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)

For a variety of ligand states, adenylate cyclase activity in the presence of Mn2+ was greater than with Mg2+. Trypsin treatment of intact hepatocytes, under conditions which destroy cell surface glucagon receptors, led to a first order loss of glucagon-stimulated adenylate cyclase activity in isolated membranes assayed in the presence of Mn2+ whether or not GTP (100 microM) was present in the assays. Arrhenius plots of basal activity exhibited a break at around 22 degrees C, those with NaF were linear and those with glucagon +/- GTP (100 microM) were biphasic with a break at around 28 degrees C. It is suggested that Mn2+ perturbs the coupling interaction between the glucagon receptor and catalytic unit of adenylate cyclase at the level of the guanine nucleotide regulatory protein. This appears to take the form of Mn2+ preventing GTP from initiating glucagon's activation of adenylate cyclase through a collision coupling mechanism.
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PMID:Mechanism of glucagon activation of adenylate cyclase in the presence of Mn2+. 630 47

Hepatic pyruvate kinase phosphatase activity has been assayed in native conditions, in Sephadex G-25 filtered extracts of rat hepatocytes, by measuring the reactivation rate of glucagon-inactivated pyruvate kinase-L. The ionic requirements for this reaction, as well as the possible regulatory role of some pyruvate kinase ligands, have been investigated. Pyruvate kinase phosphatase activity was dependent on divalent cations (Mg2+, Mn2+ or Co2+). Mg2+ ions highly enhanced the reactivation rate of pyruvate kinase, while the presence of 100 mM KF inhibited this process. Physiological concentrations of phosphoenolpyruvate or fructose 1,6-bisphosphate inhibited pyruvate kinase phosphatase activity. These inhibitory effects were partially antagonized by the presence of L-alanine. Our results suggest that ligands of pyruvate kinase could play a role in the control of pyruvate kinase phosphatase activity(ies), possibly by modifying the conformational state of the substrate protein.
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PMID:Modulation of pyruvate kinase phosphatase activity in hepatocyte extracts by pyruvate kinase-L ligands. 630 88

Insulin failed to exert an effect on the basal and glucagon- and guanosine 5'-[beta, gamma-imido]-triphosphate-stimulated adenylate cyclase activities of hepatocyte membranes. In the presence of high GTP (0.1 mM) concentrations, however, insulin was shown to inhibit adenylate cyclase activity. This effect was dose-dependent, exhibiting an EC50 (median effective concentration) of 3 microM for GTP. Elevated glucagon concentrations blocked the inhibitory effect of insulin in a dose-dependent fashion, with an EC50 of 1 nM. The insulin inhibition was dose-dependent (EC50 = 90 pM). The inhibitory effects of insulin were abolished using membranes from either glucagon-desensitized hepatocytes or cholera-toxin-treated hepatocytes. If either Mn2+ replaced Mg2+ in adenylate cyclase assays or Na+ was removed from the assay mixtures then insulin failed to exert any inhibitory effect. It is suggested that insulin exerts its action on adenylate cyclase through an inhibitory guanine nucleotide protein. This is integrated with the proposal [Heyworth, Rawal & Houslay (1983) FEBS Lett. 154, 87-91; Heyworth, Wallace & Houslay (1983) Biochem. J. in the press] that insulin mediates a variety of cellular effects through a specific guanine nucleotide regulatory protein and associated protein kinase(s).
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PMID:Insulin exerts actions through a distinct species of guanine nucleotide regulatory protein: inhibition of adenylate cyclase. 631 Nov 87

In intact hepatocytes, prostaglandin E2 (PGE2) inhibits up to 60% of the cyclic AMP (cAMP) formation in response to glucagon. PGE2 was found also to inhibit cAMP production in response to Mn2+, and Mn2+ counteracted the effect of PGE2 on the response to glucagon. However, when added to cells with ruptured plasma membranes, PGE2 had no effect on cAMP production, even though the ruptured cells had an equally strong response to glucagon as did intact cells. Only when cells were ruptured in the presence of PGE2 and incubated as very dense suspensions did PGE2 inhibit a response to glucagon up to 20%. These results may be explained by assuming the existence of a cytosolic factor necessary for transmitting the inhibitory effect of PGE2. The role of divalent cations in cAMP formation in intact cells was investigated. After extraction of cations with ethylenediamine-tetraacetic acid (EDTA), cAMP production in response to glucagon was reduced by more than 60%. Addition of Mn2+ restored cAMP formation completely, whereas Mg2+ was somewhat less effective, and Ca2+ could not restore any activity. Even low concentrations of Ca2+ appeared under certain conditions to repress adenylate cyclase activity.
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PMID:Effects of prostaglandins and divalent cations on cAMP production in isolated rat hepatocytes. 631 6

Insulin stimulates phosphorylation of both alpha- and beta- subunits of its own receptor in a cell-free system. A solubilized lectin-purified preparation of insulin receptors from rat liver membranes was preincubated with or without insulin at 4 degrees C and labeled for 10 min with Mn[gamma- 32P]ATP; the receptor subunits were isolated by specific immunoprecipitation with anti-receptor antibodies, followed by gel electrophoresis in sodium dodecyl sulfate. In gels run under reduced conditions, two bands (Mr = 135,000 and 95,000) were selectively labeled. These correspond exactly to the position of the alpha- and beta-subunits of the insulin receptor. Labeling of the Mr = 95,000 band was approximately 5-fold that of the Mr = 135,000 band. No labeled bands were detected when identical samples were immunoprecipitated in control serum. Phosphorylation of the receptor subunits required the presence of the divalent cation Mn2+ or Co2+; other cations such as Mg2+, Cr3+, Ca2+, and Zn2+ were ineffective. [gamma- 32P]ATP served as the 32P donor, whereas [gamma- 32P]GTP was ineffective. Phosphorylation of both subunits was stimulated 4-6-fold after a 60-min exposure to 10(-7) M pork insulin. Insulin-stimulated phosphorylation was half-maximal after 5 min of incubation with 10(-7) M insulin or after 18 h with 3 X 10(-10) M hormone. The enhanced phosphorylation was specific for insulin and its analogs; guinea pig insulin was about 2% as potent as pork insulin, whereas epidermal growth factor, adrenocorticotropic hormone, and glucagon, as well as cAMP, were ineffective. The rapidity and specificity of this reaction, as well as the presence of all necessary components in the plasma membrane, suggest that insulin-mediated receptor phosphorylation is one of the earliest biochemical steps following insulin binding.
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PMID:Characterization of insulin-mediated phosphorylation of the insulin receptor in a cell-free system. 633 57

Renin secretion from the juxtaglomerular cell is controlled by numerous receptors, humoral agents, and ions. Recently, a stretch receptor hypothesis has been advanced to suggest that all of these diverse factors control renin secretion by a mechanism initiated by a fall in cytoplasmic Ca2+. This fall in Ca2+ may be achieved by lowering Ca2+ influx, raising Ca2+ efflux, or sequestering Ca2+ into cellular organelles and binding sites. The increased renin secretion observed with low arterial pressure, beta-adrenergic agonists, parathyroid hormone, glucagon, cyclic AMP, prostaglandins, low Ca2+ and Ca2+ ionophore, high Mg2+, and Na+ and Cl- may be explained in this context. On the other hand, the decreased renin secretion observed with high pressure, alpha-adrenergic agonists, some prostaglandins, angiotensin, vasopressin, and high K+ may be explained by a rise in cytoplasmic Ca2+ mediated by an opposite sequence of events. Recent observations suggest that the fall in cytoplasmic Ca2+ sets in motion the transport of renin from its site of storage (granules) or synthesis into the cytoplasmic space and finally across the plasma membrane. Thus although renin is stored in granules, its secretion occurs by a process quite different from exocytosis.
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PMID:Cellular mechanisms of renin secretion. 635 57

Metabolism of [2-13C]pyruvate, [1,2-13C]ethanol, and NH4+ in the presence and absence of 7 nM insulin has been followed at 35 degrees C by alternate scan 13C and 31P NMR at 90.5 and 145.8 MHz, respectively, in isolated perfused liver from 16-h fasted rats. With this technique, 31P and 13C NMR spectra are recorded simultaneously so that both phosphate metabolites and 13C-labeled metabolites could be followed, noninvasively, in perfused liver to give a comprehensive view of the response to a variety of stimuli. 13C-labeled glycogen increased synchronously, at a rate of 17 mumol of glucose units/g of liver/h, with the synthesis of 13C-labeled glucose, which also proceeded at a rate of 17 mumol/g of liver/h; glycogenesis was essentially a gluconeogenic process under these conditions and was not affected by the presence of insulin. From the position of the 13C-labeled citrate peak observed in liver, the measurement of Kd for the citrate-Mg complex under our conditions, and the expression relating these quantities to the concentration of free Mg2+, the intracellular level of free Mg2+ is estimated to be 0.46 +/- 0.05 mM in perfused rat liver. After subsequent administration of glucagon, a rapid decrease in glycogen and citrate was seen by 13C NMR and a 44% increase in glycero-3-phosphocholine was seen by 31P NMR; increase in glycero-3-phosphocholine is consistent with stimulation of liver phospholipase activity by glucagon. The co-administration of two different 13C-labeled substrates introduced multiplet structure arising from spin-spin interaction between labeled adjacent carbons into the peaks of several key metabolites. 13C enrichments at specific carbons of citrate, glutamate, glutamine, beta-hydroxybutyrate, and glucose and the distribution of intensity within the multiplets of specific carbons were measured in spectra of perfusates and extracts of the freeze-clamped livers. Within the context of a first order model for fluxes into the Krebs cycle and into glucose, analytical expressions were written that describe the intensity distributions within the several multiplets. In this way, a set of simultaneous equations was generated and solved in general form; when the measured intensity ratios are substituted into these expressions, relative fluxes under the conditions of the experiment can be estimated. Because a redundancy of information is available, checks on self-consistency are built into the estimated fluxes.
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PMID:Simultaneous 13C and 31P NMR studies of perfused rat liver. Effects of insulin and glucagon and a 13C NMR assay of free Mg2+. 635 20

Alternate scan 13C and 31P NMR has been used to follow the metabolism of 13C-labeled substrates, in the presence and absence of insulin, in isolated perfused liver from fasted rats. Because both 31P and 13C NMR spectra are recorded almost simultaneously with this method, both phosphate metabolites and 13C-labeled metabolites are measured, noninvasively and repetitively, to give an immediate, broad survey of the hepatic response to a variety of stimuli. During the metabolism of [2-13C]pyruvate, [1,2-13C]ethanol, and NH4+, 13C-labeled glycogen increases synchronously with, and at the same rate as, the synthesis of 13C-labeled glucose; thus, glycogenesis was essentially a gluconeogenic process under our conditions and was unaltered by the presence of insulin. From the position of the 13C-labeled citrate peak observed in liver, the measurement of KD for the citrate-magnesium complex under our conditions, and the expression relating these quantities to the concentration of free Mg2+, the intracellular level of free Mg2+ is estimated to be 0.46 +/- 0.05 mM. Later administration of glucagon led to a rapid decrease in glycogen and citrate and a 44% increase in glycero-3-phosphocholine (GPC); increase in GPC is consistent with stimulation of liver phospholipase activity by glucagon. Simultaneous administration of two different 13C-labeled substrates, or one doubly labeled substrate, introduced multiplet structure arising from spin-spin interaction between labeled adjacent carbons into the peaks of several key metabolites. The 13C NMR intensity distributions within the several multiplets are used, within the context of a first-order model for fluxes into the Krebs cycle, to estimate relative fluxes under the conditions of the experiment.
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PMID:Application of 13C and 31P NMR to the study of hepatic metabolism. 637 71

Historically, the sodium ion has been given prominence in relation to cardiovascular disease, perhaps to the exclusion of other ions. Recently, other ions, including chloride, potassium, magnesium and calcium have received increasing attention in relation to hypertension, cardiac arrhythmias, and metabolic derangements. Endocrine factors controlling these ions have also received increasing attention; they include classic hormonal actions as well as neurotransmission and paracrine hormonal actions. Studies indicate that control of the renin-angiotensin-aldosterone system resides in cytosolic calcium ion levels in the juxtaglomerular cell, as well as chloride ion and prostaglandins at the macula densa. Renin release is stimulated by hyperpolarisation of the juxtaglomerular cell induced by beta 1-agonists, parathyroid hormone, glucagon, magnesium and low cytosol calcium. Renin release is inhibited by high calcium, potassium and angiotensin II. Subsequent to renin release, hormonal regulation includes stimulation of converting enzyme activity by cortisol and prostaglandin (PGE2). Other hormonal control includes antidiuretic hormone producing dilution of extracellular electrolytes and augmented peripheral resistance. A recently identified natriuretic factor isolated from cardiac atria appears to be a potent diuretic with actions similar to that of frusemide (furosemide). Other electrolytes have received closer scrutiny. Chloride may play a dominant role in renal sodium reabsorption, responding to prostaglandin levels. Calcium has been recognised as a basic regulator of the secretion of such hormones as noradrenaline, renin, and aldosterone. As well, calcium ion changes are the means by which smooth muscle contraction is effected. Parathyroid hormone and vitamin D regulate the level of this ion in the body. In addition, a high dietary calcium intake appears to play a protective role against hypertension, while calcium channel blockers appear to reduce blood pressure. Endocrine systems play a major role in the protection against acute elevations in serum potassium by means of insulin action and adrenergic modulation of extrarenal potassium disposal. Aldosterone is recognised as the delayed regulator of potassium excretion. Magnesium levels fall in hyperaldosteronism, hyperparathyroidism, and diabetic keto-acidosis, as well as in malnutrition states. A coexisting potassium deficiency may be refractory to therapy until hypomagnesaemia is corrected. The integrated action of these hormones and electrolytes are thus of major importance in regulation of the cardiovascular system.
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PMID:Endocrine physiology of electrolyte metabolism. 638 78

1. Mitochondria isolated from rats treated with glucagon for 60 min or lives perfused in the presence of glucagon for 10 min exhibited lower rates of 45Ca2+ exchange than did control mitochondria when this was measured under steady-state conditions in the presence of Mg2+, ATP, Pi and 0.13 microM- or 0.16 microM-free Ca2+ at pH 7.4 and at 25 degrees C or 37 degrees C. Under these conditions no significant difference in the rates of Ruthenium Red-induced 45Ca2+ efflux was observed. These results contrast with earlier work in which mitochondria isolated from glucagon-treated livers were shown to exhibit faster rates of Ca2+ uptake [Yamazaki (1975) J. Biol. Chem. 250, 7924-7930] and slower rates of spontaneous Ca2+ efflux [Hughes & Barritt (1978) Biochem. J. 176, 295-304] when these parameters were measured under different incubation conditions, including supra-physiological concentrations of free Ca2+ and the absence of added Mg2+ and ATP. 2. Perfusion of livers with glucagon before the addition of adrenaline or the Ca2+-selective ionophore A23187, to release Ca2+ from intracellular stores, decreased the amount of Ca2+ released by these agents. 3. Incubation of isolated hepatocytes in the presence of glucagon at 1.3 mM extracellular Ca2+ induced a small decrease in the plateau of the 45Ca2+-exchange curve obtained under steady-state conditions. 4. It is concluded that the actions of glucagon on liver mitochondrial Ca2+ transporters lead to a decrease, rather than an increase, in mitochondrial Ca2+ stores in the intact cell.
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PMID:Evidence that glucagon acts on the liver to decrease mitochondrial calcium stores. 640 43

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