EC:4.6.1.1 - FACTA Search

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)

A role of D2-dopaminergic neurotransmission in the regulation of melatonin biosynthesis in retina was studied in vivo in chickens. The nighttime rise in serotonin N-acetyltransferase (NAT)--the penultimate and key regulatory melatonin-synthesizing enzyme--was potently inhibited by both acute light exposure and agonists of dopamine D2-receptor (quinpirole, bromocriptine, and apomorphine). Spiroperidol, a selective dopamine D2-receptor blocker, increased the enzyme activity in light-exposed chickens, but had no effect in animals kept in darkness. Inhibitors of cyclic nucleotide phosphodiesterase, aminophylline, and 3-isobutyl-1-methylxanthine given peripherally, along with a direct adenylate cyclase activator forskolin injected directly into the eye, mimicked the action of darkness, and markedly enhanced the retinal NAT activity when administered to animals maintained in an illuminated environment. Dopamine D2-receptor agonists had no effect on aminophylline-stimulated enzyme activity, whereas spiroperidol enhanced it. Forskolin-driven NAT activity was suppressed by quinpirole. Spiroperidol and aminophylline given alone at different times of day under light conditions stimulated NAT activity, and their effects were mainly additive when given in combination. SCH 23390, a selective D1-dopamine receptor antagonist, did not affect the rise in NAT activity of chicken retina produced by either darkness or by aminophylline. The results provide further evidence that dopamine, acting via D2-receptors, mediates the inhibitory effects of light on the cyclic AMP-dependent dark-evoked induction of NAT activity in chicken retina.
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PMID:Serotonin N-acetyltransferase activity in chicken retina: in vivo effects of phosphodiesterase inhibitors, forskolin, and drugs affecting dopamine receptors. 168 20

We have previously described a cDNA which encodes a binding site with the pharmacology of the D2-dopamine receptor (Bunzow, J. R., VanTol, H. H. M., Grandy, D. K., Albert, P., Salon, J., Christie, M., Machida, C., Neve, K. A., and Civelli, O. (1988) Nature 336, 783-787). We demonstrate here that this protein is a functional receptor, i.e. it couples to G-proteins to inhibit cAMP generation and hormone secretion. The cDNA was expressed in GH4C1 cells, a rat somatomammotrophic cell strain which lacks dopamine receptors. Stable transfectants were isolated and one clone, GH4ZR7, which had the highest levels of D2-dopamine receptor mRNA on Northern blot, was studied in detail. Binding of D2-dopamine antagonist [3H]spiperone to membranes isolated from GH4ZR7 cells was saturable, with KD = 96 pM, and Bmax = 2300 fmol/mg protein. Addition of GTP/NaCl increased the IC50 value for dopamine competition for [3H]spiperone binding by 2-fold, indicating that the D2-dopamine receptor interacts with one or more G-proteins. To assess the function of the dopamine-binding site, acute biological actions of dopamine were characterized in GH4ZR7 cells. Dopamine, at concentrations found in vivo, decreased resting intra- and extracellular cAMP levels (EC50 = 8 +/- 2 nM) by 50-70% and blocked completely vasoactive intestinal peptide (VIP) induced enhancement of cAMP levels (EC50 = 6 +/- 1 nM). Antagonism of dopamine-induced inhibition of VIP-enhanced cAMP levels by spiperone, (+)-butaclamol, (-)-sulpiride, and SCH23390 occurred at concentrations expected from KI values for these antagonists at the D2-receptor and was stereoselective. Dopamine (as well as several D2-selective agonists) inhibited forskolin-stimulated adenylate cyclase activity by 45 +/- 6%, with EC50 of 500-800 nM in GH4ZR7 membranes. Dopaminergic inhibition of cellular cAMP levels and of adenylyl cyclase activity in membrane preparations was abolished by pretreatment with pertussis toxin (50 ng/ml, 16 h). Dopamine (200 nM) abolished VIP- and thyrotropin-releasing hormone-induced acute prolactin release. These data show conclusively that the cDNA clone encodes a functional dopamine-D2 receptor which couples to G-proteins to inhibit adenylyl cyclase and both cAMP-dependent and cAMP-independent hormone secretion.
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PMID:Coupling of a cloned rat dopamine-D2 receptor to inhibition of adenylyl cyclase and prolactin secretion. 168 45

Dopamine receptors have been identified in many tissues including the kidney. To establish an in vitro system as a model for dopamine action, we studied the effect of dopamine (DA) receptor agonists and antagonists on adenosine 3',5'-cyclic monophosphate (cAMP) formation in opossum kidney (OK) cells. The stimulation of cAMP production in these cells by dopamine was dose dependent, and markedly higher levels were observed in the presence of dopamine plus a phosphodiesterase inhibitor, 3-isobutyl-1-methylxanthine. Half-maximal stimulation was found with 1.15 +/- 0.22 microM dopamine. A DA1-receptor agonist, SKF 82526J, stimulated cAMP production, whereas a DA2-receptor agonist, Ly 171555, did not. The stimulatory effects of dopamine and SKF 82526J were abolished by a specific DA1-receptor antagonist, Sch 23390 with half-maximal inhibition concentrations of 1.24 +/- 0.18 and 4.0 +/- 0.5 nM, respectively. In contrast, the DA2-receptor antagonist, spiperone, had no inhibitory effect on dopamine- and SKF 82526J-stimulated cAMP production. Beta-Adrenergic antagonists failed to attenuate the stimulatory effects of dopamine and SKF 82526J on cAMP production. In addition, the beta-adrenergic receptor agonist, isoproterenol, did not stimulate cAMP production. These results suggest that the action of dopamine was not mediated through beta-adrenergic receptors. Furthermore, our results clearly demonstrated the existence of DA1-receptors linked to adenylate cyclase in OK cells.
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PMID:Dopamine stimulation of cAMP production in cultured opossum kidney cells. 169 97

The activity of serotonin N-acetyltransferase (NAT), a key regulatory enzyme in the melatonin biosynthetic pathway, was examined in low-density monolayer cultures of chick embryo retinal cells prepared with three levels of photoreceptor enrichment. In cultures prepared from embryonic day 8 retinas (E8), photoreceptors represented approximately 30% of the total cell population, whereas in those prepared from embryonic day 6 retinas (E6), approximately 70% of the cells were photoreceptors. In E8 retinas treated with kainic acid to destroy neurons (E8K), the relative content of photoreceptors was increased to approximately 50%. NAT activity was detectable in the cultures under all conditions studied, and was markedly increased by drugs that increase intracellular cyclic AMP levels and cyclic AMP-dependent protein kinase activity: 8-bromocyclic AMP, forskolin, and 3-isobutyl-1-methylxanthine (IBMX). Consistent with the hypothesis that NAT is localized in photoreceptors, the effects of the stimulatory treatments were significantly greater in E6 and E8K cultures than in E8 cultures. The stimulation of NAT activity in E6 cultures was inhibited by actinomycin D and cycloheximide, suggesting the involvement of RNA and protein synthesis. Dopamine inhibited the induction of NAT activity by forskolin and IBMX, but not that elicited by 8-bromocyclic AMP. The dopamine-mediated suppression of activity was significantly inhibited by pertussis toxin and by spiperone and sulpiride, both D2-dopamine receptor antagonists, but not by SCH 23390, a D1-dopamine receptor blocker, or antagonists of alpha-adrenergic, beta-adrenergic, or serotonergic receptors. Because the inhibitory effect of dopamine on E6 and E8K cultures was at least as great as that on E8 cultures, the results suggest that dopamine acts on D2-like receptors on photoreceptors. The receptors appear to be coupled to adenylate cyclase through an inhibitory GTP-binding protein and to mediate inhibition of cyclic AMP synthesis and consequent induction of NAT activity.
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PMID:Cyclic AMP-dependent induction of serotonin N-acetyltransferase activity in photoreceptor-enriched chick retinal cell cultures: characterization and inhibition by dopamine. 169 44

Adenylate cyclase activity can be stimulated in goldfish retina by forskolin, GTP, NaF, dopamine and serotonin. Pharmacological characterisation of the dopamine and serotonin responses shows them to be mediated through specific receptors. A synergistic increase in the level of C-AMP is observed following application of forskolin together with NaF, GTP, dopamine, or serotonin. Dopamine and serotonin with or without GTP produce an additive response. When NaF and GTP are both together their combined effect in elevating C-AMP levels in the presence or absence of forskolin is less than additive. These results suggest that forskolin may be interacting with a Gs protein as well as directly stimulating adenylate cyclase. Increases in the level of C-AMP observed following application of forskolin or dopamine are decreased by carbachol in a dose-dependent manner. The carbachol response is blocked by pertussis toxin and is insensitive to the phosphodiesterase inhibitor, IBMX, suggesting an involvement of a Gi protein. Carbachol attenuation of elevated C-AMP levels is inhibited by atropine while pirenzapine has little effect suggesting the presence of a M2-type receptor.
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PMID:Effects of GTP, forskolin, sodium fluoride, serotonin, dopamine, and carbachol on adenylate cyclase in Teleost retina. 169 28

Dopamine or agonists with D1 receptor potency stimulated cyclic AMP (cAMP) accumulation in whole cell preparations of NS20Y neuroblastoma cells. The accumulation of cAMP after D1 stimulation was rapid and linear for 3 min. Both dopamine and the novel D1 receptor agonist dihydrexidine stimulated cAMP accumulation two- to three-fold over baseline. The pseudo-Km for dopamine was approximately 2 microM, whereas for dihydrexidine it was approximately 30 nM. The effects of both drugs were blocked by either the D1-selective antagonist SCH23390 (Ki, 0.3 nM) or the nonselective antagonist (+)-butaclamol (Ki, 5 nM). Both (-)-butaclamol and the D2-selective antagonist (-)-sulpiride were ineffective (Ki greater than 3 microM). Forskolin (10 microM), prostaglandin E1 (1 microM), and adenosine (10 microM) also stimulated cAMP accumulation, but none were antagonized by SCH23390 (1 microM). Finally, muscarinic receptor stimulation (100 microM carbachol) inhibited both D1- and forskolin-stimulated increases in cAMP accumulation by 80%. The present results indicate that NS20Y neuroblastoma cells have D1 receptors that are coupled to adenylate cyclase, and that these receptors have a pharmacological profile similar to that of the D1 receptor(s) found in rat striatum.
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PMID:D1 dopamine receptors of NS20Y neuroblastoma cells are functionally similar to rat striatal D1 receptors. 171 49

Following the elementary laws of hemodynamics and the functional characteristics of the renal myogenic and macula densa-mediated (TGF) vascular resistance control mechanisms, TGF-mediated changes of renal vascular resistance are amplified by cooperative changes of the myogenic mechanism. Myogenically induced changes, on the other hand, would be antagonized by TGF. Resetting of renal vascular flow resistance by alterations to the TGF mechanisms might thus be more effective than alterations to the myogenic mechanism. Dopamine and adenosine, two autacoids occurring normally in the tubular fluid, may play a key role in operating such a resetting mechanism. Dopamine and adenosine were found in proximal tubular fluid at concentrations of 10(-8) and 0.5 10(-6) M respectively. Dopamine inhibits the tubuloglomerular feedback mechanism, this inhibition is antagonized concentration-dependently by adenosine. These effects most likely occur via D1 and A1 receptors and hence by regulation of the adenyl cyclase activity in the macula densa cells. The balance between adenosine and dopamine in tubular fluid appears to be under the control of extrarenal parameters. In normal rats, high dietary salt intake, by influencing the secretion of an unknown adrenal hormone, and inhibition of Na-K-ATPase might be of importance. In spontaneously hypertensive rats unknown genetic parameters may also play a role.
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PMID:Renal blood flow control by tubuloglomerular feedback (TGF) in normal and spontaneously hypertensive rats--a role for dopamine and adenosine. 175 81

An aspartate residue corresponding to aspartate-80 of dopamine D2 receptors is strictly conserved among receptors that couple to guanine nucleotide-binding proteins. Mutation of this residue alters the function of several classes of neurotransmitter receptors. Dopamine D2 receptors couple to the guanine nucleotide-binding protein Gi to inhibit adenylyl cyclase (ATP-pyrophosphate-lyase, cyclizing; EC 4.6.1.1). Like other Gi-coupled receptors, the binding of agonists and some antagonists to D2 receptors is sensitive to pH and sodium. In the present report, we demonstrate that substitution of an alanine or glutamate residue for aspartate-80 severely impairs inhibition of adenylyl cyclase by D2 receptors and also abolishes or decreases the regulation of the affinity of D2 receptors for agonists and substituted benzamide antagonists by sodium and pH. Our data support the hypothesis that the conformation of D2 receptors is maintained by interactions of monovalent cations with aspartate-80. The regulation of D2 receptors by this interaction has important consequences for the affinity of D2 receptors for ligands and for signal transduction by D2 receptors.
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PMID:Pivotal role for aspartate-80 in the regulation of dopamine D2 receptor affinity for drugs and inhibition of adenylyl cyclase. 182 58

The regulation of cellular responsiveness to dopamine via the D2 dopamine receptor was investigated in mouse fibroblast Ltk-cells stably expressing the rat D2-short receptor [Nature (Lond.) 336:783-787 (1988)]. Dopamine inhibited forskolin-stimulated cAMP levels in these cells (half-maximal inhibition at 3.9 +/- 1.1 nM), and the inhibition by dopamine was blocked by D2 antagonists and was pertussis toxin sensitive. Treatment of these cells with the D2 agonist quinpirole (1 microM) resulted in desensitization of dopaminergic inhibition of forskolin-stimulated cAMP accumulation, with a approximately 4-fold decrease in the potency of dopamine after 1 hr of treatment. No significant changes in total cellular D2 receptor concentrations were observed, even after prolonged agonist treatment. At longer time points, basal and forskolin-stimulated cellular cAMP levels were increased in treated cells. The effect of D2 agonist treatment on membrane adenylyl cyclase (EC 4.6.1.1) activity was examined. Basal and forskolin- and prostaglandin E1-stimulated adenylyl cyclase activities were increased by quinpirole treatment for 24 hr. This sensitization of adenylyl cyclase was blocked by the presence of a D2 antagonist. Pertussis toxin pretreatment blocked the sensitization of adenylyl cyclase by quinpirole, although pertussis toxin also caused increased adenylyl cyclase activity on its own. Sensitization was not dependent upon dopaminergic inhibition of intracellular cAMP levels, because quinpirole treatment in the presence of membrane-permeable cAMP analogs or 3-isobutyl-1-methylxanthine (an inhibitor of cAMP phosphodiesterase) resulted in greater sensitization of adenylyl cyclase activity than quinpirole treatment alone. These results suggest that, in this model system, responsiveness to dopamine via the D2 receptor is regulated by both desensitization of receptor function and sensitization of the stimulatory adenylyl cyclase pathway.
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PMID:Regulation of responsiveness at D2 dopamine receptors by receptor desensitization and adenylyl cyclase sensitization. 184 20

The effect of the antihypertensive drug IP66 on dopamine-induced vasodilatation has been investigated in isolated perfused rat mesenteric bed. Experiments were carried out in phenoxybenzamine-pretreated preparations to avoid the involvement of alpha-adrenoceptors. Dopamine (1-100 microM) elicited a concentration-dependent relaxation of high-K(+)-induced vasoconstriction, which was resistant to propranolol (3 microM), but antagonized by the DA1-receptor antagonist SCH 23390 (0.1 microM). However, the dopamine-vasodilating component resistant to SCH 23390 (0.1 microM) could be abolished by simultaneous administration of propranolol. Thus, dopamine-induced vasodilatation is mainly ascribable to stimulation of DA1-receptors, although an action on beta 2-adrenoceptors might contribute as well. In presence of IP66 (10 nM), dopamine-induced vasodilatation was significantly enhanced. This amplifying activity was not observed with prazosin and it was blocked by propranolol (3 microM) but unaffected by SCH 23390 (0.1 microM) or by chemical sympathectomy. Furthermore, IP66 (10 nM) also increased, in a significant manner, the amplitude of vasodilatation elicited by the beta 2-adrenoceptor agonist terbutaline, both in rat mesenteric bed and in rat aortic strips. In rat aortic membranes, IP66 (10 nM) enhanced the stimulatory effect of terbutaline (1 microM) on adenylate cyclase activity. In conclusion, IP66 is able to enhance the vasodilatation of rat mesenteric vasculature induced by dopamine or terbutaline. It is proposed that this action might be consequent to an increase in efficiency of the coupling between beta 2-adrenoceptors and membrane adenylate cyclase.
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PMID:IP66 (1[2-ethoxy-2-(3'-pyridyl)ethyl]-4-(2'-methoxy-phenyl)piperazine) enhances beta-adrenoceptor-induced vasodilatation in rat mesenteric vascular bed. 196 68

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