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)

Extracts of leaves from the plant Stevia rebaudiana Bertoni have been used in the traditional treatment of diabetes in Paraguay and Brazil. Recently, we demonstrated a direct insulinotropic effect in isolated mouse islets and the clonal beta cell line INS-1 of the glycoside stevioside that is present in large quantity in these leaves. Type 2 diabetes is a chronic metabolic disorder that results from defects in both insulin and glucagon secretion as well as insulin action. In the present study we wanted to unravel if stevioside in vivo exerts an antihyperglycaemic effect in a nonobese animal model of type 2 diabetes. An i.v. glucose tolerance test (IVGT) was carried out with and without stevioside in the type 2 diabetic Goto-Kakizaki (GK) rat, as well as in the normal Wistar rat. Stevioside (0.2 g/kg BW) and D-glucose (2.0 g/kg BW) were administered as i.v. bolus injections in anaesthetized rats. Stevioside significantly suppressed the glucose response to the IVGT in GK rats (incremental area under the curve (IAUC): 648 +/- 50 (stevioside) vs 958 +/- 85 mM x 120 min (control); P < 0.05) and concomitantly increased the insulin response (IAUC: 51116 +/- 10967 (stevioside) vs 21548 +/- 3101 microU x 120 min (control); P < 0.05). Interestingly, the glucagon level was suppressed by stevioside during the IVGT, (total area under the curve (TAUC): 5720 +/- 922 (stevioside) vs 8713 +/- 901 pg/ml x 120 min (control); P < 0.05). In the normal Wistar rat stevioside enhanced insulin levels above basal during the IVGT (IAUC: 79913 +/- 3107 (stevioside) vs 17347 +/- 2882 microU x 120 min (control); P < 0.001), however, without altering the blood glucose response (IAUC: 416 +/- 43 (stevioside) vs 417 +/- 47 mM x 120 min (control)) or the glucagon levels (TAUC: 5493 +/- 527 (stevioside) vs 5033 +/- 264 pg/ml x 120 min (control)). In conclusion, stevioside exerts antihyperglycaemic, insulinotropic, and glucagonostatic actions in the type 2 diabetic GK rat, and may have the potential of becoming a new antidiabetic drug for use in type 2 diabetes.
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PMID:Stevioside induces antihyperglycaemic, insulinotropic and glucagonostatic effects in vivo: studies in the diabetic Goto-Kakizaki (GK) rats. 1192 70

Signal transduction properties of exendin-4 (Ex-4) underlying its ability to stimulate rat insulin I gene promoter (RIP1) activity were assessed in the pancreatic beta-cell line INS-1. Ex-4 acted via glucagon-like peptide-1 receptors to stimulate RIP1 in a glucose-dependent manner, as measured in cells transfected with a -410-bp RIP1-luciferase construct (RIP1-Luc). The action of Ex-4 was independent of cAMP and PKA because it was not blocked by cotransfection with dominant-negative G alpha(s), was unaffected by pretreatment with the membrane-permeant cAMP antagonist 8-Br-Rp-cAMPS, and remained apparent after treatment with PKA inhibitors H-89 or KT 5720. Similarly, cotransfection with a dominant-negative isoform of the type-2 cAMP-regulated guanine nucleotide exchange factor (Epac2) failed to alter the response to Ex-4. Ro 31-8220, a serine/threonine protein kinase inhibitor that targets PKC as as well as the 90-kDa ribosomal S6 kinase (RSK) and mitogen- and stress-activated protein kinase (MSK) family of cAMP response element-binding protein (CREB) kinases, blocked the stimulatory action of Ex-4 at RIP1-Luc. However, selective inhibition of PKC using K-252c, prolonged exposure to phorbol 1,2-myristate-13-acetate, or cotransfection with dominant-negative atypical PKC-zeta, was without effect. A-CREB, a dominant-negative inhibitor of basic region-leucine zipper transcription factors (bZIPs) related in structure to CREB, inhibited the action of Ex-4 at RIP1-Luc, whereas A-ATF-2 was ineffective. Similarly, introduction of deletions at the RIP1 cAMP response element (CRE), or truncation of RIP1 to remove the CRE, nearly abolished the action of Ex-4. Inactivating mutations introduced at the A4/A3 elements, binding sites for the glucose-regulated homeodomain transcription factor PDX-1, did not diminish the response to Ex-4, although a marked reduction of basal promoter activity was observed. The glucose-dependent stimulation of RIP1-Luc by Ex-4 was reproduced using a synthetic reporter (RIP1-CRE-Luc) incorporating multimerized CREs of the RIP1 nonpalindromic sequence 5'-TGACGTCC-3'. It is concluded that the bZIP and CRE-mediated stimulation of RIP1 by Ex-4 explains, at least in part, how this insulinotropic hormone facilitates transcriptional activity of the rat insulin I gene.
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PMID:Exendin-4 as a stimulator of rat insulin I gene promoter activity via bZIP/CRE interactions sensitive to serine/threonine protein kinase inhibitor Ro 31-8220. 1202 Nov 95

Melatonin receptors are expressed within the pancreatic islets of Langerhans, and melatonin induces a direct effect on insulin secretion ex-vivo. Here, we report the endogenous expression of the melatonin Mel 1a receptor in the INS-1 pancreatic beta cell line. Pharmacological characterization of the receptor using a CRE-luciferase reporter gene demonstrated its functional activity in INS-1 cells, displaying the characteristic signaling properties of the G(i/o) coupled receptor. Acute melatonin treatment of INS-1 cells in the presence of either forskolin or the incretin hormone glucagon-like peptide 1 (GLP-1) caused an attenuation of the responses in insulin secretion, insulin promoter activity, and CRE mediated gene expression, consistent with its effects in inhibiting cAMP mediated signal transduction. However, prolonged exposure (12 h) of INS-1 cells to melatonin treatment resulted in a sensitization of cAMP mediated responses to forskolin and GLP-1. Insulin secretion, insulin promoter activity and CRE mediated gene expression levels were augmented compared with responses without melatonin pre-treatment in INS-1 cells. In isolated rat islets, insulin secretion was enhanced following melatonin pre-treatment both in the absence and presence of GLP-1 or forskolin. This phenomenon reflects observations reported in other cell types expressing the melatonin Mel 1a receptor, and may represent the first evidence of a specific physiological role for melatonin-induced sensitization.
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PMID:Identification and functional characterization of melatonin Mel 1a receptors in pancreatic beta cells: potential role in incretin-mediated cell function by sensitization of cAMP signaling. 1206 99

Glucagon-like peptide 1 (GLP-1) is an incretin hormone that is secreted from the enteroendocrine L-cells of the gut in response to nutrient ingestion. GLP-1 enhances both insulin secretion and insulin gene expression in a glucose-dependent manner via activation of its putative G-protein-coupled receptor on pancreatic beta-cells. In the presence of DMSO (0.5-2.5%), these functional responses were enhanced significantly (2- to 2.5-fold) in a concentration-dependent manner in the beta-cell line INS-1, although basal levels were not affected. Rat insulin 1 (rINS1) promoter activity appeared to be augmented in a cAMP-response element (CRE)-dependent manner as the effect of DMSO was abolished following a mutation in the CRE of the rINS1 promoter. Also, expression of a generic cAMP-driven reporter gene was enhanced by 1.5% DMSO in response to GLP-1 (3.5-fold), forskolin (2-fold), and 3-isobutyl-1-methylxanthine (2-fold). Analysis of intracellular signaling components revealed that DMSO did not elevate cAMP levels, protein kinase A activity, or phosphorylated levels of CRE-binding protein (CREB), CRE-modulator (CREM), and activating transcription factor-1 (ATF-1). These data suggest that GLP-1 induces insulin gene transcription in a CREB, CREM, and ATF-1-independent manner in beta-cells. The mechanism by which DMSO imparts this amplifying action is unclear but may involve redistribution of intracellular compartments or a direct molecular interaction with a downstream target of the GLP-1 receptor signaling pathway in the beta-cell. These effects of DMSO on incretin action may provide novel applications with respect to further characterizing GLP-1 receptor signaling, identifying incretin-like compounds in screening assays, and as a therapeutic treatment in type 2 diabetes.
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PMID:Synergistic effect of dimethyl sulfoxide on glucagon-like peptide 1 (GLP-1)-stimulated insulin secretion and gene transcription in INS-1 cells: characterization and implications. 1216 88

Cyclic AMP potentiates glucose-stimulated insulin release and mediates the stimulatory effects of hormones such as glucagon-like peptide 1 (GLP-1) on pancreatic beta-cells. By inhibition of cAMP-degrading phosphodiesterase (PDE) and, in particular, selective inhibition of PDE3 activity, stimulatory effects on insulin secretion have been observed. Molecular and functional information on beta-cell PDE3 is, however, scarce. To provide such information, we have studied the specific effects of the PDE3B isoform by adenovirus-mediated overexpression. In rat islets and rat insulinoma cells, approximate 10-fold overexpression of PDE3B was accompanied by a 6-8-fold increase in membrane-associated PDE3B activity. The cAMP concentration was significantly lowered in transduced cells (INS-1(832/13)), and insulin secretion in response to stimulation with high glucose (11.1 mm) was reduced by 40% (islets) and 50% (INS-1). Further, the ability of GLP-1 (100 nm) to augment glucose-stimulated insulin secretion was inhibited by approximately 30% (islets) and 70% (INS-1). Accordingly, when stimulating with cAMP, a substantial decrease (65%) in exocytotic capacity was demonstrated in patch-clamped single beta-cells. In untransduced insulinoma cells, application of the PDE3-selective inhibitor OPC3911 (10 microm) was shown to increase glucose-stimulated insulin release as well as cAMP-enhanced exocytosis. The findings suggest a significant role of PDE3B as an important regulator of insulin secretory processes.
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PMID:Important role of phosphodiesterase 3B for the stimulatory action of cAMP on pancreatic beta-cell exocytosis and release of insulin. 1216 92

Glucagon-like peptide-1 (GLP-1) elicits a glucose-dependent insulin secretory effect via elevation of cAMP and activation of protein kinase A (PKA). GLP-1-mediated closure of ATP-sensitive potassium (K(ATP)) channels is involved in this process, although the mechanism of action of PKA on the K(ATP) channels is not fully understood. K(ATP) channel currents and membrane potentials were measured from insulin-secreting INS-1 cells and recombinant beta-cell K(ATP) channels. 20 nM GLP-1 depolarized INS-1 cells significantly by 6.68 +/- 1.29 mV. GLP-1 reduced recombinant K(ATP) channel currents by 54.1 +/- 6.9% in mammalian cells coexpressing SUR1, Kir6.2, and GLP-1 receptor clones. In the presence of 0.2 mM ATP, the catalytic subunit of PKA (cPKA, 20 nM) had no effect on SUR1/Kir6.2 activity in inside-out patches. However, the stimulatory effects of 0.2 mM ADP on SUR1/Kir6.2 currents were reduced by 26.7 +/- 2.9% (P < 0.05) in the presence of cPKA. cPKA increased SUR1/Kir6.2 currents by 201.2 +/- 20.8% (P < 0.05) with 0.5 mM ADP present. The point mutation S1448A in the ADP-sensing region of SUR1 removed the modulatory effects of cPKA. Our results indicate that PKA-mediated phosphorylation of S1448 in the SUR1 subunit leads to K(ATP) channel closure via an ADP-dependent mechanism. The marked alteration of the PKA-mediated effects at different ADP levels may provide a cellular mechanism for the glucose-sensitivity of GLP-1.
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PMID:Glucagon-like peptide-1 inhibits pancreatic ATP-sensitive potassium channels via a protein kinase A- and ADP-dependent mechanism. 1219 49

The second messenger cAMP exerts powerful stimulatory effects on Ca(2+) signaling and insulin secretion in pancreatic beta-cells. Previous studies of beta-cells focused on protein kinase A (PKA) as a downstream effector of cAMP action. However, it is now apparent that cAMP also exerts its effects by binding to cAMP-regulated guanine nucleotide exchange factors (Epac). Although one effector of Epac is the Ras-related G protein Rap1, it is not fully understood what the functional consequences of Epac-mediated signal transduction are at the cellular level. 8-(4-chloro-phenylthio)-2'-O-methyladenosine-3'-5'-cyclic monophosphate (8-pCPT-2'-O-Me-cAMP) is a newly described cAMP analog, and it activates Epac but not PKA. Here we demonstrate that 8-pCPT-2'-O-Me-cAMP acts in human pancreatic beta-cells and INS-1 insulin-secreting cells to mobilize Ca(2+) from intracellular Ca(2+) stores via Epac-mediated Ca(2+)-induced Ca(2+) release (CICR). The cAMP-dependent increase of [Ca(2+)](i) that accompanies CICR is shown to be coupled to exocytosis. We propose that the interaction of cAMP and Epac to trigger CICR explains, at least in part, the blood glucose-lowering properties of an insulinotropic hormone (glucagon-like peptide-1, also known as GLP-1) now under investigation for use in the treatment of type-2 diabetes mellitus.
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PMID:Epac-selective cAMP analog 8-pCPT-2'-O-Me-cAMP as a stimulus for Ca2+-induced Ca2+ release and exocytosis in pancreatic beta-cells. 1249 49

Functional coupling between Ca(2+)-induced Ca(2+) release (CICR) and quantal exocytosis in 5-hydroxytryptamine-loaded INS-1 beta cells was assessed through the use of carbon fibre amperometry in combination with Fura-2. CICR was evoked by the glucagon-like-peptide-1 (GLP-1) receptor agonist exendin-4 (Ex-4) and was accompanied by quantal secretory events appearing as amperometric current spikes time-locked to the increase of [Ca(2+)](i). The action of Ex-4 was reproduced by treatment with caffeine, and the source of Ca(2+) serving as a stimulus for exocytosis originated from ryanodine and thapsigargin-sensitive Ca(2+) stores. Two distinct patterns of exocytosis occurred within 5 s following the initiation of CICR. Non-summating exocytosis (NS-type) was defined as multiple asynchronous current spikes, and the half-height duration of each spike was 12-48 ms. Summating exocytosis (S-type) was defined as a cluster of spikes. It generated a macroscopic current, the half-height duration of which was 243-682 ms. The release charge of S-type exocytosis was 3.2-fold greater than that of NS-type when measured 2 s following the initiation of secretion. NS-type exocytosis was observed frequently under conditions in which the basal Ca(2+) concentration ([Ca(2+)](B)) was low (75-150 nM), whereas S-type exocytosis predominated under conditions in which the [Ca(2+)](B) was elevated (200-275 nM). Depolarization-induced Ca(2+) influx triggered NS-type exocytosis in most cells tested, irrespective of [Ca(2+)](B). It is concluded that CICR is a highly effective stimulus for exocytosis in INS-1 cells. The increase of [Ca(2+)](i) that accompanies CICR stimulates the asynchronous release of a small number of secretory granules under conditions of low [Ca(2+)](B). When [Ca(2+)](B) is slightly elevated, CICR targets a much larger pool of secretory granules that undergo summating exocytosis. The transition from NS-type to S-type exocytosis may represent an amplification mechanism for Ca(2+)-dependent exocytosis.
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PMID:Amplification of exocytosis by Ca2+-induced Ca2+ release in INS-1 pancreatic beta cells. 1250 87

Ca(2+)/calmodulin-dependent protein kinase II is a member of a broad family of ubiquitously expressed Ca(2+) sensing serine/threonine-kinases. Ca(2+)/calmodulin-dependent protein kinase II is highly expressed in insulin secreting cells and is associated with insulin secretory granules and has been proposed to play an important role in exocytosis or in insulin granule transport to release sites. To elucidate its function the antisense sequence of the major beta-cell subtype, Ca(2+)/calmodulin-dependent protein kinase II delta(2), was stably expressed in INS-1 rat insulinoma cells. This caused a loss of Ca(2+)/calmodulin-dependent protein kinase II delta(2) expression at the mRNA and protein level, while the expression of the 95% homologous Ca(2+)/calmodulin-dependent protein kinase II gamma and of beta-cell specific proteins such as the homeodomain factor pancreatic-duodenal homeobox factor-1 (PDX-1, also referred to as islet/duodenum homeobox-1, IDX-1, insulin promoter factor-1, IPF-1 and somatostatin transactivating factor-1, STF-1), the glucagon-like peptide-1 (GLP-1) receptor and K(ATP)-channels K(IR)6.2/SUR-1 (sulfonylurea receptor-1) was not altered. Unexpectedly, the cells showed a large reduction of insulin gene expression, which was due to reduced insulin gene transcription. Electrophoretic mobility shift assays of PDX-1 binding to the insulin promoter A1 and E2/A3A4 elements showed additional bands indicating alterations of PDX-1 complex formation. Stable over expression of Ca(2+)/calmodulin-dependent protein kinase II delta(2), by contrast, was associated with elevated expression of insulin mRNA. Therefore, we conclude that Ca(2+)/calmodulin-dependent protein kinase II delta(2) links fuel-dependent increases in intracellular Ca(2+) concentrations to transcriptional regulation of genes related to the metabolic control of insulin secretion.
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PMID:Ca2+/calmodulin-dependent protein kinase II delta2 regulates gene expression of insulin in INS-1 rat insulinoma cells. 1260 Aug 4

Recent studies into the physiology of the incretins glucose-dependent insulinotropic polypeptide (GIP) and glucagon-like peptide-1 (GLP-1) have added stimulation of beta-cell growth, differentiation, and cell survival to well-documented, potent insulinotropic effects. Unfortunately, the therapeutic potential of these hormones is limited by their rapid enzymatic inactivation in vivo by dipeptidyl peptidase IV (DP IV). Inhibition of DP IV, so as to enhance circulating incretin levels, has proved effective in the treatment of type 2 diabetes both in humans and in animal models, stimulating improvements in glucose tolerance, insulin sensitivity, and beta-cell function. We hypothesized that enhancement of the cytoprotective and beta-cell regenerative effects of GIP and GLP-1 might extend the therapeutic potential of DP IV inhibitors to include type 1 diabetes. For testing this hypothesis, male Wistar rats, exposed to a single dose of streptozotocin (STZ; 50 mg/kg), were treated twice daily with the DP IV inhibitor P32/98 for 7 weeks. Relative to STZ-injected controls, P32/98-treated animals displayed increased weight gain (230%) and nutrient intake, decreased fed blood glucose ( approximately 26 vs. approximately 20 mmol/l, respectively), and a return of plasma insulin values toward normal (0.07 vs. 0.12 nmol/l, respectively). Marked improvements in oral glucose tolerance, suggesting enhanced insulin secretory capacity, were corroborated by pancreas perfusion and insulin content measurements that revealed two- to eightfold increases in both secretory function and insulin content after 7 weeks of treatment. Immunohistochemical analyses of pancreatic sections showed marked increases in the number of small islets (+35%) and total beta-cells (+120%) and in the islet beta-cell fraction (12% control vs. 24% treated) in the treated animals, suggesting that DP IV inhibitor treatment enhanced islet neogenesis, beta-cell survival, and insulin biosynthesis. In vitro studies using a beta-(INS-1) cell line showed a dose-dependent prevention of STZ-induced apoptotic cell-death by both GIP and GLP-1, supporting a role for the incretins in eliciting the in vivo results. These novel findings provide evidence to support the potential utility of DP IV inhibitors in the treatment of type 1 and possibly late-stage type 2 diabetes.
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PMID:Dipeptidyl peptidase IV inhibitor treatment stimulates beta-cell survival and islet neogenesis in streptozotocin-induced diabetic rats. 1260 16


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