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)

Prostacyclin and adenosine A2 receptors stimulate adenylate cyclase activity in the related somatic hybrid cell lines NG108-15 and NCB20. The role of cAMP in the desensitization of these receptors has been examined. Pretreatment for 17 h with forskolin or 8-bromo-cAMP had the same effect in both cell lines. There was no change in the response to sodium fluoride or forskolin, suggesting that the function of Gs and adenylate cyclase were unaffected by increased levels of cAMP. Receptor responses were affected however; the maximum response to N-ethylcarboxamidoadenosine (an A2 receptor agonist) was reduced by 30-40%, there was a small but consistent shift to the right of the dose-response curve for iloprost (a stable analogue of prostacyclin) and [3H]iloprost binding studies revealed a loss of prostacyclin receptors. However, the loss of receptor responsiveness was much smaller than that which occurs following pretreatment with prostacyclin or adenosine A2 receptor agonists (Keen et al. (1989) Biochem. Pharmacol. 38, 3827-3833; Kelly et al. (1990) Br. J. Pharmacol. 99, 309-316) suggesting that cAMP may not play a major role in agonist mediated desensitization.
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PMID:Cyclic AMP produces desensitization of prostacyclin and adenosine A2 receptors in hybrid cell lines but does not affect Gs function. 137 31

Both extracellular guanosine and adenosine stimulated astrocyte proliferation in vitro and increased intracellular cAMP 6-fold within 2 min. The effects of both guanosine and adenosine on proliferation and cAMP levels were inhibited by antagonists of adenosine A2 receptors but augmented by A1 receptor antagonists. The correlation between cAMP accumulation and stimulation of cell proliferation by adenosine and guanosine indicates that increased intracellular cAMP may be one of the second messengers involved in these effects. Guanosine is not an adenosine A2 receptor agonist and does not activate adenylate cyclase. It may exert its effects indirectly by increasing the endogenous extracellular adenosine concentration.
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PMID:Extracellular guanosine increases astrocyte cAMP: inhibition by adenosine A2 antagonists. 166 70

In the human T-cell line, Jurkat, the accumulation of cyclic AMP induced by adenosine is enhanced by tumor-promoting phorbol esters, whereas prostaglandin E2 receptor-stimulated cAMP accumulation is antagonized (Nordstedt et al. 1989). In the present study we examine the involvement of pertussis toxin sensitive guanine nucleotide binding proteins (G-proteins) in producing the phorbol ester effects. Pertussis toxin pretreatment of the Jurkat cells invariably caused an ADP ribosylation of two G-proteins that inhibit adenylyl cyclase, tentatively identified as Gi2 and Gi3, using Western blots. Pertussis toxin treatment had little effect on basal cAMP accumulation, but sometimes inhibited, sometimes stimulated agonist and cholera toxin induced cAMP accumulation. The latter effect was not mimicked by the B-oligomer. Irrespective of whether pertussis toxin stimulated or inhibited NECA and cholera toxin-induced cAMP accumulation it could not block the effect of phorbol-12,13-dibutyrate (PDBu). The inhibitory effect of PDBu on prostaglandin E2-induced cAMP accumulation was, however, invariably eliminated by pertussis toxin treatment. In conclusion, activation of protein kinase C by phorbol esters reveals a Gi-mediated prostaglandin E receptor-induced inhibition of adenylate cyclase in addition to the prostaglandin E receptor-mediated stimulation of cAMP accumulation in Jurkat cells. The enhancement of adenosine A2 receptor stimulated cAMP accumulation by PDBu, on the other hand, does not involve a PTX sensitive Gi-protein.
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PMID:Role of a pertussis toxin sensitive G-protein in mediating the effects of phorbol esters on receptor activated cyclic AMP accumulation in Jurkat cells. 166 31

Radioligand binding studies of N6-substituted adenosines at the A1 and A2 adenosine receptors of rat brain cortex and rat brain striatum, respectively, show that a 2-chloro substituent does not consistently change the affinity or the selectivity of these analogues for the A1 receptor. A 2-chloro substituent lowers the characteristic stereoselectivity of the A1 receptor toward the R diastereomer of N6-(1-phenyl-2-propyl)adenosine. A 2-chloro substituent consistently increases potency of N6-substituted adenosines as agonists at an adenosine A2 receptor stimulatory to adenylate cyclase in PC12 cell membranes.
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PMID:Activity of N6-substituted 2-chloroadenosines at A1 and A2 adenosine receptors. 176 3

The relationship of adenotin, a low-affinity adenosine-binding protein, to adenosine receptors was examined in two human tissues and two mammalian cultured cell lines. An adenosine A2 receptor exists in the membranes from platelets, PC-12 cells, and JAR cells as shown by a stimulation of adenylate cyclase related to 5'-N-ethylcarboxamidoadenosine (NECA) or a NECA-related increase in intracellular cAMP levels. In contrast, binding studies with tritiated NECA revealed typical adenotin-like low-affinity binding sites on the membranes from the sources studied with agonist potencies as follows: NECA greater than 2-chloroadenosine greater than R-PIA. No evidence was found of coupling to a guanine nucleotide regulatory protein. Solubilization of platelet and placental membranes and precipitation with polyethylene glycol separated adenotin or the adenotin-like protein from a second adenosine binding site in each tissue. The pharmacologic properties of the precipitated binding sites were compatible with an adenosine A2 receptor in platelets and an adenosine A1 receptor in placenta. Our observations indicate that adenotin-like proteins exist outside the placenta. In addition, adenotin and adenotin-like proteins coexist with the adenosine A1 or A2 receptor in a number of cells and tissues and do not couple to a guanine nucleotide regulatory protein and stimulate adenylate cyclase. Therefore, adenotin is pharmacologically distinct from adenosine receptors, and its function remains to be discovered.
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PMID:Adenotin and adenotin-like proteins coexist with adenosine receptors in mammalian tissues. 184 70

To investigate the roles of adenosine A1 and A2 receptors in the regulation of aldosterone production, we examined the effects of adenosine and adenosine agonists (N6-cyclohexyl adenosine; selective adenosine A1 receptor agonist and 5'-N-ethylcarboxamine adenosine; selective adenosine A2 receptor agonist) on aldosterone and cyclic AMP production in rat adrenal capsular cells. Neither adenosine nor 5'-N-ethylcarboxamine adenosine caused significant effects on basal aldosterone or cyclic AMP production. Also, adenosine (10(-3) M) showed no consistent effects on aldosterone and cyclic AMP production induced by ACTH. On the other hand, N6-cyclohexyl adenosine exhibited a significant inhibition of basal aldosterone and cyclic AMP production at doses of 10(-4) M and 10(-3) M; furthermore, 10(-3) M N6-cyclohexyl adenosine inhibited aldosterone and cyclic AMP production stimulated by ACTH. These results suggest that adenosine A1 receptors are coupled to and inhibit adenylate cyclase and may be involved in the inhibition of aldosterone production.
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PMID:Role of adenosine A1 and A2 receptors in the regulation of aldosterone production in rat adrenal glands. 216 55

The influence of adenosine analogs on adenylate cyclase activity was investigated in membrane preparations of luteinized ovaries and in cell homogenates of isolated luteal cells. The adenosine receptor agonist 5'-(N-ethyl)-carboxamido adenosine (NECA) dose-dependently stimulated adenylate cyclase activity in membrane preparations of 5-day-old luteinized ovaries with an apparent EC50 of 0.58 microM. The other adenosine analogs tested were less potent in stimulating the adenylate cyclase activity with the following rank order of potency: NECA less than 2-chloro-adenosine greater than N6-(R-phenyl-isopropyl)- adenosine less than N6 -(S-phenyl-isopropyl)-adenosine. In homogenates of isolated cells from 5-day-old corpora lutea, NECA stimulated adenylate cyclase with the same EC50 as in the membranes from luteinized ovaries. The effect of NECA was antagonized by the adenosine receptor antagonist 8-phenyltheophylline. In incubated luteal cells of both 2- and 5- to 6-day-old luteinized ovaries, NEC stimulated cyclic adenosine 3', 5'-monophosphate (cAMP) accumulation and markedly potentiated luteinizing hormone-stimulated cAMP accumulation. Progesterone synthesis was also stimulated by NECA in incubated cells. The study demonstrates effects of adenosine analogs on adenylate cyclase and cAMP accumulation that fulfill the criteria for adenosine A2 receptor-mediated effects in luteal cells and membranes. These data suggest that adenosine may have a local regulatory action in luteal tissue through adenosine receptor activation.
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PMID:Adenosine receptor-mediated effects on adenylate cyclase activity in rat luteal tissue: a putative local regulatory role of adenosine in the corpus luteum. 253 63

Production of cAMP in response to adenosine A2 or prostaglandin E1 receptor stimulation was, but the production induced by a beta-adrenergic agonist or forskolin was not, enhanced by prior exposure of Swiss 3T3 fibroblasts to agonists of Ca2+-mobilizing receptors or phorbol ester for 3 h. The enhancement reflected potentiation of the receptor-coupled activation of adenylate cyclase and the 2-fold increase in the adenosine A2 receptor number in membranes under these conditions. No enhancement was observed, however, when the medium used for the prior exposure was further supplemented with 1-(5-isoquinolinesulfonyl)-2-methylpiperazine (H-7) or staurosporin, inhibitors of protein kinase C, neither of which affected the cAMP responses of the nonexposed cells. It is very likely, therefore, that activation of protein kinase C triggers the increase in certain receptor density in membranes, thereby enhancing the receptor-coupled cAMP-generating responses. The physiological significance of such cross-talk between cellular signaling systems is discussed in comparison with similar previous observations.
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PMID:Enhancement of adenosine A2 and prostaglandin E1 receptor-mediated cAMP generation by prior exposure of Swiss 3T3 fibroblasts to Ca2+-mobilizing receptor agonists or phorbol ester. Activation of protein kinase C triggers increases in the receptor density in cell membranes. 254 55

In the present study the possible dual effects of adenosine as substrate and adenosine receptor agonist in rat granulosa cells, cumulus-oocyte complexes, luteal cells and ovarian membranes are discussed. Adenosine is an indispensable compound in cell energy metabolism, as precursor to cofactors, second messenger and nucleic acids. Adenosine is also an agonist to adenosine receptors. The adenosine receptor can either inhibit (A1) or stimulate (A2) adenylate cyclase. Alternatively, in some cells adenosine receptor activation is linked to other cellular events like inhibition of Ca2+ fluxes. Adenosine is taken up by isolated preovulatory granulosa and luteal cells from pregnant mare serum gonadotropin-treated immature rats, but follicle stimulating hormone (FSH) decreases the uptake by granulosa cells. Adenosine, but not the non-metabolizable adenosine analogs 5'-(N-ethyl)carboxamide-adenosine (NECA), 2-chloro-adenosine (2-Clado), N6-(R-phenyl-isopropyl)-adenosine (R-PLA) and N6-(S-phenyl-isopropyl)-adenosine (S-PLA), increase granulosa cell ATP levels. FSH and luteinizing hormone (LH) decrease granulosa cell ATP levels in the presence or absence of adenosine. It has previously been shown that FSH and LH decrease oxygen consumption by cumulus-oocyte complexes and increase their lactate production. These effects have been suggested to be due to a competition of cofactors (e.g. ADP) common to glycolysis and the respiratory chain. The fact that adenosine reverse the gonadotropin-induced effects on oxygen consumption and lactate production support this theory. Adenosine and its analogs increase cAMP accumulation in luteal and granulosa cells only in the presence of gonadotropins, and this effect is antagonized by the adenosine receptor antagonist 8-phenyl-theophylline (8-PHT). Furthermore, adenylate cyclase is stimulated by adenosine analogs in membranes from non-luteinized and luteinized ovarian membranes and in luteal cell homogenates. The effect of NECA is antagonized by 8-PHT. In the membranes, the rank order of potency was NECA greater than 2-Clado greater than R-PLA greater than S-PLA, suggesting adenosine A2 receptors. In summary, it is suggested that adenosine can act both as a substrate to intracellular metabolism and as an adenosine A2 receptor agonist in granulosa and luteal cells. A paracrine short loop positive feedback model is proposed where extracellular adenosine, derived from a gonadotropin-induced extracellular increase in cAMP and a decrease in cellular ATP, enhances gonadotropin stimulation in granulosa and luteal cells.
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PMID:Adenosine as substrate and receptor agonist in the ovary. 255

We have previously reported that, 30 min after a single injection of 7.5 mg/kg d-amphetamine sulfate, there was a significant 25% decrease in the apparent Vmax for stimulation of adenylate cyclase activity by the D1 receptor-selective partial agonist SKF 38393 in rat striatal membranes, as compared with saline-injected controls. This desensitization was seen in the striatal but not the mesolimbic forebrain. In the present study this desensitization was further characterized by using various ligands that interact with the three components of the D1 receptor-coupled adenylate cyclase complex to determine the site of modification that resulted in the desensitization. The desensitization was not associated with a change in the stimulation of adenylate cyclase at the level of the catalytic subunit or the guanyl nucleotide-regulatory protein Ns. Receptor number, as assessed by the binding of the D1 selective antagonist [3H]SCH 23390, was unaltered in the desensitized state. In contrast, the number of high affinity binding sites, as measured with the agonist [3H]dopamine was decreased 30% by acute amphetamine exposure. This suggests that the amphetamine-induced desensitization may be the result of an uncoupling of the receptor from Ns. In order to further assess the effects of amphetamine on receptor/Ns coupling, we measured the ability of the guanyl nucleotide guanosine-5'-(beta,gamma-imido)triphosphate [Gpp(NH)p] to decrease high affinity [3H]dopamine binding to striatal membranes. The inclusion of 100 microM Gpp(NH)p in the assay decreased the number of receptors in the high affinity state by 40% and 52% in membranes from saline- and amphetamine-pretreated rats, respectively. These results imply that amphetamine treatment does not modify the ability of Gpp(NH)p to decrease high affinity agonist binding. It is possible that amphetamine treatment decreases the number of receptors that can couple to Ns but the remaining receptors can still form a high affinity complex and are sensitive to the effects of Gpp(NH)p. We also report that maximal D2 dopamine receptor-mediated inhibition of forskolin-stimulated adenylate cyclase activity was decreased in striatal membranes prepared from amphetamine-treated rats as compared with saline-injected controls, implying that the D2 pathway was desensitized by amphetamine treatment. Conversely, acute amphetamine injection did not alter the ability of either the adenosine A2 receptor to stimulate or the muscarinic cholinergic receptor to inhibit adenylate cyclase activity in the rat striatum. These results suggest that acute amphetamine treatment produces a dopamine receptor-specific or homologous desensitization.
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PMID:Acute in vivo amphetamine produces a homologous desensitization of dopamine receptor-coupled adenylate cyclase activities and decreases agonist binding to the D1 site. 256 6

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