UNIPROT:P01275 - FACTA Search

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Query: UNIPROT:P01275 (glucagon)
26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Primary cultures of rat hepatocytes were used to investigate the regulation of glucokinase gene expression by insulin and glucagon. Insulin added in physiological concentrations to the culture medium causes de novo induction of glucokinase mRNA. The induced plateau is reached 4 to 8 h after insulin addition, and the mRNA level remains high as long as insulin is present. Comparison of the potencies of insulin, proinsulin, and insulin-like growth factor I in this system indicates that induction by insulin is mediated via the insulin receptor. The magnitude of the insulin effect is independent of the extracellular glucose concentration. Run-on transcription assays with isolated nuclei show that the mRNA build up depends primarily on a specific stimulation of glucokinase gene transcription. Glucagon added to hepatocytes together with a supramaximal concentration of insulin prevents induction of glucokinase mRNA in a dose-dependent manner. The inhibitory effect of glucagon is mimicked by 8-(4-chlorophenylthio)-cAMP. The effect of this agent has also been tested in hepatocytes first induced for maximal glucokinase gene transcription by culture with insulin alone for 12 h. The transcriptional activity of the gene as measured by run-on assay was completely turned off within 30 min after addition of the cyclic nucleotide. Under these conditions, glucokinase mRNA decays rapidly, with an apparent half-life of 45 min. The mRNA degradation rate was similarly rapid after insulin withdrawal from induced cells. Thus, a cAMP-mediated repression mechanism is a key aspect in the regulation of glucokinase gene transcription in the hepatocyte. Insulin may act by relieving the gene from repression.
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PMID:Transcriptional induction of glucokinase gene by insulin in cultured liver cells and its repression by the glucagon-cAMP system. 255 41

Catecholamines acutely exert a pronounced insulin-antagonistic effect, which is mediated by beta-adrenergic receptors stimulation. Nevertheless, several patients with pheochromocytoma fail to exhibit an overt diabetic syndrome, in spite of steadily elevated plasma levels of catecholamines. This prompted us to investigate a 16 years old male patient, bearing an extra-adrenal pheochromocytoma, who displayed a slightly impaired glucose tolerance to oral glucose tolerance test, whereas fasting and post-prandial blood glucose, as well as glycaemic response to intravenous glucagon, were in the normal range. Peripheral insulin sensitivity, as evaluated by intravenous insulin tolerance test, was slightly decreased. Supine norepinephrine plasma levels were steadily upon 9 ng/ml; plasma insulin, both fasting and post-prandial, was within the normal range. beta-adrenergic receptors density of peripheral mononuclear cells was strongly reduced when compared to controls (0.97 +/- 0.08 vs 2.82 +/- 0.37 fmol/10(6) cells), without any concomitant change of affinity. Insulin binding to circulating monocytes was reduced as well (2.38 +/- 0.27 vs 5.1 +/- 0.4%/10(7) monocytes); insulin receptor affinity was quite normal (1.7 ng/ml) and total receptor number was 9,200 sites/cell. In desensitization experiments, 1 microM isoproterenol caused only a 20% decrease of beta-adrenergic receptors density in the patient's cells (70% decrease in controls). Six months after surgery, all the above modifications of receptor binding, as well as the mild glucose intolerance, were almost completely reversed. Thus, high levels of norepinephrine were able to induce a decrease of both beta-adrenoceptor and insulin receptor binding, together with a marked reduction of in vitro agonist-induced redistribution of beta-adrenergic receptors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Beta-adrenoceptors desensitization may modulate catecholamine induced insulin resistance in human pheochromocytoma. 256 Jul 26

Seven patients with histologically proven mitochondrial myopathy with ophthalmoplegia (OMM), 6 of them nondiabetic, 1 affected by diabetes mellitus (DM), were submitted to a study of glucose tolerance and of insulin receptors on peripheral mononuclear cells and cultured skin fibroblasts. The diabetic patient, who had the typical features of the Kearns-Sayre syndrome (KSS) and deleted muscle mitochondrial DNA (mtDNA) presented a low insulin secretion rate under physiological stimuli (intravenous glucose and glucagon) whereas the insulin receptor parameters were found normal. The other patients showed a normal glucose tolerance and normal insulin receptors. Our data support the hypothesis that insulin receptors are not involved in the pathogenesis of DM associated with mitochondrial encephalomyopathies, in contrast to other neuromuscular inherited disorders. The clinical and biological features of DM presented by our KSS patient show normal insulin receptor parameters in spite of a defective insulin secretion, possibly depending on mitochondrial dysfunction.
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PMID:Normal insulin receptors in mitochondrial myopathies with ophthalmoplegia. 261 64

Antiinsulin receptor antibodies were detected in the serum of a patient with insulin-resistant diabetes. Fasting hypoglycemia and postprandial hyperglycemia recurred every day. The plasma insulin level was 553 +/- 359 pmol/L [77 +/- 50 microU/mL (mean +/- SD)] in the fasting state and rose above 7500 pmol/L postprandially. The glycemic clamp at 2.8 mmol/L (50 mg/dL) without insulin infusion revealed that the half-life of plasma endogenous insulin was 173 min, indicating severely impaired plasma insulin clearance. During the clamp the glucose infusion rate was almost constant (0.9-1.2 mg/kg.min) despite an exponential decline in the plasma insulin level from 460 pmol/L (65 microU/mL) to 129 pmol/L (18 microU/mL). Intravenous insulin administration did not appreciably accelerate the basal constant decrease in the plasma glucose level during the postabsorptive period. These results indicate the coexistence of marked insulin resistance and constant ability to decrease plasma glucose level. In in vitro experiments, antireceptor immunoglobulin G from this patient increased the fructose 2,6-bisphosphate concentration in the presence of glucagon (less than 0.1 nmol/L) in primary cultured rat hepatocytes. The antireceptor immunoglobulin G stimulated autophosphorylation of rat liver insulin receptor. We conclude that antiinsulin receptor antibodies could impair plasma insulin clearance, resulting in persistent hyperinsulinemia, and that continuous receptor stimulation by the antibodies was responsible for the development of hypoglycemia.
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PMID:Hyperinsulinemia due to impaired insulin clearance associated with fasting hypoglycemia and postprandial hyperglycemia: an analysis of a patient with antiinsulin receptor antibodies. 266 22

After immunizations with glucagon or vasopressin, either conjugated to keyhole limpet hemocyanin or adsorbed to polyvinylpyrrolidone, both anti-hormone and anti-receptor activities were detectable in the serum of injected mice. Anti-hormone activity was identified by ELISA techniques; anti-receptor activity, by determining the ability of serum samples to compete with labeled hormone for glucagon or vasopressin receptors on rat liver plasma membranes. Anti-receptor activity appeared only after the peak anti-hormone response to each immunogen had been established, and required intensive immunizations (six to nine monthly injections). The presence of anti-idiotypic antibodies in serum samples containing glucagon or vasopressin anti-receptor activity was confirmed by demonstrating selective binding of such samples to corresponding rabbit idiotypic antibodies. Serum from mice immunized with insulin also contained anti-hormone activity, as determined by ELISA, and anti-receptor activity, as determined by noting insulin-mimicking properties in stimulating glucose transport in rat adipocytes. The anti-insulin receptor activity developed after only one boost with the hormone. These results are consistent with Jerne's network hypothesis in that the glucagon, vasopressin, and insulin anti-receptor activity may be attributed to antibodies produced in mice as part of an idiotypic-anti-idiotypic network.
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PMID:Production of idiotypic and anti-idiotypic antibodies by BALB/c mice in response to immunizations with glucagon, vasopressin, or insulin: supporting evidence for the network concept. 301 96

Hepatic receptors are normally exposed to discrete pulses of insulin and glucagon at intervals of 8 to 16 min. Using a multicolumn system for perifusing hepatocytes, we investigated the effect of this pattern on the normal processing of the insulin receptor. Surface-receptor binding was measured in acid-washed cells harvested from individual columns. The number of high-affinity surface receptors fell to a nadir 1 min after the end of a 3-min square-wave pulse of insulin. The maximum reduction reached 45% of baseline at amplitudes of 1000 microU/ml or above. The number of surface binding sites returned to baseline 15 min after the end of the pulse, but the affinity constant of the high-affinity receptor was unchanged. The reduction of surface binding was dose dependent, with an ED50 of 251 +/- 34 microU/ml. Prolonging the pulse to 60 min did not affect the nadir or the rate of restoration of the surface-receptor population. The change in surface binding was reduced at 15 degrees C and abolished at 4 degrees C. After a pulse, the pattern of change was a period of rapid decline to a nadir (t1/2 less than or equal to 1 min) that persisted for 3-5 min, followed by restoration of surface binding that reached baseline in 10-15 min. This same pattern was present after six ED95 pulses delivered at intervals of 15 min. These data indicate that the internalization of hepatocyte surface receptors and their recycling and reinsertion into the plasma membrane can be entrained to pulses at the physiologic pulse frequency.
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PMID:Rapid reduction and return of surface insulin receptors after exposure to brief pulses of insulin in perifused rat hepatocytes. 304 65

Previously we demonstrated that glucagon inhibits high affinity insulin binding without influence on low affinity binding in rat adipocytes in vitro. In this study we investigated the effects of glucagon on insulin actions in adipocytes in vitro. Glucagon modified neither glucose oxidation nor lipogenesis stimulated by insulin. The antilipolytic action of insulin was decreased by preincubation of the cells with glucagon. Glucose transport enhanced by insulin was diminished by preincubation of the cells with glucagon. The decrease in antilipolysis was a lowering of the maximal response to insulin, whereas the decrease in glucose transport was a lowering of the sensitivity to insulin. These results suggested that glucagon does not necessarily inhibit all of the insulin actions, and that the mechanism of insulin stimulation of glucose transport, which is supposed to be mediated by glucagon-sensitive insulin receptor, is different from those of insulin-induced antilipolysis, glucose oxidation, and lipogenesis.
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PMID:Selective alterations of insulin actions by glucagon in isolated rat epididymal adipocytes. 305 59

The identification of a novel protein from Drosophila melanogaster that binds both mammalian epidermal growth factor (EGF) and insulin has been reported (Thompson, K. L., S. J. Decker, and M. R. Rosner, 1985, Proc. Natl. Acad. Sci. USA., 82:8443-8447). This 100-kD protein (designated dp100) is also recognized by an antiserum against the human EGF receptor. To further characterize the properties of this protein, we have determined the binding spectrum, glycosylation state, and cellular distribution of dp100. Our results indicate that dp100 binds to other insulin-like and EGF-like growth factors with dissociation constants ranging from 10(-6) to 10(-9) M, and these ligands compete with each other for binding to dp100. All other ligands tested, including platelet-derived growth factor, transforming growth factor-beta, nerve growth factor, and glucagon, either did not bind or bound with a Kd greater than 10(-6) M. Unlike the Drosophila insulin receptor, dp100 does not bind to wheat germ agglutinin and is present in a cytoplasmic as well as a membrane-bound form that cannot be differentiated by two-dimensional PAGE. Further, dp100 is the sole transforming growth factor-alpha-binding protein detected by affinity labeling in Drosophila Kc cells. These results indicate that dp100 shares properties in common with, but distinct from, the Drosophila homologues of the insulin and EGF receptors.
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PMID:Characterization of a Drosophila protein that binds both epidermal growth factor and insulin-related growth factors. 311 66

To determine the effect of insulin on its receptor concentrations in hepatocytes of fetal and adult rats, these cells were preincubated in the presence or absence of insulin. The reduced [125I]-insulin binding observed in adult hepatocytes was dependent on the concentration of insulin and on the duration of exposure, while in fetal hepatocytes insulin did not induce any reduction in insulin binding. In contrast, glucagon receptors were unaffected by preincubation with insulin. The modifications observed in insulin binding were accounted for by changes in receptor concentrations rather than any change in receptor affinity for the hormone. Studies on the kinetic properties of the insulin receptors of fetuses and adult rats revealed that association and dissociation rates were undistinguishable. These results indicate an absence of insulin receptor down-regulation in the fetus, which could favour anabolic processes during intrauterine life.
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PMID:Lack of insulin effect on its own receptors in fetal rat hepatocytes. 332 12

Effects of glucagon on insulin action in rat epididymal adipocytes were studied in vitro. [125I]iodoinsulin binding to isolated adipocytes was inhibited by preincubation of the cells with isoproterenol, epinephrine, or glucagon. Fifty percent inhibition was observed with 2 X 10(-8) M glucagon, 10(-6) M isoproterenol, and 10(-7) M epinephrine. Maximal (90%) inhibition induced by glucagon was observed at 10(-6) M. In Scatchard analysis, [125I]iodoinsulin competition data generated curvilinear plots in buffer- and glucagon-treated cells. Pretreatment of the cells with (Bu)2cAMP reduced insulin binding activity. However, the simultaneous addition of (Bu)2cAMP with [125I]iodoinsulin did not produce the inhibition of the binding when the cells were not pretreated with the agent. cAMP level in the cells was increased by incubation with glucagon. 3-O-[Methyl-3H]methylglucose uptake by isolated adipocytes was inhibited by pretreatment of the cells with glucagon. These results suggest that glucagon regulates insulin action through decrease in insulin receptor activity, and that it is possible that the inhibition is mediated by cAMP production in adipocytes.
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PMID:Glucagon alters insulin binding to isolated rat epididymal adipocytes: possible role of adenosine 3',5'-monophosphate in modification of insulin action. 352 8

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