UNIPROT:P01275 - FACTA Search

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Query: UNIPROT:P01275 (glucagon)
26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of inotropic agents on systolic transmembrane Ca++ flux were studied in isolated perfused guinea pig hearts depolarized with 22 mM K+. After depolarization, inotropic agents were added to the perfusion medium in an attempt to resotre excitability and contractions to the heart. Electrophysiological studies have shown that if excitability can be restored to the heart under these conditions, Ca++ carries the inward current of the action potential. Agents which putatively act by increasing intracellular levels of adenosine 3',5'-monophosphate (cyclic AMP) (isoproterenol, histamine, theophylline, papaverine, dibutyryl cyclic AMP) and Ca++ were found to restore excitability and contractions to K+-depolarized hearts. Threshold concentration for restoration by isoproterenol was 2 nM, and the strength of contractions developed by the restored heart were directly related to the dose of catecholamine used. Ca++ restoration was abolished by Ca++ antagonists (D 600, verapamil) but unaffected by beta blockade, whereas isoproterenol restoration was abolished by both. Ouabain, glucagon, and the divalent cation ionophore, A32187, failed to restore excitability to depolarized hearts. Correlative studies of tissue cyclic AMP levels were done. These data suggest that cyclic AMP can activate action potential-dependent Ca++ influx channels in myocardial cells.
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PMID:The relationship between adenosine 3',5'-monophosphate levels and systolic transmembrane calcium flux. 17 11

Dispersed mucosal cells (approx. 70% parietal cells) prepared from guinea pig stomach maintained their cellular concentration of potassium (65--80 nmol potassium/10(6) cells) for at least 5 h in vitro. Uptake of 42K by dispersed gastric mucosal cells depended on temperature, H+ concentration and oxidative metabolism. Carbachol and, in some instances, gastrin caused a 40--50% increase in cellular uptake of 42K as a consequence of the ability of these agents to increase 42K influx. Ouabain reduced uptake of 42K by 70% but did not alter the effect of carbachol. Cellular uptake of 42K was not altered by histamine, prostaglandin, E1, glucagon, secretin, vasoactive intestinal peptide or C-terminal octapeptide of cholecystokinin. Uptake of 42K was also increased by dibutyryl cyclic AMP or dibutyryl cyclic GMP but not by cyclic AMP, cyclic GMP or their 8-bromo derivatives. Theophylline caused a small (10--15%) increase in 42K uptake and potentiated the increase caused by submaximal concentrations of carbachol. The increase in 42K uptake caused by either dibutyryl cyclic nucleotide and carbachol was additive.
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PMID:Potassium transport in dispersed mucosal cells from guinea pig stomach. 63 44

Na(+)-K(+)-ATPase provides the driving force for cellular Na+ transport and exists in multiple isoforms that differ in ouabain sensitivities. We report that the Ki for ouabain inhibition of glucose-evoked short-circuit current, determined in intact rat ileal mucosa mounted in Ussing chambers, is higher in streptozocin-induced chronically diabetic rats than in age-matched controls. The changes in ouabain sensitivity seen in diabetes also occurred when intact ileum of age-matched controls was incubated in vitro with 2.8 x 10(-5) M glucagon for at least 80 min. The effect of glucagon was blocked by cycloheximide, indicating a role for protein synthesis. This suggests that changes in ouabain sensitivity seen in diabetes are produced by glucagon, the serum concentration of which increases in diabetes. Ouabain-dependent phosphorylation of Na(+)-K(+)-ATPase (backdoor phosphorylation) revealed a higher Km for phosphate in intestinal basolateral membranes obtained from diabetic rats compared with age-matched controls, again confirming a decrease in ouabain sensitivity. Furthermore, the mRNA encoding the alpha 1-isoform was upregulated 2.6-fold in chronically diabetic intestines. This suggests that the ouabain sensitivity seen during diabetes may be due to upregulation of the alpha 1-isoform, known to be less sensitive to ouabain than the other isoforms.
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PMID:Diabetes mellitus and glucagon alter ouabain-sensitive Na(+)-K(+)-ATPase in rat small intestine. 166 91

1. The inotropic activity of glucagon was compared with catecholamines and cardiac glycosides by in vitro procedures which were able to differentiate between the activities of the latter two groups.2. The frequency-force curve for glucagon resembled that of noradrenaline at low stimulation frequencies (1 and 2/min) and that of ouabain at more rapid frequencies of stimulation.3. Noradrenaline and adrenaline increased the amplitude of contraction of cat papillary muscles and markedly shortened the time to reach peak tension. Ouabain and glucagon increased tension without any change in the time to peak tension.4. Noradrenaline caused a rapid onset and rate of rise of contraction of cat aortic strips, whereas the response to ouabain was slow in onset and rate of development. Glucagon had no effect on this preparation, even at high concentrations.5. Manganese ions caused a shift of the dose-response curve to ouabain and glucagon, but not to noradrenaline or calcium. In 0.5 mM Ca media, the response to ouabain was abolished and the curve to noradrenaline shifted.6. When glucagon was added to an atrial preparation, the time to the initial increase in tension and the time to maximal tension was intermediate between that necessary for noradrenaline and that necessary for cardiac glycosides.7. Propranolol blocked the inotropic response to noradrenaline, but not to either ouabain or glucagon.8. A relative measure of contraction-dependency was described. Cardiac glycosides exhibited a greater degree of contraction-dependency than either noradrenaline or glucagon.9. Adrenaline elevated the depressed plateau of the action potential from calf and sheep Purkinje fibres, but ouabain and glucagon were without effect.10. Electrophysiological measurements demonstrated that moderate concentrations of glucagon exerted only a small effect in prolonging atrial and ventricular action potentials.11. Several pharmacological blocking drugs and other inotropic agents did not potentiate or block the inotropic response to glucagon. Reserpine pretreatment increased the response to glucagon.12. It was concluded that glucagon has its own spectrum of inotropic activity and does not completely mimic the effects of either ouabain or noradrenaline.
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PMID:Comparison of the inotropic response to glucagon, ouabain and noradrenaline. 549 91

The effects of 23 agonists on the rates of cellular 32P efflux and lactate dehydrogenase (LDH) release were tested in a perfused rat heart preparation which had been prelabelled in vitro with [32P]Pi. Some 13 compounds produced detectable changes at high doses within 10 min, and in most cases a polyphasic response was observed. Six classes of compound gave rise to substantial effects, as follows. Catecholamines and glucagon produced a transient initial stimulation of Pi efflux, followed by a long-term inhibition of Pi transport and an increased rate of LDH release. These effects were clearly different from the response seen after treatment with dibutyryl cyclic AMP, which had a slower, stimulatory, effect on Pi output in doses which gave rise to a pronounced inotropic effect, and produced a marked increase in both coronary flow and LDH release. Carbachol also gave rise to a large transient stimulation of Pi efflux, which was followed by smaller sustained increase in Pi output without any obvious effect on LDH release. Dibutyryl cyclic GMP had no effect on Pi efflux or LDH release. Insulin decreased the rate of Pi efflux, although the loss rate partially recovered towards the control value after prolonged exposure to the hormone. Insulin had no obvious inotropic effects and produced no change in the rate of LDH release. Corticosteroids increased the rate of Pi efflux, although the loss rate partially declined towards the control value with prolonged exposure to the hormones. Corticosteroids produced a very slight inotropic response, and large doses sometimes increased the rate of LDH release from the tissue. Aldosterone slightly stimulated Pi output. A small, transient and somewhat variable stimulation of Pi efflux was observed with vasopressin and angiotensin, whereas tri-iodothyronine was slightly inhibitory, but adenosine, histamine, spermidine, des-Asp1-angiotensin, prolactin, parathyroid substances, calcitonin and somatostatin had no significant effects under our experimental conditions. Ouabain stimulated Pi efflux in doses that had no detectable inotropic effect. It is suggested that Pi efflux involves the electroneutral transport of NaH2PO4 across the cardiac plasmalemma and that many of the hormonal effects might be explained by changes in the intracellular [Na+] and pH in addition to changes in the intracellular [Pi].
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PMID:Some hormonal effects on myocardial phosphate efflux. 609 15

Glucagon caused a 2-2.5-fold increase in 86Rb+ (a K+ tracer) uptake in primary monolayers of rat hepatocytes. Removal of the hormone led to a slow reversal of the effect over a period of hours. Glucagon acted by increasing the maximum velocity of influx. Ouabain inhibited Rb+ uptake in both hormone-induced and control cells by 85-90%. Hormone stimulation and ouabain inhibition did not affect exit. The induction by glucagon required 3-4 h for full expression and was dependent on protein synthesis and changes in cAMP. Half-maximum stimulation occurred at a concentration of 0.4 nM of the hormone. The ionophores monensin and gramicidin, which lead to Na+ influx, stimulated ouabain-sensitive Rb+ transport. This suggested that the (Na,K)-pump rate is limited by the internal Na+ concentration in both glucagon-stimulated and control cells.
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PMID:Stimulation of Rb+ transport by glucagon in isolated rat hepatocytes. 625 9

The stimulatory effect of the sodium ionophore, veratridine (10, 25 and 50 microM), on glucagon and insulin secretion was investigated using monolayer cultures of newborn rat pancreas. The results suggest that intracellular accumulation of sodium modulates hormone secretion from both alpha- and beta-cells. The action of veratridine is dependent, at least in part, on the extracellular calcium as its effect was attenuated or lost when extracellular calcium was deleted. Its action was also dependent on intracellular calcium since preincubation of cells in low, normal, or high calcium to diminish, maintain, or increase intracellular calcium, followed by incubation with veratridine in the absence of calcium, altered the secretory responses of both glucagon and insulin. Ouabain (0.5 mM) stimulated glucagon and insulin secretion, although its effect was less than that of veratridine (50 microM). These results suggest that a common releasing mechanism, dependent on extra- and intracellular calcium, is involved in both endocrine cells.
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PMID:Dual effects of veratridine on glucagon and insulin secretion: dependence upon extracellular and intracellular calcium. 678 30

This paper presents the application of a newly developed noninvasive system (PISA; Phase-Invariant Signature Algorithm) in the early detection and quantification of the effects of glucagon on the ouaban-induced electrophysiological disturbances in the heart of the dog. Three doses (20, 30, and 40 migrograms/kg) of ouabain were administered intravenously to each of six anesthetized dogs and broadband ECGs were recorded on FM tape for 100 min. The records were analyzed for PISA signatures and indexes at 20, 40, 60, 80, and 100 min after ouabain administration. There were dose-dependent increases in the PISA indexes. Ouabain (20 micrograms/kg) did not produce any observable changes in the conventional ECG, although it produced significant increases in the PISA indexes. In a second group sox dogs, glucagon (50 micrograms/kg) was administered intravenously 20 min after ouabain (40 micrograms/kg) administration and the ECGs, both conventional and for PISA analysis, were recorded for a further period of 80 min. Glucagon reversed the effects of ouabain on the PISA indexes. These indicate that the PISA method has the capability of early detection and quantitication of drug-induced cardiac disorder.
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PMID:Studies on the effects of glucagon on ouabain-induced cardiac disorders using the PISA method. 739 36

Transmembrane potential (Em) and alpha-aminoisobutyric acid (AIB) transport were measured in primary monolayer cultures of rat hepatocytes obtained from unoperated control rats and from rats 12 hr following partial hepatectomy. Measurements were performed 20-24 hr after plating the cells. The capacity of both kinds of cells to concentrate AIB depended upon extracellular sodium: however, the steady-state accumulation in regenerating cells was twice that of control cells. Transmembrane potentials, recorded with glass microelectrodes, were -13 +/- 0.6 mV and -27 +/- 1.6 mV in control and regenerating cells, respectively. Ouabain (1 mM) depolarized regenerating cell to -18 +/- 1.0 mV, but it had no effect on control cells. The initial rates of 1 mM AIB transport into control and regenerating cells were 1.2 +/- 0.1 and 3.1 +/- 0.1 nanomoles/mg protein x 4 min, respectively. Ouabain (1 mM) reduced the initial rate of AIB transport into regenerating cells to 2.7 +/- 0.1 nanomoles/mg protein x 4 min, but it had no effect on AIB transport into control cells. Glucagon (10(-7) M) added to control cells 12 hr before measurements hyperpolarized Em to -31 +/- 1.3 mV and increased AIB transport rate to 3.1 nanomoles/mg protein x 4 min. The results suggest a relationship between increases in Em and increases in AIB transport in rat hepatocytes. An electrogenic Na-K pump may be involved in both of these events.
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PMID:Transmembrane potential and amino acid transport in rat hepatocytes in primary monolayer culture. 744 Jun 46

We investigated the mechanisms of the effects of the biguanides metformin and buformin on hepatic gluconeogenesis in hepatocytes isolated from normal rats. Both 10 nM glucagon and 50 microM dibutyryl cAMP increased [3H]alanine uptake in isolated hepatocytes of normal rats by about 150% and 55%, respectively, compared with the effect of 5 mM alanine alone. Metformin (3 mM) reduced glucagon-stimulated [3H]alanine uptake to the level seen with alanine alone; buformin (3 mM) inhibited glucagon-stimulated [3H]alanine uptake by about 69%. The effects of biguanides on dibutyryl cAMP-stimulated [3H]alanine uptake were similar, but of smaller magnitude compared with those observed in the presence of glucagon. Ouabain (3 mM) had a stronger inhibitory effect on [3H]alanine uptake than the biguanides. However, 3 mM tolbutamide failed to suppress [3H]alanine uptake in the presence or absence of glucagon or dibutyryl cAMP. Our results suggest that the inhibition of alanine uptake, related to a reduction in the Na+/L-alanine transport system, is a possible mechanism of biguanide-related inhibition of hepatic gluconeogenesis.
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PMID:Biguanides may produce hypoglycemic action in isolated rat hepatocytes through their effects on L-alanine transport. 813 11

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