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)

The influence of Vibrio cholerae enterotoxin (choleragen) on the response of adenylate cyclase to hormones and GTP, and on the binding of 125I-labeled glucagon to membranes, has been examined primarily in rat adipocytes, but also in guinea pig ileal mucosa and rat liver. Incubation of fat cells with choleragen converts adenylate cyclase to a GTP-responsive state; (-)-isoproterenol has a similar effect when added directly to membranes. Choleragen also increases by two- to fivefold the apparent affinity of (-)-isoproterenol, ACTH, glucagon, and vasoactive intestinal polypeptide for the activation of adenylate cyclase. This effect on vasoactive intestinal polypeptide action is also seen with the enzyme of guinea pig ileal mucosa; the toxin-induced sensitivity to VIP may be relevant in the pathogenesis of cholera diarrhea. The apparent affinity of binding of 125I-labeled glucagon is increased about 1.5- to twofold in choleragen-treated liver and fat cell membranes. The effects of choleragen on the response of adenylate cyclase to hormones are independent of protein synthesis, and they are not simply a consequence to protracted stimulation of the enzyme in vivo or during preparation of the membranes. Activation of cyclase in rat erythrocytes by choleragen is not impaired by agents which disrupt microtubules or microfilaments, and it is still observed in cultured fibroblasts after completely suppressing protein synthesis with diphtheria toxin. Choleragen does not interact directly with hormone receptor sites. Simple occupation of the choleragen binding sites with the analog, choleragenoid, does not lead to any of the biological effects of the toxin.
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PMID:Mechanism of activation of adenylate cyclase by Vibrio cholerae enterotoxin. Relations to the mode of activation by hormones. 17 36

The production of adenosine 3',5'-monophosphate (cyclic AMP) in a membrane preparation from human liver homogenate has been studied. Cyclic AMP production was enhanced by glucagon, guanylyl 5'-imidodiphosphate (GMP-PNP), or fluoride, or combinations of these. Adenosine, adenosine monophosphate (AMP) and adenosine diphosphate (ADP) at a concentration of 10(-3) mol/l antagonized the effects of all stimulants. These data suggest that inhibitory effects are exercised at the catalytic moiety of the adenylate cyclase system, or at the transducer function between hormone receptor and catalytic unit. In contrast, adenosine at a concentration of 10(-5) mol/l antagonized glucagon- but not fluoride-stimulated adenylate cyclase activity.
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PMID:Adenylate cyclase activity in human liver membranes and its inhibition by adenosine and adenine nucleotides. 21 Apr 96

Receptors for various hormones have been examined throughout the adult life span. In most of these studies receptor concentrations were found to decrease with increasing age, either during senescence or earlier in adulthood. In contrast, binding affinities did not change with age. Tissues and cells examined have included liver, brain, adipose tissue, skeletal muscle, prostate, fibroblasts, and lymphocytes. Receptors for steroids as well as membrane-active hormones such as insulin, glucagon, catecholamines, and prolactin were studied. Rats, mice, dogs, and humans have been employed. Changes in hormone receptor levels appear to constitute a common manifestation of the aging process, and offer interesting model systems in which to study the control of genetic expression during senescence.
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PMID:Hormone receptor changes during adulthood and senescence: significance for aging research. 21 48

Specific modification of the single lysine residue (Lys-12) in glucagon with O-methylisourea has been effected by blocking the reactivity of the amino terminal histidine with copper, providing a method for obtaining [12-homoarginine]glucagon. It was found that as a side reaction, under the conditions of the modification reaction, Cu(II) catalyzed cleavage of the polypeptide chain between Asp-9 and Tyr-10, and between Lys-12 and Tyr-13. This observation may be of value for development of a sequence-specific peptide cleavage procedure. The dilute solution conformations of glucagon and [12-homoarginine]-glucagon were compared by circular dichroism, fluorescence, phosphorescence, energy transfer, and optical detection of magnetic resonance. The results indicate that conversion of Lys-12 to homoarginine does not alter the helix content the side chain conformation in the vicinity of the tyrosine and tryptophan residues, or the relative distances and orientations between these residues. However, the modification reduces the hormone potency towards activation of lipolysis in isolated rat epididymal fat cells by a factor of seven. We attribute the loss of potency to an interference with a specific interaction between the lysine residue and the fat cell hormone receptor, and not to a change in the solution conformation of the hormone.
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PMID:[12-Homoarginine]glucagon: synthesis and observations on conformation, biological activity, and copper-mediated peptide cleavage. 42 94

1. Synthetic lysophosphatidylcholines inhibit the glucagon-stimulated adenylate cyclase activity of rat liver plasma membranes at concentrations two to five times lower than those needed to inhibit the fluoride-stimulated activity. 2. Specific 125I-labelled glucagon binding to hormone receptors is inhibited at concentrations similar to those inhibiting the fluoride-stimulated activity. 3. At concentrations of lysophosphatidylcholines immediately below those causing inhibition, an activation of adenylate cyclase activity or hormone binding was observed. 4 These effects are essentially reversible. 5. We conclude that the increased sensitivity of glucagon-stimulated adenylate cyclase to inhibition may be due to the lysophosphatidylcholines interfering with the physical coupling between the hormone receptor and catalytic unit of adenylate cyclase. 6. We suggest that, in vivo, it is possible that lysophosphatidylcholines may modulate the activity of adenylate cyclase only when it is in the hormone-stimulated state.
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PMID:Lysophosphatidylcholines can modulate the activity of the glucagon-stimulated adenylate cyclase from rat liver plasma membranes. 43 79

Glucagon-stimulated adenylyl cyclase activity has been shown to change in liver membranes manipulated to alter either their fatty acid composition or fluidity. We examined whether membrane alterations induced by dietary manipulation affected receptor function. Glucagon- and beta-adrenergic-stimulated receptor-adenylyl cyclase systems were examined in liver membranes of rats fed diets containing 10% corn oil, 10% coconut oil (essential FFA deficient), or 8.5% coconut oil with 1.5% corn oil (essential FFA repleat). Basal and maximal nonreceptor-mediated adenylyl cyclase activity (stimulated by NaF, guanylylimidodiphosphate, and forskolin) was the same in membranes of each of the dietary groups, suggesting that Gs-protein and the catalytic unit activity per se were unaltered by the manipulations. Glucagon-stimulated adenylyl cyclase activity increased with increasing unsaturation of dietary fatty acids; activity in coconut oil-fed rats was 527 +/- 30 (mean +/- SEM) pmol/mg.10 min, that in coconut/corn oil-fed rats was 752 +/- 74 pmol/mg.10 min, and that in corn oil-fed rats was 981 +/- 94 pmol cAMP/mg.10 min. [125I]Monoiodoglucagon binding did not increase in parallel to the adenylyl cyclase alterations; coconut oil-fed animals (614 fmol/mg) differed from the other groups (450 and 430 fmol/mg). Isoproterenol (beta-adrenergic)-stimulated adenylyl cyclase activity was also highest in the corn oil-fed animals, but was similar in the other dietary groups, with no difference in other characteristics of [125I]iodopindolol binding between the groups. The results demonstrate that alterations in the glucagon-stimulated adenylyl cyclase response are different from those in the beta-adrenergic adenylyl cyclase response. Further, they suggest that although direct activations of the catalytic unit or its interaction with the guanine nucleotide-sensitive protein are apparently not affected, hormone receptor-mediated adenylyl cyclase activity may be altered by these dietary manipulations.
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PMID:Altered glucagon- and catecholamine hormone-sensitive adenylyl cyclase responsiveness in rat liver membranes induced by manipulation of dietary fatty acid intake. 222 11

The significance of a well defined molecular architecture in hormone receptor interaction and the methods available for the study of preferred conformations are discussed. The conformational freedom in glucagon is a major obstacle in the determination of its biologically relevant geometry. In the secretin molecule intramolecular forces generate a folded, partially helical conformation. In respect of long range cooperative interactions resulting in a compact molecule with secondary-tertiary structure secretin is similar to globular proteins. In VIP some characteristics of secretin and also of glucagon can be recognized. Further progress in conformation analysis can be expected from the study of rigid, cyclic analogs in which the biological activities of the parent hormones are retained or even enhanced. Such analogs have well defined conformations without external stabilization from membrane mimicking lipids. Therefore, they provide information on the biologically relevant geometry of the hormones and contribute also to our knowledge of receptor sites.
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PMID:Conformation of peptides of the secretin-VIP-glucagon family in solution. 301 2

The binding of [14,15-3H]14,15-dihydroforskolin ([3H]DHF) to rat liver membranes has been further characterized and was compared with the stimulatory effect of forskolin on adenylate cyclase. The binding equilibrium dissociation constant (KD) for 14,15-dihydroforskolin obtained in inhibition experiments was 0.6 microM, with a maximal binding capacity (Bmax) of 114 pmol/mg protein. A similar KD value (0.5 microM) was derived from kinetics studies that revealed very rapid association and dissociation reactions. For structure-activity relationship studies several forskolin derivatives were synthesized and tested for their ability to inhibit [3H]DHF binding and increase adenylate cyclase activity. Among the tested compounds, forskolin itself was the most potent agonist (K1 = 0.2 microM). Further modification of the molecule in position 7 and (or) 1 decreased or abolished its agonist properties in both adenylate cyclase and binding studies. [3H]DHF binding was not affected by several nucleotides, carbohydrates, lectins, and hormone receptor agonists including isoproterenol, glucagon, and adenosine, but the steroids 17-beta-estradiol, progesterone, and testosterone showed slight inhibitory effects at unphysiologically high concentrations. [3H]DHF binding and forskolin-stimulated adenylate cyclase were sensitive to heat and N-ethylmaleimide treatment. Forskolin protected adenylate cyclase against inactivation by heat but not by N-ethylmaleimide. Preincubation of the membrane with trypsin decreased [3H]DHF binding. The results presented in this study demonstrate that the binding sites identified with [3H]DHF have a high specificity for forskolin and provide evidence that these binding sites are involved in the stimulation of adenylate cyclase by forskolin.
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PMID:Binding of [14,15-3H]14,15-dihydroforskolin to rat liver membranes: comparison with the stimulatory effect of forskolin on adenylate cyclase. 362 Oct 43

The role of glucagon in the pathogenesis of abnormalities of glucose metabolism associated with renal failure remains undefined. We have evaluated glucagon-stimulated glucose and cyclic AMP output and amino acid uptake in isolated perfused livers of rats with experimentally-induced ARF and sham-operated controls. ARF animals exhibited azotemia, hyperglycemia, hyperinsulinemia, and hyperglucagonemia. During stimulation with physiologic (3 X 10-10M) or supraphysiologic (3 X 10-8M) glucagon concentrations, glucose output was lower in livers of ARF rats than in those of controls, whereas cyclic AMP responses were similar or exceeded those of controls. Hepatic glycogen content was lower in rats with ARF and the stores were exhausted at the end of perfusions. Additional studies in livers of fasted animals revealed no significant differences in glucose output or amino acid uptake between ARF and control livers perfused with physiologic levels of glucagon. These experiments suggest that the decreased glucagon-stimulated glucose output in isolated perfused livers in acutely uremic rats is due primarily to glycogen depletion rather than to impaired gluconeogenesis. Normal or increased cyclic AMP responses to glucagon suggests intactness of the hormone receptor-adenylate cyclase.
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PMID:Impaired glucagon-stimulated glucose output in livers of acutely uremic rats. 627 48

In rabbit liver plasma membranes (LPM), specific binding of 125I-insulin rapidly increased in late gestation and peaked at birth, declining thereafter. In contrast, 125I-glucagon binding was lowest in late gestation, somewhat higher at birth, and increased by 48 h although only to 20-25% of adult. These changes in binding were due to changing numbers of receptors involving predominantly high affinity sites for insulin and low affinity sites for glucagon, with only minor changes in affinity. Despite measurable glucagon receptors by birth, fetal LPM produced no increment above basal in cAMP production with maximal doses of glucagon (10(-6) M), prostaglandin E1 (10(-4) M), or epinephrine (10(-4) M). Near birth only NaF (10 mM) produced a modest but significant increment in cAMP. By 2 h postbirth, all stimuli evoked significant increments in cAMP production that increased progressively but was still only 15-20% of adult at 48 h. Furthermore, although specific binding of cholera toxin was greater in fetal LPM (11 +/- 1 vs. 6 +/- 1%), cholera toxin-stimulated cAMP production increased by only 12-26% above basal in the fetus compared with 220% in adult. Markers of membrane purity including 5'-nucleotidase, phosphodiesterase, and insulin or glucagon degradation were not different in fetus and adult. We conclude that receptors and components of the adenylate cyclase complex mature independently; initial coupling occurs between the G/F regulatory protein and the catalytic unit (NaF but not hormonal activation) followed within hours of birth by coupling to the hormone receptor.
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PMID:Ontogeny of hepatic insulin and glucagon receptors and adenylate cyclase in rabbit. 630 5


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