucagon gene 5'-flanking sequences. The results of these experiments define novel functional properties for previously characterized domains within the rat glucagon gene 5'-flanking region, suggesting that mouse STC-1 cells may be a useful cell line for studies of the molecular control of glucagon gene expression.
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PMID:Multiple cis-acting domains mediate basal and adenosine 3',5'-monophosphate-dependent glucagon gene transcription in a mouse neuroendocrine cell line. 767 66

We investigated the effect of amylin on the glucagon-like peptide-1(7-36)amide (GLP-1(7-36)amide) induced stimulation of cAMP production in RINm5F cells. Amylin and the structurally related calcitonin gene-related peptide (CGRP) inhibited the stimulatory effect of GLP-1(7-36)amide on cAMP generation while substance P was without effect. Amylin had no effect on the forskolin-induced cAMP-generation. These findings suggest that amylin alters the biological action of the incretin hormone GLP-1(7-36)amide. This could at least partly contribute to an amylin-induced impaired glucose tolerance which has been previously observed.
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PMID:Amylin alters the biological action of the incretin hormone GLP-1(7-36)amide. 769 3

Previous studies have indicated that insulin secretion in response to glucose diminishes with age but insulin synthesis and gene transcription do not. To determine whether expression of genes other than those that encode insulin are subject to age-related changes that could alter pancreatic islet function, mRNAs for insulins I and II, amylin, glucose transporter 2 (GluT2), glucagon, and glucokinase were quantified in 2-, 6-, 12-, and 24-month-old Fischer 344 rats using species-specific ribonuclease (RNase) protection assays. There was only a modest (1.2- to 1.3-fold) increase in insulin I and insulin II mRNAs between ages 2 and 12 months. There were no statistically significant changes in levels of glucokinase mRNA with age. In contrast, the abundances of amylin, GluT2, and glucagon mRNAs all doubled during the same period. Variance in values from 24-month-old rats was too great to allow conclusions, except that the ratio of insulin II mRNA to insulin I mRNA increased with age. This change was not related to islet mass or total insulin mRNA abundance because it persisted at age 24 months, when total mRNA abundance had decreased. These results indicate that aging is associated with significant alterations in the relative proportion of expression of pancreatic islet cell genes implicated in insulin secretion and in intraislet glucose metabolism.
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PMID:Age-related changes in pancreatic islet cell gene expression. 788 76


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