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)

Some effects of salts on the adenylate cyclase of partially purified plasma membranes from rat liver have been studied. Under conditions where cyclic adenosine 3':5'-monophosphate formation was linear with respect to time and protein concentration, the enzyme was stimulated 3- to 6-fold by 10 mM NaF, 10- to 30-fold by 1 muM glucagon, 4- to 5-fold by 0.1 mM 5'-guanylylimidodiphosphate, and in the presence of 3 muM GTP, 2-fold by 10 mug/ml of prostaglandin E1. Various salts were found to stimulate basal activity slightly, but enhanced the response to NaF 3- to 4-fold, to glucagon 1.5- to 2-fold, to 5'-guanylylimidodiphosphate 2- to 3-fold, and to prostaglandin E1 1.5-fold. This enhancement was observed at maximally effective concentrations of each of the respective activators. Of the salts tested, NaN3 and the Na- or K-halides were most effective. Their action appeared to be due to the respective anions. Stimulation was detectable with 1.5 mM NaN3 or 3 mM NaCl and was maximal with 30 mM NaN3 or 60 mM NaCl. The stimulatory effect of NaN3 was not due to ATP-sparing, nor to an altered cyclic adenosine 3':5'-monophosphate recovery. It was independent of the chromatography and assay methods used, and was therefore not due to procedural artifact. Fluoride-stimulated cyclase activity was enhanced by salts to a greater degree than were 5'-guanylylimidodiphosphate-, glucagon-, or (prostaglandin E1 + GTP)-stimulated activities. The effects of NaN3 were not the result of significant changes in the enzyme's responses to GTP, which increased basal and glucagon-stimulated activities but inhibited F--stimulated activity. The effects of NaN3 were greater when cyclase was assayed with Mn2+ than with Mg2+. The facilitatory effect of NaN3 or NaCl on fluoride-stimulated adenylate cyclase activity was partially reversible as was the stimulatory effect of fluoride in the presence of NaN3. Enhancement of hormonal stimulation by NaN3 was also demonstrable with cardiac and adipose tissue adenylate cyclase. However, NaN3 did not stimulate detergent-dispersed adenylate cyclases from either liver plasma membranes or brain. The data suggest that stimulation of adenylate cyclase by salts may require the added presence of other stimulatory agents and an intact membrane structure.
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PMID:Liver membrane adenylate cyclase. Synergistic effects of anions on fluoride, glucagon, and guanyl nucleotide stimulation. 12 55

Smooth muscle adenylate cyclase of a membrane preparation of canine gastric antrum has been characterized, and the effect of hormonal and neuronal agents examined. The enzyme is active in the presence of Mg2+ or Mn2+, but is inhibited by Ca2+. The Km is 0.5 mM ATP, similar to the Km of skeletal muscle adenylate cyclase. The enzyme is activated by isoproterenol but not norepinephrine, consistent with a beta 2-catecholamine receptor-adenylate cyclase interaction. Secretin activates the enzyme in concentrations as low as 1 . 10(-11) M, while glucagon was effective only at 1 . 10(-6) M. Prostaglandin E1 and E2 have a biphasic effect with activation of adenylate cyclase at 1 . 10(-5) M and a small but significant inhibition of enzyme activity at 1 . 10(-11) M.
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PMID:Effect of hormonal and neuronal agents on adenylate cyclase from smooth muscle of the gastric antrum. 45 75

Adenosine inhibits the rat liver adenylate cyclase system at a regulatory site that is distinct from the glucagon receptor, the guanine nucleotide regulatory site, and the active site involved in catalysis of ATP to cyclic AMP. The effects of the nucleoside are also independent of the concentration of uncomplexed ATP (ATP4-) in the assay medium. Glucagon, but not guanine nucleotides, sensitizes the system to inhibition by adenosine. Depending on assay conditions, the hormone can shift the concentration of adenosine required for 50% inhibition by as much as 10-fold. Under optimal conditions, the apparent Ki for adenosine is 25 micron. Both Mg2+ and Mn2+ increase adenylate cyclase activity and, in order of relative potency, increase the sensitivity of the enzyme to adenosine inhibition; Mn2+ is 50- to 100-fold more potent than Mg2+. The adenosine inhibitory site exhibits stringent structural requirements for nucleoside action. Most alterations of the purine ring result in loss of activity, whereas alterations in the ribose ring are tolerated, and some deoxyadenosine analogs are even more effective than adenosine. Naturally occurring nucleosides and nucleotides, such as inosine, guanosine, and 5'-AMP, are inactive. Analog studies reveal also that inhibition of the hepatic system occurs at a site which is clearly different from the sites through which adenosine activates other adenylate cyclase systems, and that the liver enzyme appears to have no site for activation by the nucleoside.
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PMID:Regulation by glucagon and divalent cations of inhibition of hepatic adenylate cyclase by adenosine. 89 90

Treatment of chick hepatocytes with glucagon results in homologous and heterologous desensitization of the receptor-stimulated adenylyl cyclase. The loci of postreceptor heterologous desensitization was studied. The addition of excess purified GS to glucagon-desensitized hepatocyte membranes did not fully restore fluoride stimulation of adenylyl cyclase, even though the absolute activity was increased at least 2-fold. Treatment of chick hepatocytes with 8-bromo-cAMP resulted in a similar reduction of fluoride stimulation that could not be restored by the addition of purified GS. When membranes from control and glucagon-treated hepatocytes were treated with purified catalytic subunit of protein kinase-A (PKA), fluoride stimulation was lowered in control, but not glucagon-treated, membranes. Treatment of membranes from S49 kin- lymphoma cells with PKA also resulted in decreased fluoride- and forskolin-stimulated adenylyl cyclase activity, but activity stimulated by Mn2+ was not altered. Since previous studies from our laboratory had shown that GS and G(i) are not substrates for protein kinase-A, it appears that the catalyst of adenylyl cyclase is the likely locus of modulation. To determine if both chick hepatocytes and S49 cells contain similar types of adenylyl cyclase that could account for the similar PKA regulatory properties, we used polymerase chain reaction-based techniques to identify GS-stimulated adenylyl cyclases present in these systems. The chick liver contains both type 5 and type 6 adenylyl cyclases, while S49 cells contain the type 6 enzyme. Type 5 and 6 adenylyl cyclases are members of one widely expressed subfamily of mammalian GS-responsive adenylyl cyclases and share a predicted PKA phosphorylation site in the central cytoplasmic loop. This site is not found in other known adenylyl cyclases (types 1-4), although the olfactory-specific type 3 enzyme has a predicted site nearby. These data indicate that one component of hormone-induced desensitization of the adenylyl cyclase system can be at the level of the catalyst, where PKA-mediated phosphorylation could result in lowered responsiveness. The types 5 and 6 adenylyl cyclases are likely candidates for such regulation.
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PMID:Lowered responsiveness of the catalyst of adenylyl cyclase to stimulation by GS in heterologous desensitization: a role for adenosine 3',5'-monophosphate-dependent phosphorylation. 133 48

The stimulatory effect of Mn2+ (1.5-fold), forskolin (1.6-fold) and low (1 microM) concentrations of GTP (1.9-fold) on the adenylyl cyclase of adipocyte membranes from obese, diabetic CBA/Ca mice was markedly enhanced compared to that seen using membranes prepared from their lean littermates. In contrast, receptor-mediated stimulation, achieved with either isoprenaline or secretin was reduced and that by glucagon abolished in membranes from diabetic animals. The levels of expression of alpha-subunits of Gi-1, Gi-2 and Gi-3 were reduced to some 49, 76 and 54%, respectively, in membranes from diabetic animals compared with those from normal animals. Levels of G-protein beta-subunits and Gs alpha-subunits were similar. Receptor-mediated inhibition of adenylate activity elicited by either nicotinic acid or prostaglandin E1 (PGE1) was of a similar magnitude in membranes from normal and diabetic animals but the inhibitory action of N6-(L-2-phenylisopropyl)adenosine (PIA) was greater in membranes from diabetic animals by about 30%. Gi function was similarly evident in membranes from both lean and diabetic animals, as assessed using low concentrations of guanylyl 5'-imidodiphosphate to inhibit forskolin-stimulated adenylyl cyclase activity. However, assessing Gi function using GTP showed marked dissimilarities in that the elevated GTP concentrations expected to occur physiologically were incapable of reversing the stimulation achieved at low concentrations of GTP in membranes from diabetic but not normal animals. The adipocytes of CBA/Ca mice, as do other animal models of insulin resistance, show lesions in adenylyl cyclase regulation, Gi function and G-protein expression.
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PMID:Alterations in G-protein expression, Gi function and stimulatory receptor-mediated regulation of adipocyte adenylyl cyclase in a model of insulin-resistant diabetes with obesity. 141 80

2-Oxoglutarate was found to inhibit purified rat liver phosphoenolpyruvate carboxykinase when the assay was performed in the direction of either phosphoenolpyruvate or oxaloacetate synthesis. The inhibition was competitive with respect to oxaloacetate or phosphoenolpyruvate, the Ki values being 0.32 +/- 0.04 mM 0.63 +/- 0.19 mM respectively. 2-Oxoglutarate inhibited non-competitively when tested against GTP or Mn2+. The reported cytosolic concentrations of 2-oxoglutarate in rat hepatocytes are such that the enzyme is likely to be significantly inhibited under basal conditions. The cytosolic concentration of 2-oxoglutarate is known to fall precipitously under the influence of glucagon and other hormones that stimulate gluconeogenesis, and it is suggested that the hormone-induced decrease in 2-oxoglutarate content would alleviate the inhibition of phosphoenolpyruvate carboxykinase and stimulate flux from oxaloacetate to phosphoenolpyruvate. The implications of this finding to the rationalization of the role of pyruvate kinase in the stimulation of gluconeogenesis in the fasted state are discussed.
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PMID:Physiological concentrations of 2-oxoglutarate regulate the activity of phosphoenolpyruvate carboxykinase in liver. 149 14

1. The inflow of Mn2+ across the plasma membranes of isolated hepatocytes was monitored by measuring the quenching of the fluorescence of intracellular quin2, by atomic absorption spectroscopy and by the uptake of 54Mn2+. The inflow of other divalent metal ions was measured using quin2. 2. Under ionic conditions which resembled those present in the cytoplasmic space, Mn2+, Zn2+, Co2+, Ni2+ and Cd2+ each quenched the fluorescence of a solution of Ca2(+)-quin2. 3. The addition of Mn2+, Zn2+, Co2+, Ni2+ or Cd2+ to cells loaded with quin2 caused a time-dependent decrease in the fluorescence of intracellular quin2. Plots of the rate of decrease in fluorescence as a function of the concentration of Mn2+ reached a plateau at 100 microM-Mn2+. 4. The rate of decrease in fluorescence induced by Mn2+ was stimulated by 20% in the presence of vasopressin. The effect of vasopressin was completely inhibited by 200 microM-verapamil. Adrenaline, angiotensin II and glucagon also stimulated the rate of decrease in the fluorescence of intracellular quin2 induced by Mn2+. 5. The rate of decrease in fluorescence induced by Zn2+, Co2+, Ni2+ or Cd2+ was stimulated by between 20 and 190% in the presence of vasopressin or angiotensin II. 6. The rates of uptake of Mn2+ measured by atomic absorption spectroscopy or by using 54Mn2+ were inhibited by about 20% by 1.3 mM-Ca2+o and stimulated by 30% by vasopressin. 7. Plots of Mn2+ uptake, measured by atomic absorption spectroscopy or with 54Mn2+, as a function of the extracellular concentration of Mn2+ were biphasic over the range 0.05-1.0 mM added Mn2+ and did not reach a plateau at 1.0 mM-Mn2+. 8. It is concluded that (i) hepatocytes possess both a basal and a receptor-activated divalent cation inflow system, each of which has a broad specificity for metal ions, and (ii) the receptor-activated divalent cation inflow system is the receptor-operated Ca2+ channel.
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PMID:The liver cell plasma membrane Ca2+ inflow systems exhibit a broad specificity for divalent metal ions. 216 60

Agonist-stimulated divalent cation entry was studied in fura-2-loaded hepatocytes. In the presence of extracellular Mn2+, the Ca2(+)-mobilizing hormone vasopressin produced a severalfold stimulation of the basal rate of fura-2 fluorescence quenching as a result of Mn2+ influx; this effect was blocked by the presence of Ni2+ in the incubation medium. Half-maximum and maximum stimulation of Mn2+ influx was observed with 0.1 and 0.8 nM vasopressin, respectively. Agonist-stimulated Mn2+ influx was also seen with angiotensin II, ATP, phenylephrine, and the combination of AlCl3 and NaF. The stimulation of Mn2+ influx did not occur immediately after addition of Ca2(+)-mobilizing agents, but was characterized by a latency period of 20-30 s. In contrast to vasopressin, glucagon did not stimulate Mn2+ influx into hepatocytes, but produced both a 3-fold enhancement of the rate of vasopressin-stimulated Mn2+ entry and the abolishment of the latency period. The effects of glucagon were mimicked by forskolin and dibutyryl cAMP. Pretreatment of hepatocytes with pertussis toxin or depolarization of the cells altered neither the basal rate of Mn2+ entry nor the ability of vasopressin to stimulate this rate. Emptying of the inositol 1,4,5-trisphosphate-sensitive Ca2+ store by treatment with 2,5-di-(tert-butyl)-1,4-benzohydroquinone (tBuBHQ) did not enhance Mn2+ entry into hepatocytes; however, exposure of the cells to tBuBHQ for 2 min markedly enhanced the ability of vasopressin, alone or in combination with glucagon, to increase the rate of Mn2+ influx. Furthermore, pretreatment with tBuBHQ for 2 min abolished the latency of vasopressin-stimulated Mn2+ influx. It is concluded that Ca2(+)-mobilizing hormones stimulate Ca2+ influx in hepatocytes, possibly through receptor-operated Ca2+ channels. The stimulation of divalent cation entry is transduced by a G protein, and the rate of influx appears to be controlled both by the intracellular level of cAMP and the empty state of an intracellular Ca2+ pool that may be inositol 1,4,5-trisphosphate-insensitive.
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PMID:Receptor-operated calcium influx in rat hepatocytes. Identification and characterization using manganese. 217 Mar 82

The presence of adenosine receptors coupled to adenylate cyclase in rat heart sarcolemma is demonstrated in these studies. Heart sarcolemma was isolated by the hypotonic shock-Lithium bromide treatment method. This preparation contained negligible amounts (2-4%) of contamination by other subcellular organelles such as mitochondria, sarcoplasmic reticulum, and myofibrils as verified by electron microscopic examination. In addition this preparation was also devoid of endothelial cells, since angiotensin-converting enzyme activity was not detected in this preparation. N-Ethylcarboxamide adenosine (NECA), L-N6-phenylisopropyladenosine (PIA), and adenosine N'-oxide (Ado N'-oxide) were all able to stimulate adenylate cyclase in heart sarcolemma, but not in crude homogenate, with an apparent Ka of 3-7 microM. The activation of adenylate cyclase by NECA was dependent on the concentrations of metal ions such as Mg2+ or Mn2+. The maximal stimulation was observed at lower concentrations of the metal ions (0.2-0.5 mM). At 5 mM Mg2+ or Mn2+, the stimulation by NECA was completely abolished. The stimulatory effect of NECA on adenylate cyclase was also dependent on guanine nucleotides and was blocked by 3-isobutyl-1-methylxanthine. In addition, 2'-deoxyadenosine showed an inhibitory effect on adenylate cyclase. The myocardial adenylate cyclase was also stimulated by beta-adrenergic agonists, dopamine and glucagon, and inhibited by cholinergic agonists such as carbachol and oxotremorine. The stimulation of adenylate cyclase by NECA was found to be additive with maximal stimulation obtained by epinephrine. These data suggest that rat heart sarcolemma contains adenosine (Ra), beta-adrenergic, dopaminergic, glucagon, and cholinergic receptors, and the stimulation of adenylate cyclase by epinephrine and adenosine occurs by distinctly different mechanism or adenosine and epinephrine stimulate different cyclase populations.
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PMID:Regulation of adenylate cyclase by adenosine and other agonists in rat myocardial sarcolemma. 241 61

The ability of alpha-adrenergic agonists and vasopressin to increase the mitochondrial volume in hepatocytes is dependent on the presence of extracellular Ca2+. Addition of Ca2+ to hormone-treated cells incubated in the absence of Ca2+ initiates mitochondrial swelling. In the presence of extracellular Ca2+, A23187 (7.5 microM) induces mitochondrial swelling and stimulates gluconeogenesis from L-lactate. Isolated liver mitochondria incubated in KCl medium in the presence of 2.5 mM-phosphate undergo energy-dependent swelling, which is associated with electrogenic K+ uptake and reaches an equilibrium when the volume has increased to about 1.3-1.5 microliter/mg of protein. This K+-dependent swelling is stimulated by the presence of 0.3-1.0 microM-Ca2+, leading to an increase in matrix volume at equilibrium that is dependent on [Ca2+]. Ca2+-activated K+-dependent swelling requires phosphate and shows a strong preference for K+ over Na+, Li+ or choline. It is not associated with either uncoupling of mitochondria or any non-specific permeability changes and cannot be produced by Ba2+, Mn2+ or Sr2+. Ca2+-activated K+-dependent swelling is not prevented by any known inhibitors of plasma-membrane ion-transport systems, nor by inhibitors of mitochondrial phospholipase A2. Swelling is inhibited by 65% and 35% by 1 mM-ATP and 100 microM-quinine respectively. The effect of Ca2+ is blocked by Ruthenium Red (5 micrograms/ml) at low [Ca2+]. Spermine (0.25 mM) enhanced the swelling seen on addition of Ca2+, correlating with its ability to increase Ca2+ uptake into the mitochondria as measured by using Arsenazo-III. Mitochondria derived from rats treated with glucagon showed less swelling than did control mitochondria. In the presence of Ruthenium Red and higher [Ca2+], the mitochondria from hormone-treated animals showed greater swelling than did control mitochondria. These data imply that an increase in intramitochondrial [Ca2+] can increase the electrogenic flux of K+ into mitochondria by an unknown mechanism and thereby cause swelling. It is proposed that this is the mechanism by which alpha-agonists and vasopressin cause an increase in mitochondrial volume in situ.
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PMID:Regulation of the mitochondrial matrix volume in vivo and in vitro. The role of calcium. 243 81


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