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 present experiments were undertaken to investigate the effect of alteration in on extracellular calcium concentration and of somatostatin on cholecystokinin-(CCK)- and caerulein-induced insulin and glucagon release from the isolated perfused rat pancreas. In control studies using perfusate containing 2.5 mM CaCl2 and 50 mg/dl glucose, CCK and caerulein caused insulin and glucagon release in a dose-related fashion. During perfusion with calcium free medium, insulin release was markedly inhibited. Subsequent introduction of 2.5 mM CaCl2 to the medium restored insulin response toward control levels. Extracellular calcium depletion, however, had no effect on CCK- or caerulein-induced glucagon release. The output of glucagon in the absence of calcium was comparable to that seen in the control experiments. On the other hand, somatostatin abolished the increase in glucagon secretion, but not the increase in insulin secretion, when perfused simultaneously with CCK or caerulein. However, pretreatment for 10 min with somatostatin blocked even insulin secretion. However, pretreatment for 10 min with somatostatin blocked even insulin secretion. The effects of somatostatin on hormonal discharge are suggested to be related to an alteration in the handling of or response to calcium. Recently, somatostatin has also been shown to inhibit calcium uptake by islets. Thus, the present results indicate a differential sensitivity of CCK- and caerulein-stimulated alpha and beta cell to extracellular calcium depletion and to the effect of somatostatin.
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PMID:Effect of somatostatin and calcium deprivation on cholecystokinin or caerulein-induced insulin and glucagon release from the isolated perfused rat pancreas. 611 42

We have prepared a fluorescent conjugate of porcine calmodulin with 5-(dimethylamino)-1-naphthalene-sulfonyl chloride that is highly sensitive to both calcium binding and protein binding. We have used the fluorescence of this conjugate in addition to the intrinsic peptide fluorescence to show that adrenocorticotropic hormone (ACTH), beta-endorphin, glucagon, and substance P undergo calcium-dependent binding by calmodulin, with competition for common binding sites. The dissociation constants determined in the presence of 0.85 mM CaCl2 and 0.2 N KC1, pH 7.3 at 25 degrees C, range from 1.5 muM to 3.4 muM. The alpha-melanocyte-stimulating hormone, bombesin, and somatostatin also bind, with dissociation constants between 60 muM and 90 muM. Angiotensins I and III, bradykinin, neurotensin, physalaemin, substance P octapeptide, insulin, and Leu- and Met-enkephalin show little or no binding. Sequence comparisons show that the peptides that bind calmodulin well contain regions structurally similar to the recognition sequence for the cAMP-dependent protein kinase and to the sequences surrounding phosphorylated serine residues in several calmodulin binding proteins. This result suggests that modification of calmodulin binding sites in calmodulin-dependent proteins is one of the functions of protein kinase. Calcium has a dual role in peptide binding by calmodulin. The occupation of calcium binding sites having a pK approximately 4 results in a 2-fold increase in peptide binding affinity.
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PMID:Binding of simple peptides, hormones, and neurotransmitters by calmodulin. 618 Jul 61

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

We have previously shown that cardiostimulation produced by catecholamines, glucagon, tachycardia or CaCl2, resulted in a metabolically induced increase in coronary flow [9, 11, 12]. Slow infusion of prostaglandin E2 (PGE2) or its precursor, arachidonic acid, inhibited the development of metabolic coronary dilatation without major alterations of the effects of the cardiostimulating agents on the cardiac activity [9, 11, 12]. Since PGE2 synthesis is known to be enhanced by glutathione we thought that its addition to the perfused heart would intensify the inhibition of the metabolic coronary dilatation produced by arachidonic acid. While testing the influence of noradrenaline in the isolated perfused heart, we found that the inotropic action and the resulting coronary dilatation were markedly increased during glutathione administration. We diverted the investigation from its original purpose to further study this novel action of glutathione and we report here that catecholamines and glucagon inotropic effects, and resulting metabolic coronary dilatation are enhanced by glutathione. Neither the CaCl2 nor the coronary dilatations due to reactive hyperaemia or adenosine were altered by glutathione.
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PMID:Enhancement by glutathione of the inotropic actions of catecholamines and glucagon. 674 92

Deletion of residues 252-259 within the putative second intracellular loop of the human glucagon receptor results in a protein with high affinity for glucagon but with attenuated agonist activation of adenylyl cyclase. The Delta252-259 mutant has 4-fold higher affinity for glucagon than does the wild type receptor. The nonhydrolyzable GTP analog, guanosine 5'-(beta, gamma-imido)triphosphate (Gpp(NH)p), inhibits binding of 125I-glucagon to the wild type receptor but not to the Delta252-259 mutant. Divalent cations such as MgCl2 and CaCl2 stimulate the binding of 125I-glucagon to the wild type receptor by increasing glucagon affinity. The rate of dissociation of 125I-glucagon is decreased 4-fold by MgCl2 and increased 6-fold by Gpp(NH)p. However, divalent cations do not affect the binding of 125I-glucagon to the Delta252-259 mutant. The rate of dissociation of 125I-glucagon from the Delta252-259 mutant protein is equivalent to the rate of dissociation from the wild type receptor in the presence of MgCl2. These data suggest that at least three conformations of the glucagon receptor can exist in the membrane based on their differing affinities for 125I-glucagon. Deletion of residues 252-259 appears to lock the protein in the conformation promoted by divalent cations and prevents the protein from normal coupling to Gs.
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PMID:Alterations in receptor activation and divalent cation activation of agonist binding by deletion of intracellular domains of the glucagon receptor. 906 38


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