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)

Recently, it was shown that lipoprotein lipase (LPL) was produced in neonatal but not in adult rat liver. In an attempt to further define the mechanism involved in liver LPL expression, we identified a neonatal mouse hepatoma cell line, BWTG3, capable of producing LPL. The regulation of LPL expression by various extracellular stimuli was investigated in this cell line. Progesterone caused a rise in LPL production by BWTG3 cells. Other hormones tested, such as insulin, glucagon, adrenalin, testosterone, and thyroid hormone, had no effect on LPL production. The effects of progesterone on LPL production showed slow kinetics reaching a maximum 24 h after addition. Cotransfection of a progesterone receptor expression vector with a 5'-LPL-CAT reporter construct resulted in an induction of CAT activity, suggesting that the increase in LPL accumulation after progesterone was linked to transcriptional induction of the LPL gene. Stimuli causing an elevation of protein kinase A activity in the cells also increased LPL production. Three agents capable of elevating intracellular cAMP levels, i.e., forskolin, dBcAMP, and choleratoxin, caused an elevation of LPL production. The increase in LPL activity caused by forskolin and choleratoxin was paralleled by an elevation of LPL mRNA levels, while dBcAMP only induced a small elevation of LPL mRNA levels. The increase in LPL production was shown to be linked to the stimulation of the PKA signal transduction pathway and was apparently transmitted via the transcription factor CREB. No effect of the stimulation of protein kinase C or calcium/calmodulin-dependent kinase on LPL production was detected.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lipoprotein lipase expression in undifferentiated hepatoma cells is regulated by progesterone and protein kinase A. 132 33

Hepatocytes respond to stimulation by glycogenolytic agonists acting via phosphoinositide (PI) breakdown through oscillations of the free cytosolic concentration of Ca2+ ([Ca2+]cyt.). Since the second-messenger repertoire of hepatocytes includes many other factors besides Ca2+, we investigated to what degree the regulation of [Ca2+]cyt. oscillations is integrated into these other signalling systems. [Ca2+]cyt. was recorded in single rat hepatocytes by using the Ca(2+)-indicator fura-2. Parallel stimulation with phenylephrine (an alpha 1-adrenergic agonist of PI breakdown) and glucagon resulted in a synergistic stimulation of [Ca2+]cyt. oscillations. Direct activation of the cyclic-AMP-dependent pathway with several stimuli (forskolin, 8-bromo cyclic AMP, 8-CPT cyclic AMP) mimicked the response to glucagon. In contrast, [Ca2+]cyt. oscillations induced by various combinations of these agonists could be antagonized by the glycogenic hormone insulin. As one of the options in the insulin-signalling network, we tested a diacylglycerol activator of protein kinase C, DiC8. It also acted as an inhibitor of [Ca2+]cyt. oscillations. We investigated how these observations could be reconciled with our previously introduced model of [Ca2+]cyt. oscillations in hepatocytes [Somogyi and Stucki (1991) J. Biol. Chem. 266, 11068-11077]. First of all, the effect of calmodulin inhibitors (calmidazolium and CGS 9343 B), acting at the core of our model on the feedback of Ca2+ on Ins(1,4,5)P3-induced Ca2+ release, was not altered by the new modulators. In addition, all agonists and antagonists could be used interchangeably in combination and introduced no significant change in the oscillatory pattern or spike shape. Since the response was solely limited to frequency modulation, over- or understimulation of the oscillatory system, there is no need to create a new oscillator or to introduce further reaction steps into the core of the model. We conclude that the regulation of [Ca2+]cyt. via the explored second-messenger pathways can be embedded into the oscillatory system as modulation of rate constants already present in this model.
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PMID:Modulation of cytosolic-[Ca2+] oscillations in hepatocytes results from cross-talk among second messengers. The synergism between the alpha 1-adrenergic response, glucagon and cyclic AMP, and their antagonism by insulin and diacylglycerol manifest themselves in the control of the cytosolic-[Ca2+] oscillations. 132 20

Transgenic mice with elevated levels of beta-cell calmodulin develop severe diabetes even though pancreatic beta-cells contain reserve levels of insulin. Electron microscopic examination of transgenic pancreas confirmed the presence of abundant insulin secretory granules and failed to reveal obvious morphological abnormalities. These observations suggested that excess calmodulin may specifically impair the secretory process. To directly assess the effect of excess calmodulin on beta-cell function we have isolated pancreatic islets from transgenic animals. Transgenic islets from 6- to 8-day-old mice used 40% less glucose than normal islets and contained 58% of the normal insulin content, 90% of the normal glucagon content, and 5-fold higher levels of calmodulin than islets from control mice of the same age. Parallel perifusions of normal and transgenic islets confirmed that excess calmodulin inhibited glucose-stimulated insulin secretion; first phase secretion was reduced by 60%, and second phase secretion was essentially absent. Static assays were performed to assess the response to other secretagogues. All fuel secretagogues tested were ineffective in stimulating insulin secretion from transgenic islets. Secretion in response to depolarizing levels of potassium was also severely impaired. The phosphodiesterase inhibitor 3-isobutyl-1-methyl-xanthine increased transgenic secretion, but not to the level obtained in normal islets. Of the compounds examined, only phorbol 12-myristate 13-acetate and carbachol, two substances thought to act in beta-cells by stimulation of protein kinase-C, produced equivalent secretion in normal and transgenic islets. Phorbol 12-myristate 13-acetate also appeared to restore second phase secretion in transgenic islets. These results indicate that the initial period of calmodulin-induced diabetes is due to a secretory defect. This defect appears to be distal to membrane depolarization and is selective for the second phase of insulin secretion.
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PMID:Elevated beta-cell calmodulin produces a unique insulin secretory defect in transgenic mice. 137 47

Our present work characterized the role of hormone-mediated signal transduction pathways in regulating hepatic reduced glutathione (GSH) synthesis. Cholera toxin, dibutyryl cAMP (DBcAMP), and glucagon inhibited GSH synthesis in cultured hepatocytes by 25-43%. Cellular cAMP levels exhibited a lower threshold for stimulation of the GSH efflux than inhibition of its synthesis. The effect of DBcAMP was independent of the type of sulfur amino acid precursor and cellular ATP levels and unassociated with increased GSH mixed disulfide formation or altered GSH/oxidized glutathione ratio. In liver cytosols, addition of DBcAMP and cAMP-dependent protein kinase (A-kinase) inhibited GSH synthesis from substrates (cysteine, ATP, glutamate, and glycine) by approximately 20% which was prevented by the A-kinase inhibitor. However, if only substrates of the second step in GSH synthesis were used (gamma-glutamylcysteine, glycine, and ATP), DBcAMP and A-kinase exerted no inhibitory effect. Phenylephrine, vasopressin, and phorbol ester also inhibited GSH synthesis in cultured cells by approximately 20%, and depleted cell GSH independent of the type of sulfur amino acid precursor. Cellular cysteine level was unchanged despite the significant fall in GSH after glucagon or phenylephrine treatment. Pretreatment with either staurosporine, C-kinase inhibitor, or calmidazolium, a calmodulin inhibitor, partially prevented but, together, completely prevented the inhibitory effect of phenylephrine. The same combination had no effect on the inhibitory effect of glucagon. The effects of hormones were confirmed in both the intact perfused liver and after in vivo administration. Thus, two classes of hormones acting through distinct signal transduction pathways may down-regulate hepatic GSH synthesis by phosphorylation of gamma-glutamylcysteine synthetase.
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PMID:Hormone-mediated down-regulation of hepatic glutathione synthesis in the rat. 164 17

The involvement of cAMP- and calcium-dependent pathways on the inhibitory effect of CsA (0.5 micrograms/ml) on insulin and glucagon release was studied in collagenase-isolated islets. CsA suppressed by 50% the release of insulin in pertussis toxin treated islets stimulated by 20 mM D-glucose. CsA blocked glucagon and insulin release induced by 0.2 mM IBMX (80% and 50% respectively). Similarly it inhibited glucagon and insulin release induced by 1 microM A23187 (53% and 40% respectively). CsA also abolished 0.1 microM glucagon-induced insulin release and 10 ng/ml VIP-induced glucagon release (70% and 38% respectively). The glucagon response to 2 mM D-glucose and to 10 mM arginine was decreased 25% and 45% respectively by CsA. The inhibitory effect of 0.1 microM somatostatin on insulin release was significantly abolished by CsA (p less than 0.001 vs control). On the other hand 1 microM forskolin induced insulin and glucagon release was not modified by CsA. Rats treated with CsA (10 mg/kg body wt) during 10 days showed hyperglycaemia, hypoglucagonemia and higher contents of pancreatic glucagon. It is concluded that CsA affects alpha- and beta-cell function, in vivo and in vitro, acting through calcium and cAMP-dependent pathways. This latter pathway involves the Ca(2+)-calmodulin dependent phosphodiesterase and the regulatory proteins Gs and Gi.
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PMID:Mechanisms of action of cyclosporin A on islet alpha- and beta-cells. Effects on cAMP- and calcium-dependent pathways. 166 May 57

The roles of protein kinase C, Ca2+/calmodulin-dependent protein kinase and AMP-activated protein kinase in the phosphorylation of 3-hydroxy-3-methylglutaryl-CoA (HMG-CoA) reductase induced by Ca2(+)-mobilizing conditions in isolated hepatocytes were investigated. Only partial evidence for the involvement of AMP-activated kinase was found. Antagonism of calmodulin action prolonged the decrease in expressed/total activity ratio induced by vasopressin plus glucagon. Protease inhibitors active against Ca2(+)-dependent cytosolic proteases or lysosomal proteolysis did not attenuate the loss of total HMG-CoA reductase induced by glucagon plus vasopressin, but calmodulin antagonists largely prevented this effect.
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PMID:The roles of different protein kinases and of calmodulin in the effects of Ca2+ mobilization on 3-hydroxy-3-methylglutaryl-CoA reductase activity in isolated rat hepatocytes. 199 Oct 44

Adenine nucleotide transport over the carboxyatractyloside-insensitive ATP-Mg/Pi carrier was assayed in isolated rat liver mitochondria with the aim of investigating a possible regulatory role for Ca2+ on carrier activity. Net changes in the matrix adenine nucleotide content (ATP + ADP + AMP) occur when ATP-Mg exchanges for Pi over this carrier. The rates of net accumulation and net loss of adenine nucleotides were inhibited when free Ca2+ was chelated with EGTA and stimulated when buffered [Ca2+]free was increased from 1.0 to 4.0 microM. The unidirectional components of net change were similarly dependent on Ca2+; ATP influx and efflux were inhibited by EGTA in a concentration-dependent manner and stimulated by buffered free Ca2+ in the range 0.6-2.0 microM. For ATP influx, increasing the medium [Ca2+]free from 1.0 to 2.0 microM lowered the apparent Km for ATP from 4.44 to 2.44 mM with no effect on the apparent Vmax (3.55 and 3.76 nmol/min/mg with 1.0 and 2.0 microM [Ca2+]free, respectively). Stimulation of influx and efflux by [Ca2+]free was unaffected by either ruthenium red or the Ca2+ ionophore A23187. Calmodulin antagonists inhibited transport activity. In isolated hepatocytes, glucagon or vasopressin promoted an increased mitochondrial adenine nucleotide content. The effect of both hormones was blocked by EGTA, and for vasopressin, the effect was blocked also by neomycin. The results suggest that the increase in mitochondrial adenine nucleotide content that follows hormonal stimulation of hepatocytes is mediated by an increase in cytosolic [Ca2+]free that activates the ATP-Mg/Pi carrier.
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PMID:Calcium stimulates ATP-Mg/Pi carrier activity in rat liver mitochondria. 211 17

The involvement of RNA/protein synthesis, calcium, calmodulin, protein kinase C, and polyamines in the lipolytic and antilipolytic (inhibition of glucagon-stimulated lipolysis) responses to GH have been investigated employing chicken adipose tissue in vitro. The lipolytic, but not the antilipolytic, effect of GH was blocked by inhibitors of RNA/protein synthesis (actinomycin D, cycloheximide, and puromycin) and calcium uptake (verapamil) and low calcium concentrations (0.28 mM CaCl2). The antilipolytic, but not the lipolytic, effect of GH was blocked by alpha-difluoromethylornithine (DFMO), a polyamine synthesis inhibitor. DFMO-induced blockade of the antilipolytic GH response was reversed by the addition of spermidine. The lipolytic and antilipolytic effects of GH were not influenced by chlorpromazine (a calmodulin inhibitor) or phorbol 12-myristate 13-acetate (PMA) (an activator of protein kinase C).
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PMID:Pharmacological investigations on the lipolytic and antilipolytic effects of growth hormone (GH) in chicken adipose tissue in vitro: evidence for involvement of calcium and polyamines. 245 90

3-Hydroxy-3-methylglutaryl coenzyme A (HMG CoA) reductase is the limiting enzyme step in cholesterol formation in mammalian liver and other tissues. It is a glycoprotein of 97,000 daltons embedded in the endoplasmic reticulum with a long cytoplasmic extension that is the site of catalytic conversion of HMG CoA to mevalonate. The enzyme is subject to both long-term (induction/repression; degradation) and short-term control (reversible phosphorylation) mediated by endocrine signaling (insulin, glucagon) and through negative feedback by metabolic products of mevalonate (e.g., cholesterol). The catalytic capacity of microsomal reductase falls rapidly in the presence of several protein kinases (reductase kinase, protein kinase-C, calmodulin-dependent protein kinase). Activity is restored with various protein phosphatases. Increased phosphorylation of reductase in intact cells after addition of glucagon or mevalonate is followed by enhanced degradation of the enzyme. In an in vitro model system, phosphorylated, native microsomal reductase is more rapidly cleaved by the calcium-dependent, neutral protease calpain than the dephosphorylated from of reductase. Our present research which centers on the mechanism of the in vitro model system is reviewed. Calpain in the presence of Ca2+ cleaves the cytosolic domain of phosphorylated 97 kDa reductase at two points giving rise to two fragments of nearly the same size that appear as a 52-56,000 dalton doublet by electrophoresis and immunoblotting. In the same system native reductase labeled with [gamma-32P]ATP generates a doublet with 32P solely in the upper (heavier) band. This indicates that serine phosphorylation sites lie between the two calpain cleavage loci. These are positioned in the "linker" region of the long carboxy-terminal cytosolic domain near the membrane. This segment possesses five invariant serine residues and two PEST sequences (constellations of proline, glutamate, serine and threonine) that are characteristic of proteins with short half-lives. If phosphorylation of HMG CoA reductase is confined to the linker region, we must look to this domain in order to interpret the resulting conformational changes that markedly influence reductase catalytic activity and prepare the enzyme for degradation.
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PMID:Phosphorylation and degradation of HMG CoA reductase. 262 76

Calmodulin is implicated as the primary transducer of the calcium signal in pancreatic beta cells, where it is present at very high concentrations. We have produced three lines of transgenic mice carrying a calmodulin minigene regulated by the rat insulin II promoter. Immunohistochemistry and hybridization analyses indicated a 5-fold increase in the content of calmodulin and its mRNA in beta cells. Transgenic mice developed severe diabetes within hours of birth. The diabetes was progressive and characterized by elevated blood glucose and glucagon that coincided with reduced serum and pancreatic insulin. The disease appears to have both secretory and cell destruction components. beta Cell pathology was evident in the diabetic neonate but not in the fetus, suggesting that the early onset of diabetes exacerbated possible toxic effects of excess calmodulin. These animals provide a new diabetes model to evaluate how abnormal calcium homeostasis alters the carefully programmed secretory activity and development of the beta cell.
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PMID:Calmodulin-induced early-onset diabetes in transgenic mice. 267 40

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