Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

We have previously shown that adenosine, acting at an A1 receptor, contracts the smooth muscle of virgin guinea pig uterus (M. A. Smith, I. L. O. Buxton, and D. P. Westfall. J. Pharmacol, Exp. Ther. 247: 1059-1063, 1988) and is not coupled to the expected inhibition of adenylate cyclase (M. A. Smith, J. L. Silverstein, D. P. Westfall, and I. L. O. Buxton. Cell. Signal. 1: 357-365, 1989). To probe the importance of contractile actions of adenosine in uterine smooth muscle and to further characterize the signal transduction pathway involved in A1-receptor action, we have studied the adenosine receptor and its coupling in pregnant guinea pig myometrium. Adenosine agonist and antagonist radioligands bind to saturable sites of the A1 subtype homogeneously distributed in the smooth muscle of pregnant guinea pig uterus. Agonist competition of antagonist radioligand binding in both the absence and presence of guanine nucleotide reveals high and low agonist affinity states of the receptor. Pretreatment of tissues with pertussis toxin (PTx) shifts the high-affinity sites to a lower affinity but does not affect low-affinity sites, whereas agonist competition in the presence of guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S) is indistinguishable from the control, which is consistent with coupling of A1 receptors to both PTx-sensitive and PTx-insensitive GTP-binding proteins. Adenosine receptor inhibition of adenylate cyclase activity is prevented after pretreatment of the tissue with PTx, whereas increased inositol phosphate production is not. The data presented here are consistent with coupling of the A1 receptor to dual effectors in the pregnant state of the smooth muscle. The unique action of an A1 receptor to contract mammalian smooth muscle and the appearance, only in the pregnant state, of coupling to adenylate cyclase inhibition suggest a role for adenosine in parturition biology.
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PMID:Smooth muscle adenosine A1 receptors couple to disparate effectors by distinct G proteins in pregnant myometrium. 190 2

5'-(N-Ethylcarboxamido)adenosine (NECA) and N6-[(R)-(phenylisopropyl)]adenosine (PIA) were incubated in an adenylate cyclase assay with a particulate fraction of caudate-putamen tissue of the rat, in order to examine the effect of kainic acid and a 6-hydroxydopamine-induced lesion on adenosine receptor coupled adenylate cyclase in vitro. There was an enhancement of formation of cyclic AMP induced by NECA, that was mediated by A2 adenosine receptors. Phenylisopropyl adenosine also stimulated adenylate cyclase in the striatum, with a maximum increase at 0.1 mM. At smaller concentrations, PIA inhibited the basal activity, which was previously described to be an effect mediated by A1 adenosine receptors. In caudate-putamen tissue from rats receiving a unilateral lesion, induced with kainic acid, basal and maximally NECA- and PIA-stimulated activity of adenylate cyclase was decreased. The maximum stimulatory effects of both substances were also significantly decreased, whereas no change of the inhibitory effect of PIA was observed. After unilateral lesion induced with 6-OHDA, basal and maximally NECA- and PIA-activated adenylate cyclase was increased; however, no inhibitory effect of PIA was seen. These results suggest that A2 adenosine receptor-coupled adenylate cyclase was located on neurones intrinsic to the neostriatum and probably postsynaptic to the dopaminergic input. The A1 adenosine receptors seem to be associated with the nigrostriatal pathway implying a presynaptic localization on dopaminergic afferents. In addition, since after both kainic acid- and 6-OHDA-induced lesions, respectively, in caudate-putamen tissue of the contralateral side, PIA no longer inhibited the activity of adenylate cyclase, contralateral structures also appeared to be involved in the regulation of A1 adenosine receptors.
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PMID:Adenosine receptor-coupled adenylate cyclase in the caudate nucleus of the rat brain. 192 88

The effects of adenosine receptor stimulation on the contractile force of rabbit isolated left atrial preparations in the absence and presence of cAMP-generating and cAMP-independent agonists were investigated. Adenosine and the stable adenosine analogues 5'-(N-ethyl)carboxamido adenosine (NECA) and (-)-N6-phenylisopropyladenosine (R-PIA) produced a concentration-dependent direct negative inotropic effect. Responses to NECA and R-PIA were insensitive to atropine and were shifted to the right by the adenosine receptor antagonist 3-isobutyl-1-methyl xanthine (IBMX). NECA and R-PIA were found to reverse positive inotropic responses of left atria to the beta-adrenoceptor agonist, isoproterenol, but were less effective at reversing positive inotropic responses to the adenylate cyclase activator, forskolin, and were almost ineffective at reversing positive inotropic responses to alpha-adrenoceptor stimulation. Neither NECA nor R-PIA had a significant effect on basal cAMP levels or on cAMP levels elevated by isoproterenol in rabbit left atria. Similarly, R-PIA had no significant effect on basal cAMP levels or isoproterenol-induced increases in cAMP in the presence of adenosine deaminase to remove the influence of endogenous adenosine. Pretreatment of rabbits with 1.75 micrograms/kg pertussis toxin attenuated both the direct negative inotropic response of left atria to NECA and responses to NECA in the presence of isoproterenol and forskolin to a similar extent. Pretreatment of left atrial preparations with the potassium channel antagonist 4-aminopyridine resulted in a dose dependent attenuation of responses to NECA alone and in the presence of isoproterenol and forskolin. These data suggest that adenosine receptors in rabbit left atria are not coupled to adenylate cyclase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The interaction of adenosine analogues with cAMP-generating and cAMP-independent positive inotropic agents in rabbit left atrium. 196 30

We investigated the effect of the relatively selective A1 adenosine receptor agonist N6-(R)-phenylisopropyladenosine (R-PIA) on tyrosine hydroxylase activity (TH) of synaptosomes obtained from rat striatum. TH activity was assayed in supernatant obtained following sonication and centrifugation of the tissue preincubated with the test compounds. R-PIA produced a modest decrease of basal enzyme activity, but significantly reduced the activation of the enzyme by submaximal (0.1-0.5 microM) concentrations of forskolin (FSK) a stimulator of adenylate cyclase. The IC 50 value of R-PIA was 17 nM and the maximal inhibition corresponded to 30-40% decrease of the enzyme activity stimulated by FSK. The S-isomer of PIA failed to affect TH activity under control and stimulated conditions. Moreover, the inhibitory effect of R-PIA was completely antagonized by 8-cyclopentyl- 1,3 -dimethylxanthine, an adenosine receptor blocker. R-PIA inhibited both basal and FSK-stimulated adenylate cyclase activity. These results indicate that in striatal dopaminergic terminals TH activity can be modulated in an inhibitory manner by activation of presynaptic A1 adenosine receptors.
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PMID:Activation of adenosine A1 receptor by N6-(R)-phenylisopropyladenosine (R-PIA) inhibits forskolin-stimulated tyrosine hydroxylase activity in rat striatal synaptosomes. 196 14

In the in vitro perfused rectal gland of the dogfish shark (Squalus acanthias), the adenosine analogue 2-chloroadenosine (2Clado) completely and reversibly inhibited forskolin-stimulated chloride secretion with an IC50 of 5 nM. Other A1 receptor agonists including cyclohexyladenosine (CHA), N-ethylcarboxamideadenosine (NECA) and R-phenylisopropyl-adenosine (R-PIA) also completely inhibited forskolin stimulated chloride secretion. The "S" stereoisomer of PIA (S-PIA) was a less potent inhibitor of forskolin stimulated chloride secretion, consistent with the affinity profile of PIA stereoisomers for an A1 receptor. The adenosine receptor antagonists 8-phenyltheophylline and 8-cyclopentyltheophylline completely blocked the effect of 2Clado to inhibit forskolin-stimulated chloride secretion. When chloride secretion and tissue cyclic (c)AMP content were determined simultaneously in perfused glands, 2Clado completely inhibited secretion but only inhibited forskolin stimulated cAMP accumulation by 34-40%, indicating that the mechanism of inhibition of secretion by 2Clado is at least partially cAMP independent. Consistent with these results, A1 receptor agonists only modestly inhibited (9-15%) forskolin stimulated adenylate cyclase activity and 2Clado markedly inhibited chloride secretion stimulated by a permeant cAMP analogue, 8-chlorophenylthio cAMP (8CPT cAMP). These findings provide the first evidence for a high affinity A1 adenosine receptor that inhibits hormone stimulated ion transport in a model epithelia. A major portion of this inhibition occurs by a mechanism that is independent of the cAMP messenger system.
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PMID:A1 adenosine receptors inhibit chloride transport in the shark rectal gland. Dissociation of inhibition and cyclic AMP. 197 May 83

It has previously been shown that covalent incorporation of the photoreactive adenosine derivative (R)-2-azido-N6-p-hydroxy-phenylisopropyladenosine [(R)-AHPIA] into the A1 adenosine receptor of intact fat cells leads to a persistent activation of this receptor, resulting in a reduction of cellular cAMP levels [Mol. Pharmacol. 30:403-409 (1986)]. In contrast, covalent incorporation of (R)-AHPIA into human platelet membranes, which contain only stimulatory A2 adenosine receptors, reduces adenylate cyclase stimulation via these receptors. This effect of (R)-AHPIA is specific for the A2 receptor and can be prevented by the adenosine receptor antagonist theophylline. Binding studies indicate that up to 90% of A2 receptors can be blocked by photoincorporation of (R)-AHPIA. However, the remaining 10-20% of A2 receptors are sufficient to mediate an adenylate cyclase stimulation of up to 50% of the control value. Similarly, the activation via these 10-20% of receptors occurs with a half-life that is only 2 times longer than that in control membranes. This indicates the presence of a receptor reserve, with respect to both the extent and the rate of adenylate cyclase stimulation. These observations require a modification of the models of receptor-adenylate cyclase coupling, which is described in the accompanying paper [Mol. Pharmacol. 39:524-530 (1991)].
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PMID:Mechanism of A2 adenosine receptor activation. I. Blockade of A2 adenosine receptors by photoaffinity labeling. 201 51

To identify the involvement of dopamine receptors in the transmembrane signaling of the adenosine receptor-G protein-adenylate cyclase system in the CNS, we examined the effects of pertussis toxin (islet-activating protein, IAP) and apomorphine on A1 adenosine agonist (-)N6-R-[3H]phenylisopropyladenosine ([3H]PIA) and antagonist [3H]xanthine amine congener ([3H]XAC) binding activity and adenylate cyclase activity in cerebral cortex membranes of the rat brain. Specific binding to a single class of sites for [3H]XAC with a dissociation constant (KD) of 6.0 +/- 1.3 nM was observed. The number of maximal binding sites (Bmax) was 1.21 +/- 0.13 pmol/mg protein. Studies of the inhibition of [3H]XAC binding by PIA revealed the presence of two classes of PIA binding states, a high-affinity state (KD = 2.30 +/- 1.16 nM) and a low-affinity state (KD = 1.220 +/- 230 nM). Guanosine 5'-(3-O-thio)triphosphate or IAP treatment reduced the number of the high-affinity state binding sites without altering the KD for PIA. Apomorphine (100 microM) increased the KD value 10-fold and decreased Bmax by approximately 20% for [3H]PIA. The effect of apomorphine on the KD value increase was irreversible and due to a conversion from high-affinity to low-affinity states for PIA. The effect was dose dependent and was mediated via D2 dopamine receptors, since the D2 antagonist sulpiride blocked the phenomenon. The inhibitory effect of PIA on adenylate cyclase activity was abolished by apomorphine treatment. There was no effect of apomorphine on displacement of [3H]quinuclidinyl benzilate (muscarinic ligand) binding by carbachol. These data suggest that A1 adenosine receptor binding and function are selectively modified by D2 dopaminergic agents.
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PMID:Possible involvement of pertussis toxin-sensitive G proteins and D2 dopamine receptors in the A1 adenosine receptor-adenylate cyclase system in rat cerebral cortex. 214 96

Human peripheral blood monocytes have been found to undergo a transitory state of high accessory activity before they fully become macrophages. Time kinetics were done to follow this accessory potential. Studying the regulation of accessory activity, we have found that monocyte-derived accessory cells (m-AC) pass through two phases of development, which both are adversely controlled by cyclic nucleotides. Phase I is positively correlated by intracellular cAMP increase and can be arrested by adenosine 3';5' cyclic monophosphate (cAMP) and synergystic agents. In addition to cAMP, non-cyclic adenine nucleotides and adenosine also mimic all cAMP effects. This behavior is explained by the known presence of surface 5' nucleotidase and adenosine receptor, which in turn leads to activation of adenylate cyclase. At phase II serum is required to convert m-AC into macrophages. In the absence of serum, cells were arrested in the m-AC state. Adenine nucleotides effectively counteract the serum induction leading to the development of m-AC even in the presence of serum. Monocyte/macrophage markers such as Fc receptors and non-specific esterase strictly correlate negatively with the expression of accessory activity. Morphologically, the appearance of veils positively correlates with all experimental situations of high accessory activity. Therefore, it is evident that serum contains regulatory factors that strongly modify the accessory potency of the m-AC via the cyclic nucleotide system, thus presenting a potent immunoregulatory principle at the beginning of the immune cascade.
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PMID:Adenosine and its derivatives control human monocyte differentiation into highly accessory cells versus macrophages. 215 13

We have examined the effects of increasing membrane polyunsaturated fatty acids (PUFAs) on adenosine receptor function in intact N1E-115 neuroblastoma cells. Addition of linoleic acid to the culture medium for 48 h resulted in an approximate threefold increase in the amount of omega 6 fatty acids esterified to membrane phospholipids. Basal cAMP accumulation was significantly higher in the PUFA-enriched cells than in controls, although the differences could be diminished by approximately 75% by treatment of the cells with adenosine deaminase or 8-phenyltheophylline. Exposure of the cultures to the stable adenosine analogue 5'-N-ethylcarboxyamide adenosine (NECA) resulted in concentration-dependent increases in cAMP accumulation. Data from saturation experiments indicated that the maximum amount of cAMP that could be formed in response to NECA in the PUFA-enriched cells was twice that in control cells. Also, the amount of agonist required to elicit half maximal stimulation in the supplemented cells was significantly less than in the control cells (mean values for EC50, 0.85 and 1.43 microM, respectively). The results of this study demonstrate that membrane PUFA have the ability to modify interactions between adenosine receptors and adenylate cyclase in neural cells, a fact that is of potential importance in considering the central role that adenosine plays as a neuromodulator in the nervous system.
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PMID:Effects of membrane polyunsaturated fatty acids on adenosine receptor function in intact N1E-115 neuroblastoma cells. 216 75

Although adenosine is known to activate K+ conduction in atrial tissue, there is still debate as to the involvement of cAMP-dependent mechanisms. In isolated adult guinea pig atrial myocytes, we demonstrate that the highly A1-selective adenosine receptor agonist 2-chloro-N6-cyclopentyladenosine reduced basal cAMP levels by 30-40% in the absence and presence of the nonxanthine phosphodiesterase inhibitor Ro 20-1724. Isoprenaline caused a concentration-dependent increase in cAMP levels, which was more pronounced in the presence of the phosphodiesterase inhibitor. Several adenosine derivatives suppressed the isoprenaline-induced cAMP increase by approximately 80%. The rank order of potency was 2-chloro-N6-cyclopentyladenosine (IC50, 93 nM) greater than (R)-N6-phenylisopropyladenosine (IC50, 309 nM) greater than 5'-N-ethylcarboxamidoadenosine (IC50, 813 nM) much greater than (S)-N6-phenylisopropyladenosine (IC50, 26,300 nM). A similar but complete suppression of the isoprenaline-induced cAMP increase was produced by the muscarinic receptor agonist carbachol (IC50, 398 nM), which like adenosine is known to activate atrial K+ channels. The A1-adenosine receptor-selective antagonist 8-cyclopentyl-1,3-dipropylxanthine antagonized the effect of 2-chloro-N6-cyclopentyladenosine concentration-dependently, with a KB value of 9.6 nM. In atrial myocytes isolated from guinea pigs pretreated with pertussis toxin, the inhibitory effects of adenosine analogs on basal and isoprenaline-stimulated cAMP accumulation were markedly attenuated. It is concluded that the adenosine receptor in guinea pig atrial myocytes, which is known to be linked to K+ channels, is also coupled to adenylate cyclase via a pertussis toxin-sensitive guanine nucleotide-binding protein and shows the characteristics of the A1-adenosine receptor subtype.
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PMID:Pharmacological characterization of the adenylate cyclase-coupled adenosine receptor in isolated guinea pig atrial myocytes. 216 17


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