EC:3.5.4.4 - FACTA Search

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Query: EC:3.5.4.4 (adenosine deaminase)
5,136 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We examined the mechanism by which adenosine inhibits prolactin secretion from GH3 cells, a rat pituitary tumour line. Prolactin release is enhanced by vasoactive intestinal peptide (VIP), which increases cyclic AMP, and by thyrotropin-releasing hormone (TRH), which increases inositol phosphates (IPx). Analogues of adenosine decreased prolactin release, VIP-stimulated cyclic AMP accumulation and TRH-stimulated inositol phospholipid hydrolysis and IPx generation. Inhibition of InsP3 production by R-N6-phenylisopropyladenosine (R-PIA) was rapid (15 s) and was not affected by the addition of forskolin or the removal of external Ca2+. Addition of adenosine deaminase or the potent adenosine-receptor antagonist, BW-A1433U, enhanced the accumulation of cyclic AMP by VIP, indicating that endogenously produced adenosine tonically inhibits adenylate cyclase. The potency order of adenosine analogues for inhibition of cyclic AMP and IPx responses (measured in the presence of adenosine deaminase) was N6-cyclopentyladenosine greater than R-PIA greater than 5'-N-ethylcarboxamidoadenosine. This rank order indicates that inhibitions of both cyclic AMP and InsP3 production are mediated by adenosine A1 receptors. Responses to R-PIA were blocked by BW-A1433U (1 microM) or by pretreatment of cells with pertussis toxin. A greater amount of toxin was required to eliminate the effect of R-PIA on inositol phosphate than on cyclic AMP accumulation. These data indicate that adenosine, in addition to inhibiting cyclic AMP accumulation, decreases IPx production in GH3 cells, possibly by directly inhibiting phosphoinositide hydrolysis.
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PMID:Regulation of GH3-cell function via adenosine A1 receptors. Inhibition of prolactin release, cyclic AMP production and inositol phosphate generation. 284 12

The involvement of adenosine in the coupling of insulin binding to action was investigated in rat adipocytes. Reduction of endogenous adenosine levels by treatment with adenosine deaminase (ADA) had no significant effect on either basal or maximally stimulated glucose transport, but reduced the insulin sensitivity of transport stimulation. Adenosine deaminase treatment also shifted the EC50 of H2O2 stimulation of transport from 0.13 mM to 0.30 mM, and the EC50 for insulin stimulation of protein synthesis from 0.40 +/- 0.06 ng/ml to 1.30 +/- 0.25 ng/ml. Adenosine appears to be acting through the pharmacological Ri adenosine receptor subtype. The mode of action of adenosine does not seem to involve inhibition of adenylate cyclase. Adenosine also influences the kinetics of insulin action. ADA treatment slows the onset of transport stimulation by a maximal insulin concentration (10 ng/ml). Increasing the hormone level to 100 ng/ml overcomes this slowing without increasing transport further. The deactivation of glucose transport following removal of insulin is accelerated by ADA treatment. Thus, adenosine is involved both in maintaining a high efficiency of an early step in the insulin signaling process and in maintaining optimal activity of the insulin-stimulated glucose transport system.
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PMID:The role of adenosine in insulin action coupling in rat adipocytes. 285 Sep 47

Cyclic AMP has been implicated as a regulator of capacitation, but the control of its metabolism in sperm remains obscure. A recent study of mouse sperm has shown capacitation-related changes in the activities of both adenylate cyclase, which increased during incubation, and cyclic nucleotide phosphodiesterase, which decreased. The present study was conducted to extend these observations by measuring phosphodiesterase activity in sperm incubated in media with modified calcium and/or glucose content, conditions known to modulate fertilizing ability. Phosphodiesterase activity of sequential sperm samples, taken first when sperm are essentially uncapacitated and then when they are either partially or completely capacitated, decreased with time under all conditions, and in each case the greater fall in activity was seen in the medium that would support the greater change in fertilizing ability of the sperm population. Sperm washed by centrifugation to remove epididymal fluid also displayed a reduction in phosphodiesterase activity with time. The medium surrounding the sperm contained about half of the total phosphodiesterase activity, as well as 5'-nucleotidase and adenosine deaminase. The crude enzyme preparation showed complex kinetic behavior when assayed over a range of cAMP concentrations, but the reduction in activity with time was seen at all substrate levels. The observed changes in phosphodiesterase activity, together with the increased adenylate cyclase activity seen under these sperm incubation conditions, would increase cAMP availability with time, thus providing further evidence for a fundamental role for cAMP in controlling the events of capacitation.
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PMID:Phosphodiesterase activity of mouse sperm incubated under conditions that modulate fertilizing potential in vitro. 285 27

The effect of neuropeptide Y (NPY) on adenylate cyclase activity was examined in ventricular myocytes isolated from the adult rat heart. In the presence of the phosphodiesterase inhibitor Ro 20-1724 (0.5 mM) and adenosine deaminase (5 U/ml), these intact cells accumulate cyclic AMP when stimulated by isoproterenol. NPY (10(-9) to 10(-6) M) reduced the degree of cAMP accumulation achieved by 10(-7) M isoproterenol in a dose dependend manner by 10 to maximally 48%. The IC50 value was 3 x 10(-8) M NPY. A maximal concentration (10(-6) M) of N6-phenylisopropyladenosine (PIA) decreased cAMP levels by 39%, i.e. to a similar extent. Prior treatment of the myocytes with pertussis toxin (1 microgram/ml for 6 h) increased the mean stimulated values in the presence of isoproterenol (10(-7) M) by a factor 4.1. In such cells, NPY and PIA were ineffective in antagonizing the stimulation of cAMP production by isoproterenol. These results indicate that the ventricular myocyte has receptors for NPY, similar to the A1 adenosine-receptor in that they are linked to the adenylate cyclase by an inhibitory guanylate binding protein.
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PMID:The antiadrenergic effect of neuropeptide Y on the ventricular cardiomyocyte. 285 10

The effect of inhibiting adenosine-metabolizing enzymes on sperm fertilizing ability was studied to investigate a possible role for endogenously generated adenosine in the regulation of capacitation. The compounds used have been shown to be effective inhibitors of the relevant enzymes in similarly incubated mouse sperm suspensions. Inhibition of 5'-nucleotidase activity with alpha, beta-methylene adenosine 5'-diphosphate (AMPCP), to reduce available endogenous adenosine, caused a dose-dependent inhibition of the fertilizing ability of partially capacitated spermatozoa, which was significant with 100 and 250 microM AMPCP. Conversely, inhibition of adenosine deaminase with 100 nM coformycin, to increase available endogenous adenosine, promoted the fertilizing ability of partially capacitated spermatozoa when the fertilization rate of control suspensions was low. However, coformycin had no effect on sperm suspensions with moderate fertilizing ability, and it inhibited fertilizing ability when added to capacitated spermatozoa. These data are consistent with a promotion of the early stages of capacitation by endogenously generated adenosine and suggest that sensitivity to adenosine changes as capacitation proceeds. Because the majority of adenosine-metabolizing enzyme activity residues in or is directed toward the extracellular compartment in such suspensions, these effects of adenosine may be mediated at the outer surface of the cell. By interacting with receptors on adenylate cyclase, externally produced adenosine could modulate intracellular levels of cyclic adenosine monophosphate (cAMP), thereby influencing fertilizing ability.
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PMID:Inhibition of adenosine-metabolizing enzymes modulates mouse sperm fertilizing ability: a changing role for endogenously generated adenosine during capacitation. 285 33

Theophylline inhibits basal adenylate cyclase activity as well as cyclase stimulated by sodium chloride, sodium fluoride, GTP or 5'-guanylimidodiphosphate. This inhibition, is dose-dependent and shows non-competitive inhibition, with respect to MgATP. The presence of adenosine deaminase does not alter the effect of theophylline. The inhibition produced by theophylline is not additive with that due to 2'-deoxyadenosine 3'-monophosphate (a P-site agonist). It is suggested that theophylline may act at the P-site to reduce adenylate cyclase activity.
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PMID:Inhibition of rabbit cardiac adenylate cyclase by theophylline. 286 8

Glucose transport in hamster adipocytes and its modulation by insulin and isoprenaline was characterized with the aid of the non-metabolizable hexose 3-0-methylglucose. Insulin stimulated the initial uptake rates by an increase in Vmax of the transport without any detectable change in Km. The hormone concentration producing half maximal stimulation was identical to that required in rat adipocytes. However, hamster adipocytes were much less responsive to insulin (3-fold stimulation as compared to a 12-fold stimulation in rat fat cells), and maximal transport rates were 10-fold lower than that observed in rat adipocytes. Accordingly, the number of glucose transporters, as assessed by glucose-inhibitable cytochalasin-B binding, was considerably lower in plasma membranes of hamster adipocytes. Moreover, no transporters were detected in the low-density microsomes which in insulin-sensitive cell types represent the intracellular pool of recruitable glucose transporters. The relative insulin resistance of the hamster fat cells may therefore be due to a depleted pool of intracellular glucose transporters. In the presence of adenosine, the beta-adrenoceptor agonist isoprenaline produced a moderate stimulation of the basal transport rate which was antagonized by the alpha 2-agonist clonidine. If adenosine deaminase was added in order to remove endogenous adenosine, isoprenaline inhibited the insulin-stimulated transport by 50%. In contrast to the stimulatory effects of insulin and isoproterenol, the inhibitory effect of the catecholamine was reversed by cooling the cells to 22 degrees. Glucagon produced a comparable inhibition, suggesting that the inhibitory effect was mediated by adenylate cyclase or its regulatory subunits.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Modulation of glucose transport in hamster adipocytes by insulin and by beta- and alpha 2-adrenoceptor agonists. 287 8

Insulin antagonized the lipolytic actions of epinephrine in rat epididymal adipocytes when the phosphodiesterase inhibitor, Ro 20-1724, was present. Adipocytes were depleted of functional cAMP by inhibiting adenylate cyclase with N6-phenylisopropyladenosine in the presence of adenosine deaminase such that Ro 20-1724 no longer stimulated lipolysis. The cAMP analogs 8-thioisopropyl-cAMP or 8-thiomethyl-cAMP, which are resistant to phosphodiesterase hydrolysis, were subsequently added to bypass adenylate cyclase and phosphodiesterase action. Under these conditions, insulin antagonized the lipolytic effects of these analogs, even in the presence of Ro 20-1724.
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PMID:The antilipolytic effect of insulin does not require adenylate cyclase or phosphodiesterase action. 298 Nov 81

Glucose transport as assessed by the uptake rate of 3-O-methylglucose was stimulated in isolated rat fat cells by preincubation with isoprenaline or orciprenaline. The effect was apparently mediated by beta 1-receptors, since (1) it was abolished by propranolol, (2) it closely paralleled the stimulation of lipolysis, and (3) isoprenaline was 10(2) times more potent that orciprenaline. Isoprenaline enhanced the effect of submaximal insulin concentrations as well as the basal transport rate but failed to increase the maximal effect of insulin. The stimulatory effect of isoprenaline was antagonized by adenosine deaminase which removes adenosine spontaneously released from the cells, and by bordetella toxin (IAP) which blocks the inhibitory coupling component of adenylate cyclase. Moreover, bordetella toxin uncovered an inhibitory effect of isoprenaline on insulin stimulated glucose transport. There was no apparent correlation between the effects on glucose transport and the response of cellular cyclic AMP levels to the agents investigated. It is suggested that a step in the coupling of beta-receptors and adenylate cyclase, but not total cellular cyclic AMP levels, may mediate stimulatory as well as inhibitory effects of catecholamines on glucose transport in the adipocyte.
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PMID:Dual effect of isoprenaline on glucose transport and response to insulin in isolated adipocytes. 298 32

The interaction of ADP with platelets leads to shape change, exposure of fibrinogen binding sites, and aggregation, all of which have been shown to be inhibited by 5'-p-fluorosulfonylbenzoyladenosine (FSBA), an alkylating analogue of adenine nucleotides which binds covalently to a 100-kDa polypeptide in intact platelet membranes (Figures, W. R., Niewiarowski, S., Morinelli, T., Colman, R. F., and Colman, R. W. (1981) J. Biol. Chem. 256, 7789-7795). In plasma, FSBA can break down to adenosine which stimulates adenylate cyclase. To distinguish between direct effects of FSBA and the actions of adenosine, we have used washed platelet suspensions and adenosine deaminase. We studied the effects of FSBA on shape change and cyclic AMP metabolism, and on the binding of 2-methylthio-ADP, which mimics the effects of ADP on cyclic AMP metabolism at concentrations too low to activate platelets. Inhibition of ADP-induced shape change of platelets incubated with FSBA for 2 min in platelet-rich plasma was greatly reduced by adenosine deaminase. In the presence of a phosphodiesterase inhibitor, 100 microM FSBA increased platelet cyclic AMP to the same extent as did 10 microM adenosine. These effects were inhibited by theophylline, an adenosine receptor antagonist, and by adenosine deaminase. Incubation of washed platelets for 60 min with FSBA and adenosine deaminase caused a concentration-dependent inhibition of ADP-induced shape change. Inhibition closely paralleled the covalent incorporation of 3H from tritiated FSBA into platelet membranes. Under these conditions, FSBA did not block inhibition of cyclic AMP accumulation by ADP, nor did it block the binding of 2-methylthio-ADP. We conclude that part of the inhibition of shape change caused by brief exposure to FSBA is due to adenosine, but at longer times shape change is inhibited in association with covalent incorporation of sulfonylbenzoyladenosine. This effect of FSBA is independent of adenosine and occurs at a site distinct from that at which ADP inhibits adenylate cyclase.
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PMID:Two mechanisms for inhibition of ADP-induced platelet shape change by 5'-p-fluorosulfonylbenzoyladenosine. Conversion to adenosine, and covalent modification at an ADP binding site distinct from that which inhibits adenylate cyclase. 298 76

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