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)

Metabolic acidosis due to organic acids infusion fails to elicit hyperkalemia. Although plasma potassium levels may rise, the increase is smaller than in mineral acid acidosis. The mechanisms responsible for the different effects of organic acid acidosis and mineral acid acidosis remain undefined, although dissimilar hormonal responses by the pancreas may explain dissimilar hormonal responses by the pancreas may explain the phenomena. To test this hypothesis, beta-hydroxybutyric acid (7 meq/kg) or hydrochloric acid (3 meq/kg) was infused over 30 min into conscious dogs (n = 12) with chronically implanted catheters in the portal, hepatic, and systemic circulation, and flow probes were placed around the portal vein and hepatic artery. Acid infusion studies in two groups of anesthetized dogs were also done to assess the urinary excretion of potassium (n = 14), and to evaluate the effects of acute suppression of renal electrolyte excretion on plasma potassium and on the release/uptake of potassium in peripheral tissues of the hindleg (n = 17). Ketoacid infusion caused hypokalemia and a significant increase in portal vein plasma insulin, from the basal level of 27 +/- 4 microU/ml to a maximum of 84 +/- 22 microU/ml at 10 min, without changes in glucagon levels. By contrast, mineral acid acidosis of similar severity resulted in hyperkalemia and did not increase portal insulin levels but enhanced portal glucagon concentration from control values of 132 +/- 25 pg/ml to 251 +/- 39 pg/ml at 40 min. A significant decrease in plasma glucose levels due to suppression of hepatic release was observed during ketoacid infusion, while no changes were observed with mineral acid infusion. Plasma flows in the portal vein and hepatic artery remained unchanged from control values in both acid infusion studies. Differences in renal potassium excretion were ruled out as determinants of the disparate kalemic responses to organic acid infusion compared with HCl acidosis. Evaluation of the arteriovenous potassium difference across the hindleg during ketoacid infusion demonstrates that peripheral uptake of potassium is unlikely to be responsible for the observed hypokalemia. Although the tissue responsible for the different kalemic responses could not be defined with certainty, the data are compatible with an hepatic role in response to alterations in the portal vein insulin and/or glucagon levels in both acid infusion studies. We propose that cellular uptake of potassium is enhanced by hyperinsulinemia in ketoacid infusion, and release of potassium results from increased glucagon levels in HCl acidosis. Whether the changes in plasma potassium that other types od organic acid acidosis produce are accounted for by a similar hormonal mechanism remains to be determined.
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PMID:Role of the endocrine pancreas in the kalemic response to acute metabolic acidosis in conscious dogs. 388 66

Haemodynamic effects of pharmacological doses of insulin during acute ischaemic heart failure were studied in 8 dogs. Severe depression of left ventricular function was induced by the injection of 50 micron plastic microspheres into the left main coronary artery. This was demonstrated by a significant increase in left ventricular end-diastolic pressure and a significant decrease in the maximum rate of left ventricular pressure rise (LVdP/dtmax), stroke volume and cardiac output. Eighty-five minutes after the embolization procedure, 300 IU of insulin free of glucagon and calcium was injected as a bolus. This was followed by infusion of glucose and potassium to maintain physiological levels of these factors. Five minutes after insulin administration, there was a significant improvement in left ventricular performance as shown by decreased left ventricular end-diastolic pressure (P less than 0.01) and increased LVdP/dtmax (P less than 0.01), stroke volume (P less than 0.05) and cardiac output (P less than 0.05). A significant reduction in heart rate occurred. A non-significant increase in mean aortic blood pressure and reduction in total peripheral resistance were seen. In conclusion, pharmacological doses of insulin significantly improve cardiac pump function during acute ischaemic left ventricular failure in dogs.
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PMID:Haemodynamic effects of high doses of insulin during acute left ventricular failure in dogs. 389 50

Metabolic effects of pharmacological doses of insulin were studied during acute ischaemic heart failure in 7 dogs. Severe depression of left ventricular performance was induced by embolization of the left main coronary artery with 50 micron plastic microspheres. This was followed by a significant reduction in myocardial blood flow and oxygen consumption. After a period of stabilization of the haemodynamic and metabolic variables, 300 IU of insulin free of glucagon and calcium was injected as a bolus dose. Glucose and potassium were given to maintain their plasma concentrations. Insulin significantly improved performance of the failing left ventricle. Myocardial blood flow was significantly increased, whereas myocardial oxygen consumption was unchanged. Insulin significantly reduced arterial concentrations and myocardial uptake of free fatty acids, while myocardial uptake of glucose and lactate showed a non-significant increase. In conclusion, pharmacological doses of insulin significantly improve cardiac pump function without increasing myocardial oxygen consumption during acute ischaemic left ventricular failure in dogs. This may be partly related to reduced myocardial uptake of free fatty acids relative to that of glucose.
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PMID:Metabolic effects of high doses of insulin during acute left ventricular failure in dogs. 389 51

The effect of different potassium, calcium and magnesium concentrations in the perfusate on the hormone secretion of the isolated dog pancreas was investigated. A potassium concentration above 15 mMol/l shortly stimulates the insulin and glucagon secretion. Potassium ions (greater than or equal to 15 mMol/l) completely inhibit the early phase of glucose-induced insulin release. At a low Ca2+-level (0.25 mMol/l) the glucose-stimulated insulin secretion is reduced to basal values. On the other hand, the glucagon release is stimulated under these conditions. An increase of magnesium ions from 1.0 mMol/l to 2.5-7.5 mMol/l strikingly inhibits insulin and glucagon release by approximately 50%, which is compensated for insulin by increasing the Ca2+-content of the medium. Perfusates for normothermic pancreas perfusion should contain electrolyte concentrations within the physiological range.
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PMID:The effect of potassium, calcium and magnesium concentration on insulin and glucagon secretion of the perfused dog pancreas. 390 85

We evaluated the effects of human calcitonin (hCT) on electrolyte excretion in hormone-deprived rats, that is, in the absence of endogenous parathyroid hormone, antidiuretic hormone, thyrocalcitonin and glucagon, the effects of which might have interfered with those of exogenous calcitonin. Plasma hCT levels, measured by radioimmunoassay, varied from 0 to 32 ng/ml. In these rats, hCT decreased magnesium (Mg) and calcium (Ca) excretion in a dose-dependent fashion. Maximal decreases were observed for hCT plasma concentrations comprised between 3 and 5 ng/ml, and persisted at the highest doses. Sodium, potassium, water, and total solute excretions were constant in the calcitonin concentration range explored. The same was observed for phosphate, except that slight but significant phosphaturia was elicited by the highest doses. Calcium and phosphate infusions to attenuate the fall in plasma Ca and phosphate concentration subsequent to hCT infusion, did not alter the hormonal effect on Ca and Mg excretion. hCT can therefore directly modulate Mg and Ca reabsorption by the kidney at plasma concentrations within the physiological range. The maximal effects on Mg and Ca reabsorption were obtained at plasma concentrations which are generally reached after maximal stimulation of endogenous calcitonin secretion. It is suggested that in rats, endogenous secretion of calcitonin stimulates Ca and Mg renal reabsorption without modification of sodium and phosphate excretion.
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PMID:Modulation by calcitonin of magnesium and calcium urinary excretion in the rat. 399 91

Cyclic adenosine monophosphate, cyclic guanosine monophosphate, glucagon, and isoproterenol each hyperpolarized perfused rat liver cells. The hyperpolarization followed a time course similar to the stimulated increase in potassium efflux and was preceded by the increase in calcium efflux. The hyperpolarization induced by cyclic adenosine monophosphate was blocked by tetracaine. The similarity of the action of the cyclic nucleotides to that of glucagon supports the hypothesis that cyclic adenosine monophosphate is the secondary messenger mediating the action of glucagon.
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PMID:Cyclic adenosine and guaosine monophosphates and gucagon: effect on liver membrane potentials. 432 76

1. In anaesthetized dogs, glucagon (100 mug/kg i.v.), caused a significant increase in heart rate and decrease in mean arterial blood pressure. Ventricular automaticity, as determined by the time to the onset of first vagal escape beat and the number of such indioventricular beats during the 30 s period of vagal stimulation, was not significantly altered.2. In unanaesthetized dogs with ventricular arrhythmias produced by two-stage ligation of the anterior descending branch of the left coronary artery, glucagon (30 and 100 mug/kg i.v.), restored normal sinus rhythm in a few animals. In the remaining dogs, there was a significant reduction in the ventricular ectopic activity.3. The significant positive chronotropic response to glucagon elicited in anaesthetized animals was not observed in conscious dogs whose coronary arteries had been ligated.4. These findings enhance the potential usefulness of glucagon in the treatment of acute myocardial infarction, which may often be associated with disturbances of ventricular rhythm.5. In the light of observations made by other workers, it is suggested that the antiarrhythmic effect of glucagon may be due to movement of potassium ions into the cardiac cell.
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PMID:Effect of glucagon on ventricular arrhythmias after coronary artery occlusion and on ventricular automaticity in the dog. 515 98

1. Insulin secretion from pieces of rabbit pancreas incubated in vitro was studied in media of different ionic composition and in response to different substances added to the media.2. Experiments were performed which demonstrated that a sodium pump played a role in insulin secretion and that inhibition of the pump by ouabain, or by the omission of extracellular potassium, stimulated insulin secretion.3. A rise in extracellular potassium concentration stimulated insulin secretion independently of changes in the osmolarity or sodium or chloride concentration of the incubation medium.4. The role of extracellular sodium in insulin secretion was investigated. Extracellular sodium was a pre-requisite for insulin secretion stimulated by glucose, glucagon, L-leucine, tolbutamide, potassium or ouabain.5. The presence of 3.3 mM glucose in the incubation medium was not essential for the stimulation of insulin secretion by L-leucine, tolbutamide or ouabain. Glucagon did not stimulate insulin secretion in the presence of 3.3 mM glucose but did so in the presence of 16.5 mM glucose.6. The results obtained in these experiments suggested that a transmembrane sodium flux probably in the beta cell was a fundamental event in the stimulation of insulin secretion by diverse stimuli.
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PMID:The role of sodium and potassium in insulin secretion from rabbit pancreas. 563 96

The effects of VIP and related-peptides (PHI, secretin, glucagon) on cyclic AMP formation were investigated in intact pieces of rabbit retina. VIP and PHI increased cyclic AMP levels with EC50 of 160 nM and 300 nM respectively. At 5 microM the peptides increased cyclic AMP 46 fold (VIP) and 38 fold (PHI). Secretin was much less potent and glucagon was totally inactive. VIP was also tested for its effects on glycogen levels under similar experimental conditions. In contrast to its pronounced glycogenolytic action in mouse cerebral cortical slices, VIP at 1 microM decreased only moderately (38.3%) 3H-glycogen newly synthesized from 3H-glucose by pieces of rabbit retina. Furthermore a discrepancy between the efficacy of VIP in increasing cyclic AMP and in promoting glycogenolysis appears to exist. A similar dissociation between these two cellular events was also observed with other neuroactive substances. Thus the pronounced increase in cyclic AMP induced by dopamine and forskolin was accompanied by only a moderate decrease in 3H-glycogen levels. Conversely 50 mM potassium induced a 79.9% decrease in 3H-glycogen levels without any significant increase in cyclic AMP.
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PMID:The effects of VIP on cyclic AMP and glycogen levels in vertebrate retina. 608 32

Freshly isolated liver parenchymal cells were maintained in either short-term monolayer, suspension of long-term monolayer culture. Rapidly occurring processes through hepatocellular membrane, e.g., the enhanced amino acid transport and the concomitantly increased potassium influx following progressive starvation, were kinetically evaluated best in short-term monolayer culture. The inducibility of tyrosine aminotransferase by glucagon, dexamethasone, and a combination of both was compared in suspension and in monolayer culture. The induction of slowly inducible foreign compound-metabolizing enzymes, (e.g., ethoxycoumarin-O-dealkylase, p-nitroanisole-O-demethylase, and UDP-glucuronyltransferase) by phenobarbital, 3-methylcholanthrene, and dexamethasone were studied in long-term monolayer culture. The latter system was also used to maintain isolated kidney cortical tubules for the investigation of renal enzyme adaptation during progressive time in culture.
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PMID:Primary monolayer culture of liver parenchymal cells and kidney cortical tubules as a useful new model for biochemical pharmacology and experimental toxicology. Studies in vitro on hepatic membrane transport, induction of liver enzymes, and adaptive changes in renal cortical enzymes. 610 78


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