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)

Anthopleurin-A (AP-A), a polypeptide with MW ca. 5500 (53 amino acids), isolated from the sea anemone, Anthopleura xanthogrammica (Brandt), elicited a potent positive inotropic effect but without an accompanying chronotropic effect on the isolated cardiac muscles of rat, rabbit, guinea pig and cat. Similarly in dogs and cats in situ, i.p. injections of AP-A increased the contractile force without effect on heart rate or blood pressure. The cardiotonic potency for AP-A was equivalent to that of isoproterenol but much greater than that for ouabain or glucagon on the isolated cardiac muscle. AP-A increased the contractile force (cardiac output) and decreased atrial pressure in dog heart during pentobarbital-induced failure. This inotropic effect was not inhibited by propranolol pretreatment. The Ca++ requirement to restore the contractile force was less in AP-A-treated than in ouabain or isoproterenol-treated tissues. After AP-A treatment, the cardiac contractility was more resistant to hypoxia and to low or high temperature stress than ouabain-treated or control preparations. AP-A at 5 10(-9) M increased the duration of the action potential, its mean rate of rise and conduction in the guinea-pig atria and ventricles. At the maximum effective concentration, AP-A did not inhibit Na+, K+-activated adenosine triphosphatase, phosphodiesterase (high Km and low Km) and cyclic 3',5'-adenosine monophosphate content of guinea-pig heart. AP-A (5 X 10(-8) to 5 X 10(-7) M) neither contracted nor relaxed the isolated vascular smooth muscle. The results suggest that AP-A may be useful in the clinical management of cardiac failure and as an experimental tool to study the pharmacology and physiology of cardiac muscle.
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PMID:A polypeptide (AP-A) from sea anemone (Anthopleura xanthogrammica) with potent positive inotropic action. 1 Apr 26

Juvenile diabetic patients were studied 60-72 hours after insulin withdrawal when moderate ketoacidosis had developed. Somatostatin infusion for 4 hours in five patients resulted in almost complete suppression of plasma pancreatic glucagon and growth hormone, a fall in plasma-cyclic-adenosine-monophosphate (A.M.P.) concentrations, and a large fall in plasma-glucose concentration. After infusion plasma concentrations of these substances rose again. Blood-ketone-bodies, plasma-free-fatty-acids (F.F.A.), and plasma glycerol concentrations, however, did not decrease appreciably with somatostatin administration. In three patients 2 to 3 h somatostatin infusions were twice superimposed upon a continuous 9-5 h insulin infusion (1 unit/h). An insulin effect was noticeable within 30 minutes, with pronounced falls in the concentrations of plasma glucose, pancreatic glucagon, F.F.A., and blood-ketone-bodies. There was no significant change in these patterns when somatostatin was administered or withdrawn. These results do not indicate that somatostatin infusion would be useful in the treatment of manifest diabetic ketoacidosis.
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PMID:Failure of somatostatin to correct manifest diabetic ketoacidosis. 5 30

Some effects of salts on the adenylate cyclase of partially purified plasma membranes from rat liver have been studied. Under conditions where cyclic adenosine 3':5'-monophosphate formation was linear with respect to time and protein concentration, the enzyme was stimulated 3- to 6-fold by 10 mM NaF, 10- to 30-fold by 1 muM glucagon, 4- to 5-fold by 0.1 mM 5'-guanylylimidodiphosphate, and in the presence of 3 muM GTP, 2-fold by 10 mug/ml of prostaglandin E1. Various salts were found to stimulate basal activity slightly, but enhanced the response to NaF 3- to 4-fold, to glucagon 1.5- to 2-fold, to 5'-guanylylimidodiphosphate 2- to 3-fold, and to prostaglandin E1 1.5-fold. This enhancement was observed at maximally effective concentrations of each of the respective activators. Of the salts tested, NaN3 and the Na- or K-halides were most effective. Their action appeared to be due to the respective anions. Stimulation was detectable with 1.5 mM NaN3 or 3 mM NaCl and was maximal with 30 mM NaN3 or 60 mM NaCl. The stimulatory effect of NaN3 was not due to ATP-sparing, nor to an altered cyclic adenosine 3':5'-monophosphate recovery. It was independent of the chromatography and assay methods used, and was therefore not due to procedural artifact. Fluoride-stimulated cyclase activity was enhanced by salts to a greater degree than were 5'-guanylylimidodiphosphate-, glucagon-, or (prostaglandin E1 + GTP)-stimulated activities. The effects of NaN3 were not the result of significant changes in the enzyme's responses to GTP, which increased basal and glucagon-stimulated activities but inhibited F--stimulated activity. The effects of NaN3 were greater when cyclase was assayed with Mn2+ than with Mg2+. The facilitatory effect of NaN3 or NaCl on fluoride-stimulated adenylate cyclase activity was partially reversible as was the stimulatory effect of fluoride in the presence of NaN3. Enhancement of hormonal stimulation by NaN3 was also demonstrable with cardiac and adipose tissue adenylate cyclase. However, NaN3 did not stimulate detergent-dispersed adenylate cyclases from either liver plasma membranes or brain. The data suggest that stimulation of adenylate cyclase by salts may require the added presence of other stimulatory agents and an intact membrane structure.
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PMID:Liver membrane adenylate cyclase. Synergistic effects of anions on fluoride, glucagon, and guanyl nucleotide stimulation. 12 55

The possibility that hormones control hepatic gluconeogenesis via the regulation of the rate of mitochondrial pyruvate carboxylation was investigated with the use of suspensions of liver cells isolated from fasted rats. The mitochondria prepared from liver cells were judged in good condition as they exhibited satisfactory phosphorus-oxygen and respiratory control ratios and transported Ca2+ and K+ ions in an energy-dependent manner. Addition of glucagon, epinephrine, or cyclic adenosine 3':5'-monophosphate to liver cells caused a 50 to 80% increase in the rate of glucose synthesis from lactate. When mitochondria were isolated from the cells after treatment with these agonists, they displayed 2- to 3-fold increases in the rate of pyruvate carboxylation, pyruvate decarboxylation, and pyruvate uptake. These mitochondrial changes are similar to those obtained in hepatic mitochondria prepared from intact, hormone-treated rats. The mitochondrial responses were specific for agents that stimulated gluconeogenesis; no response occurred with 5'-AMP or cyclic adenosine 2':3'-monophosphate. In the cell suspensions, the dose response curves for the activation of mitochondrial pyruvate metabolism and for increased glucose synthesis from L-lactate were coincident with four different agonists. The mitochondrial changes resulting from stimulation with glucagon developed in 1 to 2 min after the rise in cyclic adenosine 3':5'-monophosphate and occurred at least as early as the increase in the rate of gluconeogenesis. When the intracellular level of cyclic adenosine 3':5'-monophosphate returned to basal values, the rates of mitochondrial pyruvate carboxylation and glucose synthesis also declined to control levels. It is concluded that the rate of mitochondrial pyruvate metabolisms can be increased by hormones and cyclic nucleotides and that control of mitochondrial pyruvate carboxylation is an important regulatory site of hepatic gluconeogenesis.
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PMID:The hormonal control of gluconeogenesis by regulation of mitochondrial pyruvate carboxylation in isolated rat liver cells. 16 52

The effects of intravenous glucose, insulin and glucagon admininistration on the hepatic glycogen synthase and glycogen phosphorylase systems were assessed in the anesthetized rhesus monkey. Results were correlated with measurements of hepatic cyclic AMP (cAMP) concentrations and plasma glucose, insulin, and glucagon concentrations. Both glucose and insulin administration promoted significant inactivation of phosphorylase by 1 min, which was followed by more gradual activation of synthase. Neither glucose nor insulin caused significant changes in hepatic cAMP. Marked hyperglucagonemia resulting from insulin-induced hypoglycemia did not cause increases IN in hepatic cAMP, suggesting that the elevated insulin levels possibly inhibited glucagon action on the hepatic adenylate cyclase-cAMP system. Glucagon administration caused large increases in hepatic cAMP and activation of phosphorylase within 1 min, followed by more gradual inactivation of synthase when it had been previously activated by glucose. Concomitant glucose infusion, with resulting increased plasma insulin concentrations, markedly diminished the duration of hepatic cAMP elevations following glucagon adminstration, again suggesting an insulin inhibition of glucagon action on the hepatic adenylate-cAMP system.
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PMID:Control of hepatic glycogen metabolism in the rhesus monkey: effect of glucose, insulin, and glucagon administration. 16 92

Adenylate cyclase systems were examined in purified membrane preparations from normal rat liver and several Morris hepatomas with differing growth rates. All tumor membrane preparations had lower relative specific activities than did liver preparations. Liver adenylate cyclase was stimulated by fluoride, glucagon and guanyl-5'-yl imidodiphosphate [Gpp(NH)p]. Membranes from two slow-growing hepatomas (hepatomas 20 and 21) contained adenylate cyclase activities which are also stimulated by each of these three modulators. Membrane adenylate cyclases from several fast-growing hepatomas (hepatomas 3924A, 7777, 5123tc, and 9618A2) were marginally stimulated by glucagon but were readily stimulated by fluoride and Gpp(NH)p. Examination of the highly specific binding of 125I-glucagon to the various membrane preparations revealed much less binding in all the tumor membranes than in liver membranes. More detailed kinetic examination of membranes prepared from liver, slow-growing hepatoma 21 (which had reasonable binding to and stimulation by glucagon), and fast-growing hepatoma 3924A (which had marginal binding to and stimulation by glucagon) revealed major differences in rates of cyclic adenosine 3':5'-monophosphate production in the absence and presence of glucagon, Gpp(NH)p, and glucagon plus Gpp(NH)p and in the combined alteration of magnesium:adenosine 5'-triphosphate ratio and temperatures. The different kinetic characteristics in the hepatoma adenylate cyclase systems may be due to different structural characteristics of the tumor membranes or may be due to altered hormonal receptors, catalytic units, or receptor-catalytic unit interrelationships within the tumor membrane.
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PMID:Regulation of the adenylate cyclase system in transplantable hepatomas. 17 31

1. Epinephrine-induced increase in rat liver cyclic AMP in vivo was potentiated when the circulating insulin was suppressed by injection of anti-insulin serum or by induction of diabetes. Consequently, phosphorylase was activated, glycogen synthetase was inactivated and glycogen accumulation induced by glucose load was prevented by epinephrine in the insulin-deficient rats to a much larger extent than in normal rats. 2. Insulin lack was effective in potentiating epinephrine-induced increase in liver and muscule cyclic AMP even after the treatment of rats with theophylline; the potentiation could not be solely accounted for by the inhibition of cyclic AMP phosphodiesterase. Thus, it is likely that insulin lack enhaces epinephrine activation of adenylate cyclase. 3. Unlike epinephrine, glucagon increased liver cyclic AMP to essentially the same extent whether the rat was treated with anti-insulin serum or not. 4. Based on the difference in dose-response curves between normal and insulin-deficient rats, a possibility is discussed that there are two adenylate cylase in the liver with higher and lower affinities for epinephrine and that circulating insulin blocks the high affinity enzyme selectively.
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PMID:Attenuation of epinephrine-induced increase in liver cyclic AMP by endogeneous insulin in vivo. 18 27

The glucose responsiveness of alpha- and beta-cells of normal as well as untreated and insulin-treated streptozotocin diabetic rats was tested in the extracorporeal perfusion system. Also assessed was the possible in vitro effect of added insulin on the glucose sensitivity of islets from untreated diabetic animals. Insulin and glucose responsiveness of the two cell types. The rate of glucose entry islet tissue was estimated, and the effect of glucose on the tissue supply of ATP and lactate and the cyclic 3':5'-AMP level of islets was measured under the above in vitro conditions. It was demonstrated that beta-cells are more accessible to glucose than alpha-cells, that glucose entry into islet cells is not significantly modified by insulin and that glucose had no effect on ATP, lactate and cyclic 3':5'-AMP levels of islet tissue under any of the conditions investigated. High insulin in vitro elevated ATP levels of alpha-cell islets independent of extracellular glucose. Glucose caused insulin release from normal but not from diabetic islets and rapidly and efficiently suppressed stimulated glucagon secretion of the pancreas from normal and insulin treated diabetic rats. Glucose was less effective in inhibiting stimulated glucagon secretion by the pancreas from untreated diabetic rats whether insulin was added to the perfusion media or not. Therefore, profound differences of glucose responsiveness of alpha-cells fail to manifest themselves in alterations of basic parameters of glucose and energy metabolism in contrast to what had been postulated in the literature. It is however, apparent that the glucose responsiveness of alpha-cells is modified by insuling by an as yet undefined mechanism.
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PMID:Hormone secretion and glucose metabolism in islets of Langerhans of the isolated perfused pancreas from normal and streptozotocin diabetic rats. 18 89

The effects of carbamylcholine (Cch), the divalent cation ionophore A23187 and Ca2+ on the cyclic 3',5'-guanosine monophosphate (cGMP) and cyclic 3',5'-adenosine monophosphate (cAMP) content of rat renal cortical slices were examined. In both the presence and absence of 10 mM theophylline, Cch detectably increased cGMP within 15 sec, with peak responses noted by 2 min. The maximal cGMP response to Cch alone (0.05 mM) was an increase of two- to three-fold over control. Theophylline, which was routinely present in the incubations and which alone increased cGMP of the slices two-fold over basal during 20 min incubations, potentiated the response to Cch (maximal increase, five- to sixfold over theophylline alone). The action of Cch to increase renal cortical cGMP was blocked by prior addition of atropine and was dependent upon the presence of Ca2+ in the incubation media. Exclusion of Ca2+ lowered basal cGMP and abolished increases mediated by Cch, while exclusion of Mg2+ was without detectable effect on cGMP. In slices incubated initially without Ca2+, reexposure to Ca2+ for 1min partially restored the cGMP response to Cch, and reexposure for 3 min completely restored this response. Since prior incubation of tissue in Ca2+-free buffer for only 2 min was sufficient to block the cGMP responses to Cch, depletion of tissue Ca2+ did not appear to be involved. A23187 also increased renal cortical cGMP fivefold in the presence of Ca2+. Its effects were not additive with those of Cch and were not additive with those of Cch and were not expressed by Mg2+ in Ca2+-free media. By contrast, tetracaine, which blocks Ca2+ transport across or binding to biologic membranes, reduced basal cGMP and inhibited the actions of Cch and A23187 to increase cGMP in cortical slices incubated with Ca2+. The action of 1 mM tetracaine to block Cch-mediated increases in cGMP was partially reversed by increasing media Ca2+ from 1.5 to 5 mM, but not by increasing media Mg2+ to 5 mM. In contrast to their effects on cGMP, Cch, A23187, Ca2+ exclusion, and tetracaine did not detectably alter basal renal cortical cAMP or cAMP responses to parathyroid hormone (PTH). Conversely, concentrations of PTH, glucagon, and isoproterenol which maximally increased renal cortical cAMP did not alter cGMP. Furthermore, prior incubation of slices with Cch did not alter their subsequent cAMP response to PTH at a time when cGMP levels were still elevated, while prior incubation with PTH did not affect the subsequent cGMP response to Cch at a time when cAMP was increased. These studies demonstrate modulation of renal cortical cGMP by cholinergic stimuli and Ca2+. They also indicate that cGMP and cAMP in renal cortex can be regulated independently.
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PMID:Calcium-dependent regulation of guanosine 3',5'-monophosphate in renal cortex: effects of ionophore A23187 and tetracaine and evidence for independent control of adenosine 3',5'-monophosphate. 18 65

The results of clinical and biochemical investigations on a girl with all obligatory signs of Mauriac syndrome already in infancy were compared with the different hypotheses suggested in order to explain the pathogenesis of this disease. One possible explanation for the origin of MS might be a decreased sensitivity of adenylate-cyclase to glucagon or adrenalin. Hypersensitivity to insulin, resulting in a decreased production of cyclic AMP and activation of glycogen synthetase could be excluded by measuring the urine excretion of cAMP with and without insulin. Furthermore no signs of dyspituarism were detectable on our case and the hypothesis of MS being a combination of primary glycogenosis and diabetes mellitus could also be refuted. Liver enzyme activities were normal.
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PMID:[Pathogenetic investigations on a case of mauriac syndrome (author's transl)]. 18 11


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