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: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mechanisms controlling secretion of glucagon and other pancreatic hormones were studied in a patient affected with multihormone-secreting islet-cell tumor. Fasting glucagon levels (3,000 pg./ml.) rose to 10 ng./ml. following arginine stimulation. While oral glucose load and intravenous glucose infusion did not suppress glucagon secretion, insulin administration induced a prompt depression in glucagon levels. Glucagon, insulin, and gastrin levels were suppressed by somatostatin while calcium infusion caused a paradoxical increase. It is suggested that only some of the stimulation-inhibition mechanisms were conserved in this case of glucagon-secreting pancreatic tumor.
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PMID:Suppression and stimulation mechanisms controlling glucagon secretion in a case of islet-cell tumor producing glucagon, insulin, and gastrin. 0 26

Glucagon and L-epinephrine stimulate gluconeogenesis from 20 mM L-lactate, the effect being about 3 times greater in liver cells from fed rats than in those from fasted rats. The rate of pyruvate kinase flux was estimated to be less than 10% of the rate of gluconeogenesis from lactate in hepatocytes from fasted rats, and neither glucagon nor epinephrine lowered the absolute rate significantly. In hepatocytes from fed rats, however, the rate of pyruvate kinase was nearly one-half that of gluconeogenesis. Glucagon caused a marked depression of pyruvate kinase flux, with 1 muM glucagon lowering the rate to nearly the level found in cells from fasted rats Epinephrine at concentrations from 10(-8) to 10(-6) M actually increased pyruvate kinase flux during gluconeogenesis from lactate in cells from fed rats. These results are in accord with the view that the effects of glucagon and epinephrine on gluconeogenesis are not identical.
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PMID:Role of pyruvate kinase in the regulation of gluconeogenesis from L-lactate. 84 45

Glucagon in a dose of 50 mug/kg body weight was studied for its cardiovascular effects in hypovolemic dogs in which coronary blood flow was reduced to an average 40% of its control value and cardiac depression was evident. Myocardial contractility, as judged mainly by dP/dt and acceleration of aortic blood flow, was brought to a normal level for a short time. Systemic and coronary vascular resistances were markedly reduced. These effects were similar in normovolemic dogs. The inotropic, chronotropic, and peripheral vascular effects of glucagon can be evoked also in hypovolemic dogs in which coronary blood flow is less than normal and myocardial metabolism is impaired.
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PMID:Cardiovascular response to glucagon in hypovolemic dogs. 113 18

Quinolinic acid (Q.A.) which inhibits gluconeogenesis at the site of phosphoenolpyruvate (PEP) synthesis, reduced the content of PEP while elevating that of aspartate and malate in rat livers perfused with a medium containing 10 mM L-lactate. Glucagon at 10(-9) M did not affect Q.A. inhibition of lactate gluconeogenesis nor the depression of PEP level, but further elevated malate and aspartate accumulation. Exogenous butyrate had the same effect as glucagon on these parameters. Butylmalonate (BM), an inhibitor of mitochondrial malate transport, inhibited lactate and propionate gluconeogenesis to similar extents. The addition of 10(-9) M glucagon had no effect on BM inhibition of lactate gluconeogenesis, but almost completely reversed BM inhibition of propionate gluconeogenesis. These results suggest that glucagon may act on at least two sites, resulting in elevated hepatic gluconeogenesis. First, it may stimulate dicarboxylic acid synthesis (malate and oxaloacetate, specifically) through activation of pyruvate carboxylation. Secondly, it may stimulate synthesis of other dicarboxylic acids (fumarate, for example) by activating certain steps of the tricarboxylic acid cycle. The stimulatory effect of glucagon on gluconeogenesis in the perfused rat liver is well documented (1, 2). Exton et al., who earlier located the site of stimulation between pyruvate and PEP synthesis (3), proposed that glucagon stimulated PEP synthesis in the perfused rat liver (4), while reports from Williamson et al. (5) suggested the pyruvate-carboxylase reaction as the site of glucagon action. Stimulation at sites above PEP formation and of portions of the tricarboxylic acid cycle (4) by glucagon have also been suggested (6). In the present experiments, we have used substrates entering at different parts of the gluconeogenic pathway, and specific inhibitors to further resolve the action of glucagon.
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PMID:Effects of glucagon on gluconeogenesis from lactate and propionate in the perfused rat liver. 125 Aug 74

Nine patients with psoriasis vulgaris were treated for 12 weeks with somatostatin analog, octreotide acetate (SMS 201-995) 50 or 100 micrograms by subcutaneous injection every 12 hours. The purposes of the study were to determine: (1) levels of insulin, glucose, glucagon, pancreatic polypeptide (PP), and SMS 201-995 after a subcutaneous injection of SMS 201-995 and ingestion of a standardized meal; (2) nocturnal (0200 h) thyroid stimulating hormone (TSH) levels before, during, and after treatment; and (3) the pharmacokinetics of SMS 201-995. Insulin peaks at 30 minutes were blunted from 65.8 +/- 11.0 mu U/mL without treatment to 26.7 +/- 8.6 mu U/mL and 7.7 +/- 2.0 mu U/mL after the 50- and 100-micrograms doses, respectively. Glucagon levels remained constant during the meal and were not affected by the 50-micrograms dose. Mean glucose levels were significantly elevated during insulin suppression. PP was also rapidly suppressed by SMS 201-995 and remained so for 4 hours after the injection. Nocturnal TSH was blunted after 12 weeks of treatment (P less than or equal to .05). T4 and T3 resin uptake showed no depression, and patients remained clinically euthyroid. The plasma peak of SMS 210-995 occurred 30 minutes postinjection and half-life was longer than 2 hours. After chronic administration of SMS 201-995, insulin was suppressed with resultant mild carbohydrate intolerance that persisted throughout the treatment course.
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PMID:Treatment of psoriasis with chronic subcutaneous administration of somatostatin analog 201-995 (sandostatin). II. Effect on pancreatic and thyroid hormone. 240 89

Calcium channel blockers (CCBs) may produce profound myocardial depression. Glucagon antagonized verapamil-induced hypotension and bradycardia in rats; however, glucagon's ability to antagonize other CCBs is unexplored. This study determined: a) if glucagon reverses verapamil-induced depression by a direct cardiac effect, b) if myocardial depression induced by diltiazem and nifedipine (representing different classes of CCBs) is also reversed by glucagon, and c) the glucagon concentration needed to reverse myocardial depression. Isolated rat hearts were perfused at a constant flow rate in a Langendorff preparation. Developed pressure (dP), contractility (+dP/dtmax), relaxation (-dP/dtmax), heart rate, and coronary vascular resistance were recorded. A CCB (n = 6, each blocker) was infused until greater than 50% depression of contractility was achieved. Glucagon was then simultaneously infused (perfusion concentration of 0.6-1.1 x 10(-7) M), and repeat cardiac variables were recorded. In a separate group of 36 hearts, glucagon dose response was determined. After producing a greater than 50% depression in dP/dtmax with 3 mumol of diltiazem, a single concentration of glucagon was infused simultaneously into each heart (perfusion concentrations between 10(-6) and 10(-9) M) and percent recovery of baseline function was determined. Glucagon restored baseline contractility and dP with all three CCBs. Complete reversal of diltiazem-induced myocardial depression occurs at glucagon concentrations greater than or equal to 5 x 10(-7) M. We conclude that a) glucagon directly reverses myocardial depression from three classes of CCBs at concentrations achieved in vivo, and b) glucagon may be useful in the treatment of CCB-induced myocardial toxicity.
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PMID:Glucagon antagonism of calcium channel blocker-induced myocardial dysfunction. 327 81

Verapamil-induced cardiovascular depression has been examined in dial-urethane-anesthetized open chest dogs. Verapamil was administered slowly intravenously until the mean arterial pressure was decreased by approximately 45 mm Hg. The dose of verapamil required to reach the hemodynamic endpoint was 1,495 +/- (SE) 165 micrograms/kg. In a second group, interactions between beta-adrenergic blockade, propranolol 1 mg/kg (i.v.), and verapamil were examined. Although propranolol alone had only minor hemodynamic effects, the cardiac depressant dose of verapamil was reduced significantly to 450 +/- 105 micrograms/kg. After cardiovascular depression with verapamil or verapamil plus propranolol, glucagon was administered to assess its inotropic activity using cumulative doses of 5, 15, and 45 micrograms/kg over 20 min. Glucagon produced a dose-dependent recovery of heart rate, mean arterial pressure, and PR interval. Depressed contractility assessed by peak positive dP/dt and right ventricular isometric contractile force also recovered after glucagon. These results suggest a significant interaction between the potency of verapamil as a myocardial depressant and the state of the myocardium as affected by beta-blockade. Cardiac depression by verapamil or verapamil in combination with propranolol was reversible by glucagon.
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PMID:Cardiovascular depression by verapamil: reversal by glucagon and interactions with propranolol. 342

Two cases of severe beta-blocker overdose are presented that were treated successfully with glucagon therapy. The effects of glucagon in reversing the cardiovascular depression of profound beta-blockade, including its mechanism of action, onset and duration of action, dosage and administration, cost and availability, and side effects are reviewed. Medical complications of beta-blocker overdose include hypotension, bradycardia, heart failure, impaired atrioventricular conduction, bronchospasm and, occasionally, seizures. Atropine and isoproterenol have been inconsistent in reversing the bradycardia and hypotension of beta-blocker overdose. Glucagon increases heart rate and myocardial contractility, and improves atrioventricular conduction. These effects are unchanged by the presence of beta-receptor blocking drugs. This suggests that glucagon's mechanism of action may bypass the beta-adrenergic receptor site. Because it may bypass the beta-receptor site, glucagon can be considered as an alternative therapy for profound beta-blocker intoxications. The doses of glucagon required to reverse severe beta-blockade are 50 micrograms/kg iv loading dose, followed by a continuous infusion of 1-15 mg/h, titrated to patient response. Glucagon-treated patients should be monitored for side effects of nausea, vomiting, hypokalemia, and hyperglycemia. The high cost and limited availability of glucagon may be the only factors precluding its future clinical acceptance.
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PMID:Glucagon therapy for beta-blocker overdose. 614 98

The cardiac electrophysiologic actions of a novel calcium antagonist, KB-944 [Fostedil, Abbott-53986, diethyl 4-(benzothiazol-2-yl) benzylphosphonate], were examined in anesthetized dogs. Cumulative doses of 0.5, 2.5 and 12.5 mg/kg i.v. produced dose-dependent increases in atrioventricular (AV) nodal refractoriness and conduction time (AH interval), although failing to alter atrial or ventricular refractoriness. Intra-atrial, infranodal and intraventricular conduction (PA, HV and H-EG intervals, respectively) were unchanged. In three of nine dogs, 2.5 to 12.5 mg/kg of KB-944 produced third degree AV blockade. Pretreatment with propranolol (0.1 mg/kg) was accompanied by sinoatrial blockade in three of five dogs who later received 12.5 mg/kg of KB-944. Glucagon (4 micrograms/kg) reversed the electrophysiologic changes associated with administration of KB-944 alone or in conjunction with propranolol. An examination of the temporal profiles of the cardiac electrophysiologic effects of KB-944 indicated selective alterations in AV nodal conduction and refractoriness for durations of approximately 60, 120 and 180 to 240 min after administration of 0.3, 1.0 or 3.0 mg/kg i.v. These results suggest that KB-944 may be an effective agent for treatment of supraventricular tachyarrhythmias via selective depression of the AV nodal conduction system.
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PMID:Cardiac electrophysiologic actions of KB-944 (Fostedil), a new calcium antagonist, in the anesthetized dog. 654 Aug 6

Rats anesthetized with pentobarbital and ventilated artificially were intoxicated with 1 mg/kg X min propranolol i.v. After 30 min heart rate, mean arterial blood pressure and peripheral resistance had dropped by about 50% and cardiac output by about 25% and were stable for up to 120 min. Isoprenaline proved to be the best antidote for the treatment of propranolol intoxication antagonizing the bradycardia by 76% and the hypotension completely. The antagonistic activities of orciprenaline and prenalterol were lower than those of isoprenaline. Dopamine, adrenaline and noradrenaline antagonized propranolol-induced hypotension but did not considerably influence the bradycardia whereas dobutamine was nearly ineffective in both respects. Glucagon and aminophylline displayed some chronotropic activity without influencing propranolol-induced hypotension. Calcium chloride, on the other hand, produced a moderate elevation of blood pressure but only a small chronotropic activity, and atropine was inactive in both respects. Isoprenaline also restored the cardiac function of propranolol-poisoned rats if administered by infusion and, furthermore, increased the lethal dose of propranolol from 77 to 165 mg/kg. The strong antagonistic activity of isoprenaline against propranolol-induced cardiovascular depression was also confirmed by experiments in pigs. In conclusion, isoprenaline is the most active antidote for the treatment of propranolol intoxication in the rat though the administration of massive doses are required. The vasodilatory effect of isoprenaline can be overcome by the additional administration of a vasoconstricting agent like dopamine.
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PMID:Evaluation of antidotes against the acute cardiovascular toxicity of propranolol. 674 Jul 1


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