UNIPROT:P01275 - FACTA Search

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)

Epidermal growth factor (EGF) was purified chromatographically from mice submaxillary glands, and its activity and electrophoretic pureness were identified. The effect of EGF, glucagon-insulin (G-Ins) and EGF-glucagon-insulin mixture(EGF-G-Ins) on stimulation of DNA synthesis in primary cultures of rat hepatocytes and their protective effect on mice with liver injury were investigated. The results showed that G-Ins had significant effect on DNA synthesis in primary hepatocyte culture; EGF showed more significant effect compared with G-Ins; and EGF-G-Ins had the best effect. EGF-G-Ins could increase the survival rate and improve the repair of injured hepatocytes in mice treated with D-galactosamine. Although EGF and G-Ins could reduce the degree of hepatic injury, they did not elevate the survival rate. The present study provided some information on clinical therapy with EGF-G-Ins in patients with fulminant hepatic failure.
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PMID:[Epidermal growth factor for enhancing DNA synthesis of hepatocytes and its protecting effect on animals with liver injury]. 133 7

This study used 10-nm gold particles with 5-7 insulin molecules attached (Au10-Ins) to investigate the site of interaction of insulin with the nuclear envelope during insulin uptake into intact isolated nuclei. Despite its size, and in the absence of ATP, Au10-Ins entered nuclei through the nuclear pore and associated with the heterochromatin. Because Au10-Ins is essentially gold-bovine serum albumin (Au-BSA) with a few insulin molecules attached, the effect of insulin and other growth factors on the nuclear accumulation of BSA coupled to 10-, 15-, and 24-nm-diam colloidal gold particles (Au10-BSA, Au15-BSA, and Au24-BSA) was determined. The Au-BSA complexes were excluded from nuclei in the absence of insulin. Insulin (0.5-100 ng/ml) caused a dose-dependent accumulation of Au10-BSA in the nucleus. The nuclear membrane was shown to be intact by several criteria, therefore, accumulation of Au-BSA occurred via the nuclear pore and was not due to leakage across or through the membrane. Uptake of 15- and 24-nm Au-BSA molecules was not affected by insulin, suggesting the hormone had a limited effect in increasing the functional diameter of the nuclear pores. Glucagon, epidermal growth factor, platelet-derived growth factor, insulinlike growth factor I, and insulin A or B chains did not stimulate the accumulation of Au10-BSA. The insulin-stimulated accumulation of Au10-BSA was blocked by concanavalin A, mimicked by wheat-germ agglutinin, and did not require ATP. The Au10-BSA in the nucleus was associated with heterochromatin, suggesting it bound to a nuclear element.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Insulin stimulates accumulation and efflux of macromolecules in isolated nuclei from H35 hepatoma cells. 173 9

Interactions between the different signaling roles of myo-inositol 1,4,5-trisphosphate and 1,2-diacylglycerol, the products of agonist-stimulated phosphatidylinositol 4,5-bisphosphate breakdown, are assessed in isolated rat hepatocytes. Measurements of the kinetics of accumulation of individual [3H]inositol phosphates after the addition of different Ca2+-mobilizing agonists in general support the role of inositol 1,4,5-trisphosphate as the second messenger responsible for release of sequestered intracellular Ca2+. Various agonists, when added at maximal concentrations, however, produce qualitatively and quantitatively different responses, which reflect varying abilities of the agonists to activate phospholipase C. Qualitative differences are revealed by a pronounced biphasic pattern to the Ins(1,4,5)P3 accumulation after vasopressin and phenylephrine stimulation, which is indicative of negative feedback. It is suggested that this effect is mediated by a partial diacylglycerol activation of protein kinase C, which in vitro causes an activation of inositol phosphate 5-phosphatase and hence promotes removal of Ins(1,4,5)P3 to Ins(1,4)P2. An alternative mechanism proposed by Biden and Wollheim (1986) of a secondary Ca2+ activation of Ins(1,4,5)P3 3-kinase is considered less likely as a general mechanism, since highly purified kinase prepared from rat brain shows only an inhibition by Ca2+. Glucagon, 8-Br-cAMP, and EGF induce small increases of Ins(1,4,5)P3 in hepatocytes, together with slower and smaller increases of cytosolic free Ca2+ than those produced by vasopressin or phenylephrine, with Ca2+ being mobilized from the same intracellular pools with each of the agonists. The Ca2+-mobilizing effect of glucagon, therefore, may be entirely due to a cAMP-dependent process, although a direct receptor-mediated activation of phospholipase C, as suggested by Wakelam et al. (1986), remains a possibility. The EGF receptor appears to be coupled to phospholipase C, presumably via a G-protein. It is speculated that the mechanism by which cAMP increases Ins(1,4,5)P3 levels in hepatocytes could either be by phosphorylation and inhibition of inositol phosphate 5-phosphatase or by phosphorylation and facilitation of the coupling between the G-protein and phospholipase C. When protein kinase C is maximally activated by pretreatment of hepatocytes with PMA, the stimulatory effects of phenylephrine, glucagon, 8-Br-cAMP, and EGF on the accumulation of inositol phosphates and increase of cytosolic free Ca2+ are largely inhibited.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mechanisms involved in receptor-mediated changes of intracellular Ca2+ in liver. 285 Jun 13

We have augmented our previous studies [Storey, Shears, Kirk & Michell (1984) Nature (London) 312, 374-376] on the subcellular location and properties of Ins(1,4,5)P3 (inositol 1,4,5-trisphosphate) phosphatases in rat liver and human erythrocytes. We also investigate Ins(1,3,4)P3 (inositol 1,3,4-trisphosphate) metabolism by rat liver. Membrane-bound and cytosolic Ins(1,4,5)P3 phosphatases both attack the 5-phosphate. The membrane-bound enzyme is located on the inner face of the plasma membrane, and there is little or no activity associated with Golgi apparatus. Cytosolic Ins(1,4,5)P3 5-phosphatase (Mr 77,000) was separated by gel filtration from Ins(1,4)P2 (inositol 1,4-bisphosphate) and inositol 1-phosphate phosphatases (Mr 54,000). Ins(1,4,5)P3 5-phosphatase activity in hepatocytes was unaffected by treatment of the cells with insulin, vasopressin, glucagon or dibutyryl cyclic AMP. Ins(1,4,5)P3 5-phosphatase activity in cell homogenates was unaffected by changes in [Ca2+] from 0.1 to 2 microM. After centrifugation of a liver homogenate at 100,000 g, Ins(1,3,4)P3 phosphatase activity was largely confined to the supernatant. The sum of the activities in the supernatant and the pellet exceeded that in the original homogenate. When these fractions were recombined, Ins(1,3,4)P3 phosphatase activity was restored to that observed in unfractionated homogenate. Ins(1,3,4)P3 was produced from Ins(1,3,4,5)P4 (inositol 1,3,4,5-tetrakisphosphate) and was metabolized to a novel InsP2 that was the 3,4-isomer. Ins(1,3,4)P3 phosphatase activity was not changed by 50 mM-Li+ or 0.07 mM-Ins(1,4)P2 alone, but when added together these agents inhibited Ins(1,3,4)P3 metabolism. In Li+-treated and vasopressin-stimulated hepatocytes, Ins(1,4)P2 may reach concentrations sufficient to inhibit Ins(1,3,4)P3 metabolism, with little effect on Ins(1,4,5)P3 hydrolysis.
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PMID:Dephosphorylation of myo-inositol 1,4,5-trisphosphate and myo-inositol 1,3,4-triphosphate. 303 88

The cAMP-responsive element (CRE)-binding transcription factor CREB confers basal as well as cAMP- and calcium-induced transcription. Activation of CREB occurs by phosphorylation on serine-119 stimulating its transactivating potency. However, the regulation of CREB-DNA binding by posttranslational modification is not established. In this study, using binding and functional assays, the interaction of CREB with pancreatic islet cell-specific enhancer elements of the rat somatostatin (SMS-UE), glucagon (Glu-G3) and insulin I genes (Ins-E1) was investigated, which share a functional regulatory sequence, PISCES, with islet-specific activity. CREB bound to the SMS-UE. Bacterially expressed recombinant CREB bound equally well to the SMS-UE and to the somatostatin CRE. However, cellular CRE-binding proteins with CREB-like immunoreactivity recognized the SMS-UE markedly less well than the somatostatin CRE suggesting the existence of a posttranslational modification of CREB that alters its binding specificity.
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PMID:Interaction of the transcription factor CREB with pancreatic islet cell-specific enhancer elements. 761 87

A pancreatic islet cell-specific enhancer element in the rat glucagon gene, Glu-G3, contains two domains, one of which, domain A, has been shown to be necessary for Glu-G3 activity. In the present study, the functions of the isolated domain A of Glu-G3 were investigated by using transient reporter fusion gene expression and DNA binding assays. A single copy of domain A was transcriptionally inactive in glucagon-producing islet cell lines, whereas it did confer activity when combined with domain B, suggesting that Glu-G3 may be a bipartite element. Multiple copies of domain A did function independently as transcriptional enhancer in phenotypically distinct islet cell lines but not in several nonislet cell lines. Sequences (PISCES, pancreatic islet cell-specific enhancer sequences), similar to that of domain A of Glu-G3 and present in cell-specific control elements of the rat insulin I (Ins-E1) and rat somatostatin genes (SMS-UE), are shown to be required for transcriptional activity of these elements. In addition, a protein was detected in islet cell lines that bound to the PISCES motifs within Glu-G3, Ins-E1, and SMS-UE. These results support the view that cell-specific control elements of the glucagon, insulin, and somatostatin genes share a functional regulatory sequence, PISCES, and provide direct evidence for the existence of an islet-specific, PISCES-binding transcription factor or closely related proteins being involved in the coordinate expression of islet hormone genes.
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PMID:Transcriptional activity of domain A of the rat glucagon G3 element conferred by an islet-specific nuclear protein that also binds to similar pancreatic islet cell-specific enhancer sequences (PISCES). 778 13

Activin A now used as a recombinant product was first isolated from ovarian fluid. Its effects on insulin and glucagon secretion, 45Ca2+ net uptake, 86Rb+ efflux and inositol-trisphosphate (Ins-1,4,5-P3) content were investigated in rat pancreatic islets. Activin A increased insulin secretion at either 3.0, 8.3 or 16.7 mM glucose. It decreased glucagon secretion at 3.0, had no effect at 8.3 and increased glucagon secretion at 16.7 mM glucose. The effect on insulin release was concentration dependent; effects were obvious at 1 and 10 nM activin A. The effect on insulin release was paralleled by an effect on 45Ca2+ net uptake. 10 nM activin A were effective in elevating Ins-1,4,5-P3 content at either glucose concentration used. 86Rb+ efflux as an indicator for closing K+ channels which leads to a depolarization of the beta-cell membrane and which is a prerequisite for Ca++ influx was inhibited by activin A at a low glucose concentration (3.0 mM). The data indicate that the new peptide activin A elevates insulin release at various glucose concentrations: at low and high glucose concentrations 45Ca2+ uptake is involved. At low glucose concentrations inhibition of 86Rb+ efflux is a prerequisite sufficient to lead to a depolarization and subsequent Ca++ uptake; accumulation of Ins-1,4,5-P3 probably helps mediating the insulinotropic effect by additionally elevating intracellular Ca++.
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PMID:Activin A: its effects on rat pancreatic islets and the mechanism of action involved. 836 69

Hepatocytes were established in tissue culture in order to study the effects of pertussis toxin (PT) on epidermal growth factor (EGF)-mediated cellular responses under in vitro conditions. EGF caused a 3-fold increase of myo-inositol 1,4,5-trisphosphate (Ins-1,4,5-P3) mass and a 50% increase of diacylglycerol mass within the first minute, with the change of diacylglycerol content being 100-fold greater than that of Ins-1,4,5-P3. Diacylglycerol, but not Ins-1,4,5-P3, continued to accumulate over several hours, indicating that EGF increased the hydrolysis of lipids other than phosphatidylinositol 4,5-bisphosphate (PIP2). EGF increased phosphoinositide-specific phospholipase C-gamma (PLC-gamma) tyrosine phosphorylation within 1 min, but no effect was observed with vasopressin, insulin, or glucagon after 5 min. EGF also caused a rapid, tyrosine kinase-dependent association of G(i) alpha with PLC-gamma, which was maximal within 10 min. In contrast to our previous data on fresh hepatocytes, PT had no effect on the EGF-induced tyrosine phosphorylation of PLC-gamma, although Ins-1,4,5-P3 and diacylglycerol production were inhibited. The role of G-proteins in EGF signaling was investigated further by microinjection of G alpha antibodies into single fura-2-loaded hepatocytes. Anti-G(i) alpha (common) antibodies prevented EGF-induced but not vasopressin-induced Ca2+ transients. These results strengthen previous observations that a PT-sensitive G-protein is involved in EGF-mediated phospholipid metabolism in hepatocytes and show that tyrosine phosphorylation of PLC-gamma is an insufficient signal for activation of PIP2 hydrolysis.
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PMID:Epidermal growth factor-mediated signaling of G(i)-protein to activation of phospholipases in rat-cultured hepatocytes. 842 49

In a subset of patients with non-insulin-dependent diabetes mellitus an 8-base pair (bp) repeat was found from -322 to -315 in the 5'-flanking region of the insulin gene. This 8-bp repeat is inserted into a sequence that is highly homologous to a sequence motif, called PISCES (pancreatic islet cell-specific enhancer sequences), found within cell-specific enhancer elements of the rat insulin I (Ins-E1, from -332 to -285), rat glucagon (Glu-G3) and rat somatostatin (SMS-UE) genes. The PISCES motif confers pancreatic islet-specific activity and is recognized by an islet-specific transcription factor (PISCES-BP). The consequences on functional activity and on protein binding of the 8-bp repeat sequence in the human insulin promoter was investigated. When fused to a reporter gene and transiently transfected into an insulin-producing islet cell line, the 8-bp repeat decreased basal transcriptional activity of the human insulin promoter (from -366 to +42) whereas the induction of promoter activity by cAMP was unaffected. The isolated rat Ins-E1 element was sufficient to confer basal transcriptional activity to a minimal promoter; the corresponding fragments of the normal and variant human insulin genes (from -329 to -288), however, were not. Using nuclear extracts in an electrophoretic mobility shift assay, it was found that PISCES-BP recognizes rat Ins-E1, but PISCES-BP binding to the corresponding normal and variant human insulin promoter fragments was not detectable and weak, respectively. However, a nuclear protein was found that binds to the variant but not normal human sequence. These data suggest that the 8-bp repeat in the variant human insulin promoter found in patients with non-insulin-dependent diabetes mellitus allows the binding of a nuclear protein that interferes with promoter function.
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PMID:Nuclear protein binding and functional activity of a variant insulin gene found in non-insulin-dependent diabetes mellitus. 881 39

Blood-borne insulin is known to cross the blood-brain barrier (BBB) where it can act as a satiety peptide. We examined in mice the pharmacokinetics and characteristics of such passage by multiple-time regression analysis. The unidirectional influx constant (Ki) of human insulin radioactively labeled with iodine (I-Ins) ranged from 0.87 to 1.7 microliters/g-min. The transport of I-Ins was inhibited almost 50% by 0.1 micrograms/mouse of unlabeled human insulin, a dose that had no effect on serum glucose. Similar results were found with rat insulin. The results with self-inhibition suggest that any hemoencephalic signal transmitted by the blood to brain transport of insulin is independent of the effects of insulin on glucose. The transport of I-Ins was altered by aluminum but not by administration of tyrosine, verapamil, or leptin, indicating independence from amino acid transport, the p-glycoprotein system, a slow calcium channel, or leptin transport. By contrast with insulin, enzyme degradation limited the uptake and accumulation by brain of intravenously injected, radioactively labeled glucagon and glucagon-like peptide. In conclusion, these results are consistent with the view that insulin can affect satiety and related behaviors independently of its peripheral effects by crossing the BBB to act within the brain.
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PMID:Transport of insulin across the blood-brain barrier: saturability at euglycemic doses of insulin. 939 46

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