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)

The methylxanthine theophylline increases intrahepatic c-AMP and c-AMP mediates the hepatic glucose response to adrenaline and glucagon. Intravenous theophylline increases glucose recovery during acute insulin-induced hypoglycaemia and caffeine increases hypoglycaemia awareness and glucoregulatory hormone secretion. In this study we tested the hypothesis that long-term administration of theophylline might augment glucose recovery after insulin-induced hypoglycaemia. Eleven healthy subjects and 8 patients with Type 1 diabetes mellitus were made hypoglycaemic by 60 min insulin infusion (40 mU m(-2)) after 2 weeks' oral therapy with Euphyllin Retard (theophylline) or placebo. Plasma glucose nadir was 2.54 (2.31-2.77) mmol l(-1) after Euphyllin Retard and 2.27 (2.05-2.48) mmol l(-1) after placebo (mean difference 0.26 (0.05-0.58) mmol l(-1), p = 0.09) for healthy control subjects and 2.56 (2.07-3.04) mmol l(-1) and 2.19 (1.37-2.65) mmol l(-1) (mean difference 0.38 (0.12-0.63) mmol l(-1), p = 0.01), respectively, for diabetic patients. The area under the glucose curve was greater after theophylline treatment for healthy control subjects (p = 0.0292) and for diabetic patients (p = 0.0241) but there were no concomitant significant increases in plasma c-AMP or in endogenous glucose production rate. Whether the increase in glucose recovery is large enough to suggest that chronic theophylline administration will protect against insulin-induced hypoglycaemia remains unsettled.
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PMID:Long-term administration of theophylline and glucose recovery after hypoglycaemia in patients with type 1 diabetes mellitus. 968 2

Glucagon-like peptide-1 (GLP-1) is an intestinally derived insulinotropic hormone currently under investigation for use as a novel therapeutic agent in the treatment of type 2 diabetes mellitus. In vitro studies of pancreatic islets of Langerhans demonstrated that GLP-1 interacts with specific beta-cell G protein-coupled receptors, thereby facilitating insulin exocytosis by raising intracellular levels of cAMP and Ca2+. Here we report that the stimulatory influence of GLP-1 on Ca2+ signaling results, in part, from cAMP-dependent mobilization of ryanodine-sensitive Ca2+ stores. Studies of human, rat, and mouse beta-cells demonstrate that the binding of a fluorescent derivative of ryanodine (BODIPY FL-X ryanodine) to its receptors is specific, reversible, and of high affinity. Rat islets and BTC3 insulinoma cells are shown by reverse transcriptase polymerase chain reaction analyses to express mRNA corresponding to the type 2 isoform of ryanodine receptor-intracellular Ca2+ release channel (RYR2). Single-cell measurements of [Ca2+]i using primary cultures of rat and human beta-cells indicate that GLP-1 facilitates Ca2+-induced Ca2+ release (CICR), whereby mobilization of Ca2+ stores is triggered by influx of Ca2+ through L-type Ca2+ channels. In these cells, GLP-1 is shown to interact with metabolism of D-glucose to produce a fast transient increase of [Ca2+]i. This effect is reproduced by 8-Br-cAMP, but is blocked by a GLP-1 receptor antagonist (exendin-(9-39)), a cAMP antagonist ((Rp)-cAMPS), an L-type Ca2+ channel antagonist (nimodipine), an antagonist of the sarco(endo)plasmic reticulum Ca2+ ATPase (thapsigargin), or by ryanodine. Characterization of the CICR mechanism by voltage clamp analysis also demonstrates a stimulation of Ca2+ release by caffeine. These findings provide new support for a model of beta-cell signal transduction whereby GLP-1 promotes CICR by sensitizing intracellular Ca2+ release channels to the stimulatory influence of cytosolic Ca2+.
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PMID:cAMP-dependent mobilization of intracellular Ca2+ stores by activation of ryanodine receptors in pancreatic beta-cells. A Ca2+ signaling system stimulated by the insulinotropic hormone glucagon-like peptide-1-(7-37). 1031 32

The effects of 1,4-dideoxy-1,4-imino-d-arabinitol (DAB) were investigated on preparations of glycogen phosphorylase (GP) and in C57BL6J (ob/ob) mice by (13)C NMR in vivo. Independent of the phosphorylation state or the mammalian species or tissue from which GP was derived, DAB inhibited GP with K(i)-values of approximately 400 nM. The mode of inhibition was uncompetitive or noncompetitive, with respect to glycogen and P(i), respectively. The effects of glucose and caffeine on the inhibitory effect of DAB were investigated. Taken together, these data suggest that DAB defines a novel mechanism of action. Intraperitoneal treatment with DAB (a total of 105 mg/kg in seven doses) for 210 min inhibited glucagon-stimulated glycogenolysis in obese and lean mice. Thus, liver glycogen levels were 361 +/- 19 and 228 +/- 19 micromol glucosyl units/g with DAB plus glucagon in lean and obese mice, respectively, compared to 115 +/- 24 and 37 +/- 8 micromol glucosyl units/g liver with glucagon only. Moreover, with glucagon only end-point blood glucose levels were at 29 +/- 2 and 17.5 +/- 2 mM in obese and lean mice, respectively, compared to 17.5 +/- 1 and 12 +/- 1 mM with glucagon plus DAB. In conclusion, DAB is a novel and potent inhibitor of GP with an apparently distinct mechanism of action. Further, DAB inhibited the hepatic glycogen breakdown in vivo and displayed an accompanying anti-hyperglycemic effect, which was most pronounced in obese mice. The data suggest that inhibition of GP may offer a therapeutic principle in Type 2 diabetes.
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PMID:Kinetic and functional characterization of 1,4-dideoxy-1, 4-imino-d-arabinitol: a potent inhibitor of glycogen phosphorylase with anti-hyperglyceamic effect in ob/ob mice. 1093 82

Pancreatic beta-cells from obese-hyperglycemic (ob/ob) mice are widely used for studying the mechanisms of insulin release, including its regulation by the cytoplasmic Ca2+ concentration ([Ca2+]i). In this study, we compared changes of [Ca2+]i in single beta-cells isolated from ob/ob mice with those from lean mice using dual-wavelength microfluorometry and the indicator fura-2. There were no differences in the frequency, amplitude, and half-width of the slow oscillations induced by glucose. Most beta-cells from the obese mice responded to 10 mM caffeine with transformation of the oscillations into sustained elevation of [Ca2+]i, a process counteracted by ryanodine. The beta-cells from the obese mice were characterized by ample generation of [Ca2+]i transients, which increased in number in the presence of glucagon. The transients became less frequent when leptin was added at a concentration as low as 1 nM. It is suggested that the excessive firing of [Ca2+]i transients in the ob/ob mice is owing to the absence of leptin and is mediated by activation of the phospholipase C signaling pathway.
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PMID:Pancreatic beta-cells from obese-hyperglycemic mice are characterized by excessive firing of cytoplasmic Ca2+ transients. 1157 29

Reported species differences in the stimulus-secretion coupling of insulin release made it important to compare the Ca2+ handling of rat beta-cells with that previously observed in mice. Single beta-cells and small aggregates were prepared from pancreatic islets of Wistar rats, attached to cover slips and then used for measuring the cytoplasmic Ca2+ concentration ([Ca2+]i) with the ratiometric fura-2 technique. Glucose (11 mM) induced slow oscillations of [Ca2+]i similar to those seen in other species, including humans. Comparison of the oscillations in rat beta-cells with those previously described in mouse revealed that there was a slightly lower frequency and an increased tendency to transformation into sustained [Ca2+]i in response to glucagon or caffeine. Ryanodine (5-20 microM) did not affect existing oscillations but sometimes restored rhythmic activity in the presence of caffeine. Stimulation with glucose resulted not only in oscillations but also in transients of [Ca2+]i sometimes appearing in synchrony in adjacent beta-cells and disappearing after the addition of 200 nM thapsigargin or 20 mM caffeine. The frequency of transients recorded in a medium containing glucagon and methoxyverapamil was higher than seen under similar conditions in mouse beta-cells. Although exhibiting some differences compared with mouse beta-cells, rat beta-cells also have an intrinsic ability to oscillate and to generate the transients of [Ca2+] that are supposed to synchronize the rhythmicity of the islets in the pancreas.
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PMID:Ca2+ handling of rat pancreatic beta-cells exposed to ryanodine, caffeine, and glucagon. 1204 11

Two distinct glycogen phosphorylase inhibitors, 5-chloro-1H-indole-2-carboxylic acid [1-(4-fluorobenzyl)-2-(4-hydroxy-piperidin-1-yl)-2-oxoethyl]amide (CP-320,626) and 1,4-dideoxy-1,4-D-arabinitol (DAB), were characterized in vitro with respect to the influence of glucose on their potencies. CP-320,626 has previously been shown to bind to a newly characterized indole site, whereas DAB seems to act as a glucose analogue, but with slightly different properties from those of glucose. When analysed in pig liver glycogen phosphorylase a (GPa) activity assays, the two inhibitors showed very different properties. When GPa activity was measured in the physiological direction (glycogenolysis), DAB was the most potent inhibitor with an IC(50) value of 740+/-9 nM compared with the IC(50) value for CP-320-626 of 2.39+/-0.37 microM. There was no effect of glucose on the inhibitory properties of DAB, whereas a glucose analogue N-acetyl-beta-D-glucopyranosylamine (1-GlcNAc) antagonized the effect of DAB. Likewise, there was no synergistic effect of CP-320,626 and glucose, whereas CP-320,626 and 1-GlcNAc inhibited GPa in synergy. Moreover, the synergistic effect of glucose and CP-320,626 was GPa-isoform-specific, since CP-320,626 and glucose inhibited rabbit muscle GPa in synergy when the GPa activity was measured towards glycogenolysis. When GPa activity was measured towards glycogen synthesis, CP-320,626 showed a synergistic effect with glucose, whereas the effect of DAB was slightly antagonized by glucose in this assay direction. Caffeine was included in the investigation as a control GP inhibitor, and both glucose and 1-GlcNAc potentiated the effect of caffeine independent of the assay direction. In primary cultured rat hepatocytes 1-GlcNAc and CP-320,626 inhibited basal and glucagon-induced glycogenolysis in synergy, whereas the ability of DAB to inhibit basal or glucagon-induced glycogenolysis was unaltered by 1-GlcNAc. Glucose had no effect on either CP-320,626 or DAB inhibition of glycogenolysis in cultured rat hepatocytes. In conclusion, the present study shows that the two GP inhibitors are kinetically very distinct and neither of the inhibitors demonstrates a physiologically relevant glucose dependence in vitro.
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PMID:The effect of glucose on the potency of two distinct glycogen phosphorylase inhibitors. 1209 91

We investigated intracellular Ca(2+) ([Ca(2+)](i)) oscillations evoked by glucagon-like peptide 1 (GLP-1) in relation to the ryanodine receptor (RyR) and Ca(2+)-induced Ca(2+)release (CICR) mechanism in pancreatic B cell HIT. GLP-1 produced [Ca(2+)](i) oscillations in the cells, both in media with and without Ca(2+), an effect inhibited by ruthenium red and mimicked by 8-Br-cAMPS. In addition, the GLP-1-evoked [Ca(2+)](i) rise was initiated at the local intercellular peripheral cytoplasm, and a resultant expansion of the intercellular space was also observed. Caffeine induced [Ca(2+)](i) elevation in the medium with or without Ca(2+), an effect inhibited by ruthenium red. GLP-1-evoked [Ca(2+)](i) oscillations were also enhanced by IBMX, and eliminated by Rp-8-Br-cAMPS or 20 microM H-89 treatments whereas they were unaffected by 2 microM H-89 treatment. Forskolin caused a transient elevation in [Ca(2+)](i) that was reduced by Rp-8-Br-cAMPS, 2 microM or 20 microM H-89. Our results indicate that GLP-1 initially generated a local [Ca(2+)](i) elevation at the peripheral cytoplasm, subsequently producing [Ca(2+)](i) oscillations that were inhibited by ruthenium red, involving ryanodine-sensitive and cAMP-activated CICR mechanisms. The cytoplasmic levels of cAMP as well as local Ca(2+) might be responsible for [Ca(2+)](i) oscillations.
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PMID:Involvement of the ryanodine-sensitive Ca2+ store in GLP-1-induced Ca2+ oscillations in insulin-secreting HIT cells. 1246 36

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

The ability of several drugs to restore directly elicited twitches of the rat diaphragm depressed by excess potassium chloride has been studied. The drugs found to be effective were sympathomimetic amines, insulin, glucagon, caffeine, theophylline, calcium chloride and hexosephosphates. The effects of the sympathomimetic amines and glucagon were blocked by beta-receptor blocking agents. Phloridzin blocked the effect of insulin and depressed that of glucagon. The increase in twitch tension still occurred under anaerobic conditions and was not abolished by the glycolytic inhibitor, iodoacetate. All of the effective drugs are known to affect carbohydrate metabolism and the suggestion by Ellis (1955) that the effect on contractions may be a result of increased intracellular hexosephosphate levels is discussed.
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PMID:THE EFFECTS OF ADRENALINE AND OTHER DRUGS AFFECTING CARBOHYDRATE METABOLISM ON CONTRACTIONS OF THE RAT DIAPHRAGM. 1420 94

Gateways to Clinical Trials is a guide to the most recent clinical trials in current literature and congresses. The data in the following tables has been retrieved from the Clinical Studies Knowledge Area of Prous Science Integrity, the drug discovery and development portal, http://integrity.prous.com. This issue focuses on the following selection of drugs: Abetimus sodium, Ad5-FGF4, adeno-Interferon gamma, AE-941, AERx, alemtuzumab, alicaforsen sodium, almotriptan, alpharadin, anakinra, anatumomab mafenatox, ANG-453, anti-CTLA-4 Mab, AP-12009, aprepitant, aripiprazole, arsenic trioxide, astemizole, atlizumab, atomoxetine hydrochloride; Bevacizumab, BG-9928, BMS-188667, botulinum toxin type B, BufferGel; Caffeine, CDP-870, cetuximab, cilomilast, ciluprevir, clofarabine, continuous erythropoiesis receptor activator, CP-461; Darbepoetin alfa, deferasirox, desloratadine, desoxyepothilone B, diflomotecan, dolasetron, drotrecogin alfa (activated), duloxetine hydrochloride; ED-71, efalizumab, efaproxiral sodium, EKB-569, eletriptan, EMD-72000, enfuvirtide, erlotinib hydrochloride, escitalopram oxalate, etoricoxib; Fampridine, ferumoxytol, fondaparinux sodium; Gadofosveset sodium, gastrazole, gefitinib, gemtuzumab ozogamicin, gepirone hydrochloride glutamine; hLM609, HSPPC-96, human insulin; IDD-1, imatinib mesylate, indisulam, inhaled insulin, ixabepilone; Keratinocyte growth factor; Lapatinib, laquinimod, LDP-02, LE-SN38, levetiracetam, levosimendan, licofelone, liposomal doxorubicin, liposomal NDDP, lopinavir, lumiracoxib, LY-156735; Morphine hydrochloride, morphine-6-glucuronide, motexafin gadolinium, MS-27-275, MVA-5T4, MVA-Muc1-IL-2; Nemifitide ditriflutate, neridronic acid nitronaproxen, NSC-683864, NSC-703940, NVP-LAF-237; Oblimersen sodium, ocinaplon, oncomyc-NG, OPC-28326, ortataxel, ospemifene; Palonosetron hydrochloride, PEG-filgrastim peginterferon alfa-2(a), peginterferon alfa-2b, pegsunercept, pemetrexed disodium, pregabalin, prilocaine, pyridoxamine; RDP-58, recombinant glucagon-like peptide-1 (7-36) amide, recombinant human ApoA-I milano/phospholipid complex; SB-715992, soblidotin, sodium dichloroacetate, St. John's Wort extract; TAS-102, terfenadine, TG-1024, TG-5001, 4'-Thio-ara-C, tipranavir, topixantrone hydrochloride, trabectedin, transdermal selegiline, trimethoprim, troxacitabine, TT-232; Vatalanib succinate, vinflunine; Ximelagatran; Ziprasidone hydrochloride, Zoledronic acid monohydrate.
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PMID:Gateways to clinical trials. 1498 42


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