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)

Adenosine analogs were used to investigate the cellular mechanisms by which adenosine may alter renal tubular function. Cultured rabbit cortical collecting tubule (RCCT) cells, isolated by immunodissection, were treated with 5'-N-ethylcarboxamideadenosine (NECA), N6-cyclohexyladenosine (CHA), and R-N6-phenylisopropyladenosine (PIA). All three analogs produced both dose-dependent inhibition and stimulation of RCCT cell cyclic AMP (cAMP) production. Stimulation of cAMP accumulation occurred at analog concentrations of 0.1 microM to 100 microM with the rank order of potency NECA greater than PIA greater than CHA. Inhibition occurred at concentrations of 1 nM to 1 microM with the rank order of potency CHA greater than PIA greater than NECA. These effects on cAMP production were inhibited by 1,3-diethyl-8-phenylxanthine and isobutylmethylxanthine. CHA (50 nM) blunted AVP- and isoproterenol-stimulated cAMP accumulation. This modulation of hormone-induced cAMP production was abolished by pretreatment of RCCT cells with pertussis toxin. Prostaglandin E2 production was unaffected by 0.1 mM CHA. These findings indicate the presence of both inhibitory (A1) and stimulatory (A2) receptors for adenosine in RCCT cells. Moreover, occupancy of the A1 receptor causes inhibition of both basal and hormone-stimulated cAMP formation through an action on the inhibitory guanine nucleotide-binding regulatory component, Ni, of the adenylate cyclase system.
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PMID:A1 and A2 adenosine receptors in rabbit cortical collecting tubule cells. Modulation of hormone-stimulated cAMP. 243 28

In cultured porcine thyroid cells, during 60 min incubation phorbol 12-myristate 13-acetate (PMA) had no effect on basal cyclic AMP accumulation and slightly stimulated cyclic AMP accumulation evoked by thyroid stimulating hormone (TSH) or forskolin. Cholera toxin-induced cyclic AMP accumulation was significantly stimulated by PMA. On the other hand, cyclic AMP accumulation evoked by prostaglandin E1 or E2 (PGE1 or PGE2) was markedly depressed by simultaneous addition of PMA. These opposing effects of PMA on cyclic AMP accumulation evoked by PGE and cholera toxin were observed in a dose-related fashion, with half-maximal effect of around 10(-9) M in either case. The almost same effects of PMA on cyclic AMP accumulation in basal and stimulated conditions were also observed in freshly prepared thyroid cells. The present study was performed in the presence of phosphodiesterase inhibitor, 3-iso-butyl-1-methylxanthine (IBMX), indicating that PMA affected adenylate cyclase activity. Therefore, it is suggested that PMA may modulate the production of cyclic AMP in response to different stimuli, possibly by affecting several sites in the adenylate cyclase complex in thyroid cells.
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PMID:Phorbol esters modulate cyclic AMP accumulation in porcine thyroid cells. 245 71

A widely accepted notion is that an increasing cellular cyclic AMP (cAMP) concentration is prerequisite for increasing tyrosinase activity and melanin synthesis and for regulating proliferation of pigment cells. alpha-Melanocyte stimulating hormone (alpha-MSH) increases cAMP and tyrosinase activity in Cloudman melanoma cells. Prostaglandins (PGs) E1 and E2 increase melanoma cell tyrosinase activity and inhibit proliferation. Both PGs, but not alpha-MSH, block the progression of Cloudman melanoma cells from G2 phase of the cell cycle into M or G1. Only PGE1 and not PGE2 causes an elevation of cellular cAMP concentrations. The adenylate cyclase inhibitor 2',5'-dideoxyadenosine (DDA) at 5 x 10(-4) M effectively blocks the increased cAMP synthesis by cells treated with 10 micrograms/ml PGE1. The addition of DDA, however, enhances the melanogenic response of melanoma cells to 10 micrograms/ml PGE1 or PGE2, 10(-7) M alpha-MSH, 10(-4) M isobutylmethylxanthine, 10(-4) M dibutyryl cyclic AMP. DDA also augments the effects of PGE1 or PGE2 on the melanoma cell cycle. Moreover, when DDA is added concomitantly with alpha-MSH, more cells are recruited into G2 than observed in untreated controls. Neither alpha-MSH nor DDA alone has any effect on the cell cycle. These findings undermine the role of cAMP in the melanogenic process and suggest that blocking melanoma cells in G2 may be required for the remarkable stimulation of tyrosinase activity observed with PGE1 or PGE2 alone or in combination with DDA. The observed block in G2 may be essential for the synthesis of sufficient mRNA, which is required for stimulation of tyrosinase activity.
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PMID:Stimulation of Cloudman melanoma tyrosinase activity occurs predominantly in G2 phase of the cell cycle. 246 5

C1-inhibitor (C1-inh) is synthesised and secreted by at least four cell types: hepatocytes, mononuclear phagocytes, fibroblasts and umbilical vein endothelial cells. The production of this protein by monocytes/macrophages and Hep G2 cells has been studied in great detail. Environmental factors alter C1-inh synthesis by these cells. A number of agents which inhibit monocyte C1-inh production (such as histamine, PGE2 C5a des arg and serum treated immune complexes) bind to membrane receptors, activate adenylate cyclase, elevate intracellular cAMP and activate cAMP-dependent protein kinase. Elevation of monocyte cAMP levels is associated with decreased C1-inh secretion by these cells and reduced C1-inh mRNA levels. These changes can be seen within 8 hours of exposure. Stimulation of monocyte C1-inh synthesis occurs after the addition of agents which induce the formation of sodium ion and calcium ion channels, activate the phosphatidyl inositol cycle and activate protein kinase C (immune-complexes, carbamylcholine and phenylephrine). Agents which act directly on protein kinase C (phorbol myristate acetate) also stimulate C1-inh synthesis. Amongst the most potent stimulators of monocyte and Hep G2 C1-inh synthesis are the interferons (Ifns) Ifn alpha, Ifn beta and Ifn gamma. These are known to bind to specific receptors on cells (Ifn alpha and beta binding to Type I Ifn receptors and Ifn-gamma binding to type II Ifn receptors). At least two mechanisms by which Ifn receptor-ligand interaction elicit their effects exist. These are: 1) binding of an activated receptor transducer/regulatory component to specific DNA sequences on Ifn sensitive genes; 2) the activation of protein kinase C and binding of its regulatory components to specific DNA sequences. Ifn alpha, beta and gamma cause a dose related increase in monocyte and Hep G2 cell C1-inh mRNA abundance and protein synthesis. Ifn-gamma is the most potent of the interferons on monocyte C1-inh synthesis. Ifn alpha and beta being less effective but equipotent. These cytokines elicit their maximum effect on monocyte C1-inh synthesis after 1-2 hours treatment. This rapid stimulation of monocyte C1-inh synthesis suggests that this increases the transcription of the C1-inh gene. After removal of Ifns from monocytes the elevated C1-inh mRNA levels subside towards control levels of expression in Ifn alpha and beta-treated cells but remain elevated in Ifn-gamma-treated monocytes. This binding suggests that Ifn-gamma alters the stability of C1-inh mRNA.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Regulation of C1-inhibitor synthesis by interferons and other agents. 247 16

1. Membrane currents were recorded from voltage clamped Xenopus laevis oocytes, still surrounded by follicular cells, theca and enveloping inner ovarian epithelia (ovarian follicles). 2. Superfusing follicles with frog Ringer solution containing E-series prostaglandins (PGE1 or PGE2) or oxytocin (0.5-2 microM) generated slow membrane currents arising from an increase in membrane conductance to K+. 3. Follicles taken from different frogs varied greatly in responsiveness to PGE and oxytocin. For example, enclosed oocytes with good sensitivity to prostaglandins responded to 1 nM-PGE, whereas follicles from some frogs failed to respond at 5 microM. 4. Oocytes with good responsiveness to PGE also produced K+ currents to PGA1, PGA2, PGB1, 11-deoxy-PGE1 and 11-beta-PGE2, whereas PGF2 alpha, PGI2, PGD2 and 8-iso-PGE1 generally failed to elicit membrane currents. 5. Responses to PGE and oxytocin were mimicked by the adenylate cyclase activator forskolin or by intraoocyte pressure injection of cyclic nucleotides. Responses were potentiated by the phosphodiesterase inhibitors theophylline and 3-isobutyl-1-methylxanthine (IBMX). In IBMX (0.5 mM), human atrial natriuretic factor (ANF) (10-60 nM) elicited a similar K+ conductance. This all implied that cyclic nucleotides played a role in the receptor-channel coupling mechanism of these responses. 6. Defolliculating oocytes effectively abolished responses to prostaglandins, oxytocin and ANF, suggesting that the currents arise in follicular cells. 7. The responses of PGE, oxytocin and ANF thus resembled currents elicited by catecholamines, adenosine, gonadotrophins and vasoactive intestinal peptide (VIP). However, PGE, oxytocin and ANF responses were not blocked by catecholaminergic or purinergic antagonists. Moreover, when comparing follicles isolated from different frogs, the sensitivity to PGE and oxytocin varied independently of that to gonadotrophin or VIP. These experiments suggest that Xenopus ovarian follicles contain specific and distinct receptors for PGE, oxytocin and ANF. 8. Acetylcholine attenuated the cyclic nucleotide-mediated K+ responses, including currents elicited by PGE, oxytocin and ANF. Attenuation was not dependent on, or mimicked by, activation of the inositol phosphate-diacylglycerol messenger pathways located in the oocyte itself, nor was it appreciably blocked by loading follicle-enclosed oocytes with 0.1-1.5 mM-EGTA.
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PMID:Membrane currents elicited by prostaglandins, atrial natriuretic factor and oxytocin in follicle-enclosed Xenopus oocytes. 248 34

Synthesis, conversion, specific binding sites for PGI2, PGE1 and PGD2 and adenylate cyclase activity were evaluated in rat brain microvessels. All PG's investigated enhance adenylate cyclase activity dose-dependently. PGE1 and PGD2 were the major PG's formed by microvessels, in contrast to rat aortic tissue, generating predominantly 6-keto-PGF1 alpha, the stable degradation product of PGI2. On the contrary, RIA demonstrates that rat cerebral microvessels form predominantly 6-keto-PGF1 alpha (from endogenous precursor), followed by PGE2 and PGD2. PG actions on microvasculature are supposed to be predominantly mediated by adenylate cyclase linked receptors and there is good evidence for a central role of PGI2 and PGD2 in local regulation of the microcirculation.
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PMID:[Prostaglandin receptors and prostaglandin metabolism in the terminal circulation of the brain]. 251 95

Prostaglandin E (PGE) receptor is coupled to a pertussis toxin-insensitive GTP-binding protein in bovine adrenal medulla, but PGE receptor partially purified from bovine adrenal medulla was functionally reconstituted with Gi into phospholipid vesicles (Negishi, M., Ito, S., Yokohama, H., Hayashi, H., Katada, T., Ui, M., and Hayaishi, O. (1988) J. Biol. Chem. 263, 6893-6900). We demonstrate here that PGE2 inhibited forskolin-induced accumulation of cAMP in cultured bovine chromaffin cells. In plasma membranes prepared from bovine adrenal medulla, PGE2 inhibited forskolin-stimulated adenylate cyclase activity in a GTP-dependent manner. This inhibitory action of PGE2 was abolished by treatment of the membrane with pertussis toxin. Reconstitution of the membranes ADP-ribosylated by pertussis toxin with Gi purified from bovine brain restored the potency of PGE2 to inhibit the adenylate cyclase activity. Inhibition of forskolin-induced cAMP accumulation by PGE2 was also abolished by exposure to the toxin in the cells, indicating that PGE receptors are coupled to Gi. In contrast, PGE2 stimulated the formation of inositol phosphates in chromaffin cells, but this effect was not affected by treatment of the cells with pertussis toxin, suggesting that the PGE receptors are coupled to phosphoinositide metabolism via a pertussis toxin-insensitive G-protein. Both the inhibitory action of cAMP accumulation and stimulation of phosphoinositide metabolism were specific for PGE1 and PGE2, and the Scatchard plot analysis of PGE2 binding to the membrane showed a single high-affinity binding site (Kd = 2 nM). In bovine adrenal chromaffin cells PGE2 enhanced catecholamine release in the presence of ouabain by stimulation of phosphoinositide metabolism (Yokohama, H., Tanaka, T., Ito, S., Negishi, M., Hayashi, H., and Hayaishi, O. (1988) J. Biol. Chem. 263, 1119-1122). We further examined the modulation of catecholamine release by PGE2 through its inhibitory coupling to the adenylate cyclase system. Prior exposure of chromaffin cells to forskolin or dibutyryl-cAMP reduced nicotine-stimulated catecholamine release, and PGE2 attenuated forskolin-induced inhibition of catecholamine release stimulated by nicotine, but not dibutyryl-cAMP-induced inhibition. In the absence of evidence that PGE receptor subtypes exist, these results suggest that the PGE receptor is coupled to two signal transduction systems leading to inhibition of cAMP accumulation via Gi and to production of inositol phosphates via a pertussis toxin-insensitive G-protein, both of which may modulate catecholamine release from bovine chromaffin cells.
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PMID:Prostaglandin E receptors in bovine adrenal medulla are coupled to adenylate cyclase via Gi and to phosphoinositide metabolism in a pertussis toxin-insensitive manner. 253 96

E-series prostaglandins (PGs) inhibit glucagon-stimulated cyclic AMP accumulation in hepatocytes as well as glucagon-stimulated glycogenolysis and fatty acid oxidation. The present study was designed to test the hypothesis that this inhibition occurs via interactions with a plasma membrane PGE2 receptor coupled to adenylate cyclase. PGE2 receptors in rat liver plasma membranes were examined using competitive binding studies [( 3H]PGE2 vs. PGE1). Binding data were analyzed to determine the number of apparent binding sites and the PGE dissociation constant (Kd) at each site. Rat liver plasma membranes contained two classes of binding sites with Kd values of 9.9 X 10(-10) and 8 X 10(-9) M. Addition of the GTP-analog guanyl-5'-6'-imidodiphosphate (0.1 mM) altered the PGE2 binding such that a single class of sites with low affinity (Kd = 4 X 10(-9) M) was observed. Similarly, liver plasma membranes isolated from rats pretreated with pertussis toxin contained only a single class of PGE2 binding sites in the absence of guanyl-5'-6'-imidodiphosphate (Kd = 3.4 X 10(-9) M). PGE2 (10(-10) M) inhibited liver membrane adenylate cyclase activity stimulated by forskolin (by 57%) and glucagon (by 24%). This inhibition was not observed in membranes isolated from rats treated with pertussis toxin. Thus, the present studies demonstrate that PGE binding to its hepatic receptors is regulated by a pertussis toxin sensitive guanine nucleotide binding protein coupled to inhibition of adenylate cyclase.
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PMID:Coupling of hepatic prostaglandin receptors to adenylate cyclase through a pertussis toxin sensitive guanine nucleotide regulatory protein. 253 66

In the present paper we have examined the properties of the prostaglandin E (PGE) receptor in a transplantable rat Leydig cell tumour (H-540). It appears that PGE1 and PGE2 share a common receptor in membrane particles from this Leydig cell tumour. From saturation analysis and modified Hofstee plots, the specific binding sites for PGE1 can be divided into a high (25%) and low affinity state (75%) with apparent equilibrium constants of dissociation (Kd) of 2.4.10(-7) mol/l and 4.4.10(-6) mol/l, respectively. Association rate kinetics at different temperatures employing 5.10(-9) mol/l [3H]PGE1 showed that specific binding was time- and temperature-dependent. At 37 degrees C an apparent steady state was achieved after approximately 4 h incubation. The binding of [3H]PGE1 was very tight and no dissociation was observed at 20 degrees C during the first 20 h. The free PGE1 receptor appears to be very unstable. Binding was reduced rapidly by storage at 0 degrees C, by freezing and thawing of membrane particles, and by incubation of concentrated membrane particles. Specificity curves showed that PGA1 and PGA2 displaced [3H]PGE1 from receptor to a somewhat lesser degree than PGE2 and PGE1, whereas PGs of the B, D, I and F series had little or no effect. The fact that inhibition of [3H]PGE1 binding by cold PGE1 occurred in the same concentration range as PGE1 activation of adenylate cyclase, indicates that the specific binding of PGE observed here represents functional receptors coupled to the adenylate cyclase.
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PMID:A transplantable rat Leydig cell tumour. Properties of the prostaglandin E receptor. 254 91

Human Il-1 alpha induces the synthesis of kappa Ig L chains by the pre-B cell line 7OZ/3, IL-2R alpha by the human NK cell line YT, and PGE2 by human rheumatoid synovial cells. Pertussis toxin (PT) markedly inhibited all three IL-1-induced activation events. The inhibition by PT was associated with a decrease in IL-1-mediated cAMP production. PT also inhibited IL-1-stimulated cAMP production in crude membrane fractions from 7OZ/3, YT, and 3T3 fibroblasts. In addition, IL-1 stimulated GTPase activity present in the membranes IL-1-responsive cells. Furthermore, the IL-1-induced GTPase activity was sensitive to PT. PT induced the ADP-ribosylation of a 46-kDa substrate in membrane preparations from IL-1-responsive cells. Cholera toxin also induced the ADP-ribosylation of a 46-kDa substrate in the same membrane preparations. The present findings indicate that the IL-1R is linked to a PT-sensitive G protein that stimulates the activity of adenylate cyclase.
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PMID:Signal transduction pathway for IL-1. Involvement of a pertussis toxin-sensitive GTP-binding protein in the activation of adenylate cyclase. 254 9

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