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: EC:3.5.4.17 (adenosine deaminase)
5,206 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Patients with tumors secreting vasoactive intestinal peptide (VIP) often develop hyperglycemia and glucose intolerance. Although VIP has been reported to increase glucose output by the liver, the concentration required for this effect greatly exceeds that observed clinically. We therefore investigated the effects of VIP on insulin-stimulated glucose transport in isolated adipocytes. Inhibition of insulin action was observed at a concentration of 1 ng/ml VIP with half-maximal inhibition at approximately 20 ng/ml. 125I-VIP bound to specific high-affinity sites on the adipocytes. Fifty percent inhibition of binding occurred at a concentration of unlabeled VIP of approximately 10 ng/ml and was not affected by insulin, glucagon, or growth hormone. As we have observed previously with glucagon and catecholamines, inhibition of insulin action by VIP was observed only when accumulation of adenosine in the incubation medium was prevented by addition of adenosine deaminase. Under these conditions VIP markedly increased cellular cAMP levels. A good correlation was observed among VIP binding, inhibition of insulin-stimulated glucose transport, and cellular concentrations of cAMP. The results suggest that inhibition of insulin action in adipose tissue contributes to the hyperglycemic effect of VIP. Together, with our published findings on glucagon and catecholamines, these results support the hypothesis that counterregulatory hormones inhibit insulin action by increasing cellular concentrations of cAMP.
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PMID:Vasoactive intestinal peptide inhibits insulin-stimulated glucose transport in rat adipocytes. 300 79

The effects of adenosine on glycogen metabolism have been studied in isolated fat-pads from epididymal adipose tissue. Adenosine caused a sustained short-term increase in the incorporation of [U-14C]glucose into glycogen, as well as a stimulation of both basal and insulin-induced [1-14C]glucose oxidation. Adenosine produced changes also in the activity of glycogen synthase and phosphorylase, these effects being apparent only when glucose was present in the incubation medium. The addition of adenosine prevented the depressed synthesis of glycogen observed in the presence of dibutyryl cyclic AMP. In the presence of adenosine deaminase, the stimulation by insulin of glycogen synthesis was markedly decreased. The results suggest that adenosine may have a regulatory role on glycogen synthesis by facilitating the glucose transport.
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PMID:Short-term stimulation by adenosine of basal and insulin-induced glycogen synthesis in rat adipose tissue. 300 88

This paper examines the modulation of insulin-stimulated glucose transport activity in rat adipose cells by ligands for receptors (R) that mediate stimulation (Rs; lipolytic) or inhibition (Ri; antilipolytic) of adenylate cyclase. The changes in glucose transport activity and cAMP, as assessed by 3-O-methylglucose uptake and (-/+) cAMP-dependent protein kinase (A-kinase) activity ratios, respectively, were monitored under conditions that maintain steady-state A-kinase activity ratios (Honnor, R. C., Dhillon, G. S., and Londos, C. (1985) J. Biol. Chem. 260, 15122-15129). Removal of endogenous adenosine with adenosine deaminase decreased insulin-stimulated glucose transport activity by approximately 30%, which was prevented or restored with Ri agonists such as phenylisopropyladenosine, nicotinic acid, and prostaglandin E1. These changes in transport activity were not accompanied by changes in A-kinase activity ratios, indicating that Ri-mediated effects on transport are independent of cAMP changes. Addition of an Rs ligand, isoproterenol, in the presence of adenosine increased kinase activity but did not change glucose transport activity. Conversely, upon removal of adenosine, addition of Rs ligands such as isoproterenol, adrenocorticotropic hormone, or glucagon strongly inhibited transport (approximately 50%) and stimulated kinase activity. However, subsequent addition of phenylisopropyladenosine nearly restored transport activity without alteration of A-kinase activity. These data and additional kinetic experiments suggest that Rs-mediated glucose transport modulations are also independent of cAMP. The interchangeability of ligands for both Rs and Ri receptors in modulating transport activity suggests that these cAMP-independent effects are mediated by the stimulatory (Ns) and inhibitory (Ni) guanyl nucleotide-binding regulatory proteins of adenylate cyclase. All Rs-and Ri-induced changes in transport activity occurred without a change in glucose transporter distribution, as assessed by D-glucose-inhibitable cytochalasin B binding, suggesting that Rs and Ri ligands modulate the intrinsic activity of the glucose transporter present in the plasma membrane.
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PMID:Regulation of insulin-stimulated glucose transport in the isolated rat adipocyte. cAMP-independent effects of lipolytic and antilipolytic agents. 302 4

The effect of insulin and factors which have insulin-like activity on the kinetic parameters of 3-O-methyl-D-glucose (MeGlc) transport in rat adipocytes were assessed. Carrier-mediated uptake of MeGlc was estimated by the difference in the amounts of [14C]MeGlc and L-[3H]glucose taken up in cells under equilibrium exchange conditions at 37 degrees C. The Km and Vmax values in basal cells were 17.4 mM and 0.24 nmol/10(6) cells/s, respectively. Removal of endogenous adenosine by adenosine deaminase resulted in a 26% decrease in the basal rate due to a slight increase in the Km (19.6 mM) and a decrease in the Vmax value (0.20 nmol/10(6) cells/s). The maximum concentration (10 nM) of insulin decreased the Km to approximately one-half of the basal (7.1 mM) concomitant with an 8.5-fold increase in the Vmax value (2.04 nmol/10(6) cells/s). Submaximal concentrations (50 and 150 pM) of insulin, N6-phenylisopropyladenosine (1 microM), mechanical agitation of cells by centrifugal force (160 x g), low temperature (15 degrees C), 12-O-tetradecanoylphorbol-13-acetate (1 microM), and hydrogen peroxide (10 mM) all decreased the basal Km value to a range of 13.5-7.3 mM, concomitant with a 1.7-7.4-fold increase in the Vmax. A possible explanation for the alterations in the kinetic parameters may be that insulin and other factors cause the translocation of the mobile low-Km glucose transporters from an intracellular site to the cell surface, where the stationary high-Km transporters are located. Thus, when the Km and Vmax values of the hypothetical high-Km transporters were assumed to be 20 mM and 0.20 nmol/10(6) cells/s, respectively, and the Km of the low-Km transporters was assumed to be 7 mM, the theoretical Km decreased from 20 to 7.5 mM as the Vmax of the low-Km transporters increased from near 0 to 2.0 nmol/10(6) cells/s. The relation between empirical Km and Vmax values as affected by several agents and conditions followed closely the relation predicted by the above two-transporter model.
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PMID:Reassessment of the translocation hypothesis by kinetic studies on hexose transport in isolated rat adipocytes. 304 14

Adipocytes incubated with adenosine deaminase (ADA) showed: (1) increased amounts of fatty acids in the medium; (2) increased glucose incorporation into acylglycerol glycerol; (3) decreased glucose incorporation into acylglycerol fatty acids; (4) a co-ordinate decrease in the sensitivity of lipolysis and glucose incorporation into acylglycerol to insulin; (5) similar effects on glucose incorporations in perifused and normal incubations. The decrease in fatty acid synthesis by perfusion was found to be dependent on the presence of insulin or fatty acids, and independent of the effects of ADA. The significance of the effects of perifusion, ADA and insulin are discussed in relation to effects of fatty acids.
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PMID:The response of adipocyte glucose metabolism and fatty acid release to adenosine deaminase, insulin and perifusion. Investigation of intermediary metabolism by perifusion. 304 1

In the anterogradely perfused rat heart with glucose as fuel, 1 microM isoproterenol (ISO) inhibited the insulin (INS) plus adenosine deaminase (AdoDA) stimulation of ventricular protein synthesis by 72%. ISO (1 microM) alone had no effect on ventricular protein synthesis but inhibited atrial protein synthesis by 20%. The concentration dependence of the ISO inhibition was similar to the stimulation of glucose uptake by ISO. Inhibition could not be overcome by increasing INS concentrations. The effects of ISO were diminished by propranolol and could be partially mimicked by forskolin (FSK) or 8-(4-chlorophenylthio-)adenosine 3',5'-cyclic monophosphate (CPT-cAMP). The stimulation of protein synthesis by noncarbohydrate fuels was antagonized by ISO. Hypoxia (PO2 = 50%) also antagonized the INS stimulation of ventricular protein synthesis but did not affect basal rates. ATP contents were decreased by ISO but not by a PO2 of 50%. Both manipulations increased lactate output. The inhibition of protein synthesis by ISO could possibly be explained by indirect effects of ISO on cardiac "energy status." Furthermore, inhibition may thus represent purely an in vitro phenomenon and may not occur in vivo. However, the possibility that there are more direct effects of ISO on the machinery of protein synthesis has not been excluded. The inhibition of protein synthesis by hypoxia cannot be explained by changes in energy status and may result from intracellular lactoacidosis.
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PMID:Acute inhibition of rat heart protein synthesis in vitro during beta-adrenergic stimulation or hypoxia. 305 5

Enzymes of the glycolytic pathway as well as some ancillary enzymes were studied in normal red cells parasitized with Plasmodium falciparum in culture at varying parasitemias as well as in isolated parasites. The levels of all enzymes except diphosphoglycerate mutase, glucose-6-phosphate dehydrogenase, and adenylate kinase were elevated. Extreme elevations of hexokinase, aldolase, enolase, pyruvate kinase, and adenosine deaminase concentrations were noted. In most cases, electrophoretically distinct bands of enzyme activity were also seen. These findings partly explain the previously noted 50- to 100-fold increase in glucose consumption of infected red cells and suggest that further knowledge of these parasite enzymes and their genetic basis may aid both in designing new chemotherapy and in understanding the evolution of these parasites.
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PMID:The enzymes of the glycolytic pathway in erythrocytes infected with Plasmodium falciparum malaria parasites. 305 30

1. Soleus, extensor digitorum longus (EDL) or hemi-diaphragm muscles of the rat were incubated in the presence of insulin and rates of the processes of glycolysis and glycogen synthesis were measured. 2. The concentrations of insulin required to cause half-maximal stimulation of glycolysis in both soleus and EDL preparations were significantly decreased by the presence of adenosine deaminase in the medium. 3. Adenosine deaminase increased the sensitivity of the process of hexose transport to insulin (in an identical manner to the change in sensitivity of glycolysis) in the EDL preparation. 4. None of the adenosine mediated effects on insulin-stimulated rates of glycolysis were observed in the hemi-diaphragm preparation or on the rates of glycogen synthesis in any of the three muscle preparations. 5. Therefore, changes in the adenosine system in skeletal muscle influence insulin sensitivity regardless of fibre type composition of the muscle.
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PMID:Effects of adenosine deaminase on the sensitivity of glucose transport, glycolysis and glycogen synthesis to insulin in muscles of the rat. 327 78

1. The relationship between the activity of adenosine metabolizing enzymes 5'nucleotidase (5'N), adenosine kinase (A.K.) and adenosine deaminase (A.D.) with basal and insulin-stimulated glucose transport in isolated fat cells from young and old animals was studied at 08:00 and 16:00 hr. 2. In cells from young animals a larger insulin-stimulation of glucose transport was observed at 16:00 hr than at 08:00 hr. Also at 16:00 hr small changes in 5'N, A.K. and A.D. activities suggest a decrease in adenosine formation. 3. In the cells from old animals no effect of insulin was observed at any time, while a 3-5-fold increase in 5'N indicated a predominance of adenosine formation at both times studied. 4. An inverse relationship was observed in the changes of adenosine metabolism and insulin action.
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PMID:Effect of age and day time on the adenosine modulation of basal and insulin-stimulated glucose transport in rat adipocytes. 328 66

Myocardial adenosine (ADO) has long been regarded as a regulator of coronary blood flow. In other tissues, such as adipose and skeletal muscle, much attention has focused on the role of ADO as a metabolic regulator of the actions of insulin. In the present study, we determined the effect of ADO infusion on insulin-stimulated myocardial glucose uptake (MGU). Mongrel dogs of either sex were instrumented to obtain arterial-coronary sinus differences for glucose, lactate, and oxygen. These were multiplied by circumflex artery blood flow (Q) to obtain uptake values. Measurements were made before and during hyperinsulinemic (4 U/min)-euglycemic clamp (clamp) with intracoronary infusions of saline, ADO, adenosine deaminase (ADA), or nitroprusside (NP). During clamp, MGU increased from a basal value of 3.0 +/- 0.8 mg/min (mean +/- SE) to 5.53 +/- 0.8 mg/min. Adenosine infusion potentiated this response, raising MGU further to 9.02 +/- 1.1 mg/min while not significantly affecting lactate or oxygen uptakes. Infusion of ADA confirmed the specificity of the response by blocking the metabolic effect of exogenously infused ADO. When NP was infused, Q increased significantly without altering MGU, indicating that the metabolic response to ADO was independent of the changes it caused in Q. A dose-response relationship existed between ADO and insulin-stimulated MGU. The metabolic response to ADO was more sensitive than the vasodilator response. It is concluded that ADO acts as a regulator of insulin in heart. This metabolic regulation occurs independent of changes in coronary blood flow.
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PMID:Adenosine potentiates insulin-stimulated myocardial glucose uptake in vivo. 328 95


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