EC:4.6.1.1 - FACTA Search

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Query: EC:4.6.1.1 (adenylate cyclase)
19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Liver plasma membranes (LPM) were isolated from rats fed an essential fatty acid-supplemented diet (+EFA) or from rats fed an essential fatty acid-deficient diet (-EFA). The proportions of linoleate and arachidonate in membrane total fatty acids in the -EFA preparations were one-half or less than the values for the +EFA preparations. Basal, F-, or glucagon-stimulated adenylate cyclase activities were significantly lower in EFA-deficient livers than in nondeficient ones. Addition of GTP significantly enhanced glucagon-stimulated adrenylate cyclase in both groups, but extent of stimulation above basal was greater in EFA-deficient livers. Portal vein injection of glucagon in vivo resulted in significantly higher cAMP formation in +EFA livers than in -EFA livers. When glucagon was used in vitro at 1-1,000 nM, stimulation of adenylate cyclase remained lower in EFA-deficient membranes, but extent of stimulation above basal activity was larger in -EFA membranes than in +EFA. Total Na+, K+ (Mg2+)-ATPase from EFA-depleted LPM exhibited significantly higher values of apparent Km and Vmax-5'-Nucleotidase activity, in contrast, was considerably decreased in EFA-deficient rats. These findings show that, in animals, changes in unsaturated fatty acid composition can affect the properties of membrane-bound enzymes. These alterations could be due to changes in membrane physical properties and/or prostaglandin formation.
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PMID:Effect of essential fatty acid deficiency on activity of liver plasma membrane enzymes in the rat. 18 Mar 55

Insulin accelerates the entry of glucose and amino acids into muscle cells by acting upon the 'carrier-facilitated' transport mechanism. For glucose this process is passive and leads to equilibration of intracellular and extracellular concentrations. In heart muscle, glucose transport is a rate-limiting step for glucose uptake. During hypoxia and ischemia the heart turns to anaerobic glycolysis for energy production and therefore, maximal glucose transport becomes important. Insulin is necessary to insure proper protein synthesis, probably at the level of membrane-bound polyribosomes. However, during myocardial hypoxia, insulin alone cannot restore the associated depression in protein synthesis. Although insulin hyperpolarizes the cell, a change in the ratio of intracellular to extracellular activities of potassium is not its primary mode of action. An insulin-induced configurational change in the plasma membrane could simultaneously account for the effects of insulin on sodium and potassium permeability and the action on facilitated transport. Intracellular levels of cyclic adenylate may be reduced by insulin in adipose tissue because of inhibition of adenyl cyclase or stimulation of phosphodiesterase. However, at this time there is little evidence that insulin alters cyclic AMP levels in the heart. Insulin secretion is depressed in patients with heart disease in proportion to the reduction of cardiac index sustained. Since the ischemic heart is dependent upon glucose as the major fuel, insulin lack may deprive the heart of adequate substrate.
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PMID:Insulin: fundamental mechanism of action and the heart. 18 67

The possible role of cytoplasmic microtubules in the renal handling of phosphate and its regulation by parathyroid hormone (PTH) was evaluated with colchicine, a microtubule-disrupting agent. Colchicine-treated rats were thyroparathyroidectomized (TPTX) and subsequently infused with PTH. Treatment with a total dose of 1 mg colchicine had no effect on glomerular filtration rate or fractional excretions of sodium and potassium. Fractional excretion of phosphate in colchicine-treated TPTX rats was significantly higher compared with TPTX controls. After PTH infusion, control rats responded with increases in fractional excretion of phosphate and urinary cyclic AMP but colchicine-treated rats had variable and insignificant changes in both parameters. Fractional excretion of sodium and potassium did not change significantly after PTH. Renal cortical activities of cyclic AMP phosphodiesterase, soluble alkaline phosphatase, cytochrome oxidase, leucine aminopeptidase, or basal adenylate cyclase were not significantly affected by colchicine treatment. On the other hand, stimulation of adenylate cyclase by a submaximal dose of PTH was markedly decreased in colchicine-treated rats, and the activity of membrane-bound alkaline phosphatase was also significantly decreased. The binding of radioactive colchicine in renal cortical extracts from rats treated with colchicine was significantly diminished. These results suggest that disruption of cytoplasmic microtubules in renal cortical cells interferes with phosphate transport and its regulation by PTH.
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PMID:Effect of colchicine on urinary phosphate and regulation by parathyroid hormone. 18 12

The mechanism of hormones is reviewed. Hormones act through the action of receptors, or structures that contain specific binding sites for the specific hormone. Transmission of information is accomplished by a reversible binding of the hormone to the receptor. Steroid hormones and triiodothyronine act through receptors which are located in the nucleus and which regulate the biosynthesis of specific hormones. Peptide hormones and catecholamines combine with their receptors in the cell membrane, regulating the membrane-bound enzyme adenyl cyclase. The product of adenyl cyclase is cyclic-AMP which acts as the transmitter of the mechanism of the hormones into the interior of the cell. The receptor concept has contributed much to the undertstanding of endocrinological mechanisms, although hormonal receptor interaction is still for the most part in experimental stages.
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PMID:[How do hormones act?]. 18 21

A model is proposed for the partial depletion of the adenine nucleotide pool in the ischemic perfused rat heart which involves seven enzymes: adenylate cyclase, 3',5'-cyclic AMP phosphodiesterase, 5'-nucleotidase, adenosine kinase, adenosine deaminase, purine nucleoside phosphorylase, and inorganic pyrophosphatase. The computer implementation of this model is in terms of rate laws, several of which were obtained by a systematic least-squares fitting procedure. Depletion of the adenine nucleotide pool is initiated by the release of endogenous noradrenaline into the interstitial fluid, which results from a fall in tissue PO2, and the subsequent activation of adenylate cyclase. In this model the substrate for 5'-nucleotidase is a membrane-bound AMP pool formed by hydrolysis of extracellular fluid and functions as a vasodilator; excess adenosine is incorporated into the tissue by a "permease" with Michaelis-Menten kinetics and converted to AMP, inosine, and hypoxanthine. Alternative mechanisms, such as the deamination of AMP by adenylate deaminase and conversion of AMP to adenine by AMP pyrophosphorylase, were rejected primarily on qualitative biochemical grounds.
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PMID:Computer simulation of ischemic rat heart purine metabolism. I. Model construction. 19 89

The effect of concanavalin A (Con A) and colchicine on the prostaglandin E1 (PGE1)-mediated cyclic AMP generation in rat peritoneal macrophages have been studied. Although Con A and colchicine by themselves did not affect cyclic AMP levels, they greatly enhanced cyclic AMP production induced by PGE1. There was not only augmentation of cyclic AMP levels at maximally active concentrations of PGE1, but also an increased sensitivity to low (inactive) concentrations of PGE1. Except for lentil lectin, none of the other lectins affected PGE1 sensitivity whereas lumicolchicine was as effective as colchicine. In addition, both Con A and colchicine raised the sensitivity to isoproterenol and choleraenterotoxin. Although details of the mechanisms by which Con A or colchicine influenced the membrane-bound adenyl cyclase and PGE1 receptors remain unclear, these observations suggest that certain alterations of the cell membrane may render macrophages more susceptible to the regulating effects of prostaglandins.
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PMID:Enhancement of the PGE1 response of macrophages by concanavalin A and colchicine. 19 24

Adenylate cyclase in liver membranes was solubilized with Lubrol PX and partially purified by gel filtration. The partially purified enzyme was susceptible to activation by guanyl-5'-yl imidodiphosphate (Gpp(NH)p). Studies on the binding of [3H]Gpp(NH)p to various fractions eluted from the gels revealed that an upper limit of 1% of the Gpp(NH)p binding sites is associated with adenylate cyclase activity stimulated by the nucleotide. The glucagon receptor, pretagged with 125I-glucagon in the membranes, solubilized with Lubrol PX, and fractionated on the same gel columns, eluted in a peak fraction that overlaps with, but is separate from, adenylate cyclase in its Gpp(NH)p-stimulated form. Addition of GTP to the solubilized glucagon-receptor complex caused complete dissociation of the complex, as has been shown with the membrane-bound form of the complex. Since the GTP-sensitive form of the glucagon receptor complex separates from the Gpp(NH)p-sensitive form of adenylate cyclase, it is concluded that the receptor and the enzyme are separate molecules, each associated with a distinct nucleotide regulatory site or component. These findings are discussed in terms of the possible structure of the hormone-sensitive state of adenylate cyclase.
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PMID:Solubilization and separation of the glucagon receptor and adenylate cyclase in guanine nucleotide-sensitive states. 19 78

Diverse treatments, which have been shown by Slayman, C. L. (1977) in Water Relations in Membrane Transport in Plants and Animals (Jungreis, A., Hodges, T. K., Kleinzeller, A., and Schultz, S. G., eds) pp. 69-86, Academic Press, New York, to depolarize the plasma membrane of Neurospora, increase levels of adenosine 3':5'-monophosphate (cyclic AMP) in the organism. The treatments include those producing large transport fluxes of metabolizable or nonmetabolizable compounds, rapid temperature drops, and addition of agents which uncouple oxidative phosphorylation. Severe mechanical stress, which may also act to depolarize the plasma membrane, leads to increases in cyclic AMP. The maximal depolarization appears to precede the maximal cyclic AMP levels. It is proposed that the membrane depolarization produces the increased cyclic AMP levels by stimulating the plasma membrane-bound adenylate cyclase and that cyclic AMP may be important to the maintenance of membrane integrity.
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PMID:Cyclic AMP and the plasma membrane potential in Neurospora crassa. 19 3

Pretreatment of rat adrenal particulate fractions with cholera toxin in vitro markedly changed the properties of the membrane-bound adenylate cyclase. The basal activity of the enzyme was increased after cholera toxin treatment. The main action of the toxin was on the Vmax of the enzyme. In the absence of added GTP Lineweaver-Burk plots indicate a deviation from normal Michaelis-Menten kinetics with respect to substrate, the slopes being concave downward for control and toxin-treated membranes. Although hormonal stimulation of the enzyme was diminished in toxin-treated membranes, the hormone receptors were still functionally active as revealed after addition of Gpp(NH)p, GTP or GTPgammaS. The response to NaF was decreased in the toxin-treated membranes. Whereas GTP behaves as an antagonist (or a partial agonist with low intrinsic activity) compared to Gpp(NH)p in control membranes, it has similar intrinsic activity as Gpp(NH)p in the toxin-treated membranes. The results indicate that cholera toxin modification of the adenylate cyclase complex is located at the guanyl nucleotide sites or factors controlling the turnover of GTP at these sites. Cholera toxin modification may be a useful tool to investigate the role of guanyl nucleotide sites in the regulation of adenylate cyclase activity.
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PMID:Adrenal cortex adenylate cyclase. In vitro modification of the enzyme by cholera toxin. 19 84

Chlorpropamide and phenformin inhibited (Na+ - K+)-ATPase and stimulated a high affinity cyclic AMP-phosphodiesterase of isolated liver plasma membrane when tested in vitro. In addition, the two drugs decreased the intracellular cyclic AMP content of isolated hepatocytes without being effective on plasma membrane-bound adenylate cyclase. The results suggest that the plasma membrane plays an important role in the mechanism of action of the two hypoglycemic drugs, but do not exclude the presence of intracellular targets.
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PMID:Effect of chlorpropamide and phenformin on rat liver: the effect on plasma membrane-bound enzymes and cyclic AMP content of hepatocytes in vitro. 20 70

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