Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.6.1.1 (adenylate cyclase)
 19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two cell cultures, NEP2 and NEM2, isolated from human foetal brain have been maintained through several passages and found to express some properties of astrocytes. Both cell cultures contain adenylate cyclase stimulated by catecholamines with a potency order of isoprenaline greater than adrenaline greater than salbutamol much greater than noradrenaline, which is consistent with the presence of beta 2-adrenergic receptors. This study reports that the beta 2-adrenergic-selective antagonist ICI 118,551 is approximately 1,000 times more potent at inhibiting isoprenaline stimulation of cyclic AMP (cAMP) formation in both NEP2 and NEM2 than the beta 1-adrenergic-selective antagonist practolol. This observation confirms the presence of beta 2-adrenergic receptors in these cell cultures. The formation of cAMP in NEP2 is also stimulated by 5'-(N-ethylcarboxamido)adenosine (NECA) more potently than by either adenosine or N6-(L-phenylisopropyl)adenosine (L-PIA), which suggests that this foetal astrocyte expresses adenosine A2 receptors. Furthermore, L-PIA and NECA inhibit isoprenaline stimulation of cAMP formation, a result suggesting the presence of adenosine A1 receptors on NEP2. The presence of A1 receptors is confirmed by the observation that the A1-selective antagonist 8-cyclopentyl-1,3-dipropylxanthine reverses the inhibition of isoprenaline stimulation of cAMP formation by L-PIA and NECA. Additional evidence that NEP2 expresses adenosine receptors linked to the adenylate cyclase-inhibitory GTP-binding protein is provided by the finding that pretreatment of these cells with pertussis toxin reverses the adenosine inhibition of cAMP formation stimulated by either isoprenaline or forskolin.
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PMID:Regulation of cyclic AMP formation in cultures of human foetal astrocytes by beta 2-adrenergic and adenosine receptors. 256 6

The effects of somatostatin on the contractile response of guinea pig cardiac preparations were investigated and compared with those of carbachol and adenosine. Somatostatin produced a concentration-dependent negative inotropic effect in the left atria, which was accompanied by a decrease in action potential duration. The maximum decrease in contractility which was obtained at 3 x 10(-6) M was around 40% of the predrug control values and far less than those produced by carbachol and adenosine. Somatostatin failed to produce inotropic effect on the papillary muscle and did not influence the spontaneously beating rate of the right atria. In the papillary muscles, however, somatostatin inhibited the positive inotropic effect of isoproterenol in a concentration-dependent manner as did carbachol and adenosine. In addition, somatostatin caused a significant inhibition of the isoproterenol-induced increase in cyclic AMP levels without affecting the basal level of cyclic AMP. In the papillary muscle, the inhibitory effect of somatostatin on the positive inotropic response to isoproterenol was significantly attenuated by pretreatment with islet-activating protein, and was significantly antagonized by the somatostatin antagonist cyclo[7-aminoheptanoyl-Phe-D-Trp-Lys-Thr(Bzl)]. These results suggest that somatostatin receptors in guinea pig ventricular muscles are coupled with adenylate cyclase via islet-activating protein-sensitive GTP-binding protein, whereas the negative inotropic effect of somatostatin in the left atria might be mediated by a subtype of somatostatin receptors which is different from that in the ventricle.
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PMID:Differential effects of somatostatin on atrial and ventricular contractile responses in guinea pig heart: influence of pretreatment with islet-activating protein. 256 33

alpha 2-Adrenergic receptors (alpha 2-AR) are negatively coupled to adenylyl cyclase via the GTP-binding protein Gi. However, inhibition of adenylylcyclase does not account for many effector cell responses to alpha 2-AR agonists, suggesting that the receptor can couple to other signal transduction pathways. One potential pathway may be the stimulation of Na+/H+ exchange elicited by alpha 2-AR activation in renal proximal tubule cells, platelets, and the NG-10815 cell line. To determine whether the various receptor-effector coupling mechanisms operate in a tissue-specific manner, we studied the effect of alpha 2-AR activation on basal and stimulated Na+/H+ exchange in epithelial cells isolated from human colon (HT-29 adenocarcinoma cells). Na+/H+ exchange was measured by quantitation of intracellular hydrogen ion concentration (acetoxymethyl ester 2,7-biscarboxyethyl-5(6)carboxyfluorescein) and 22Na+ uptake. HT-29 cells expressed an amiloride-sensitive Na+/H+ exchanger that was activated by reduction of intracellular pH (pHi) to 6.0 but was quiescent at a physiological pHi. The rapid alkalinization observed after acid loading (0.57 +/- 0.07 pH units/min/10(4) cells) was dependent on external sodium and was blocked by amiloride (Ki approximately 2.1 microM). Although epinephrine and the selective alpha 2-AR agonists clonidine and UK-14304 inhibited forskolin-activated adenylylcyclase, these compounds did not alter basal Na+/H+ exchange. Stimulated Na+/H+ exchange was similarly unaffected by epinephrine. In contrast, stimulated Na+/H+ exchanger activity was completely inhibited by the selective alpha 2-agonists clonidine, UK-14304, and guanabenz. This inhibitory effect was not blocked by the alpha 2-AR antagonist rauwolscine, and it is likely due to a direct interaction with the exchanger molecule itself. Structure/activity studies indicated that the compounds inhibiting exchanger activity possess either an imidazoline or guanidinium moiety. Although these molecules bear structural similarity to amiloride, they did not inhibit the amiloride-sensitive epithelial sodium channel in toad urinary bladder, suggesting that these compounds may be useful as "amiloride-like" ligands selective for the Na+/H+ exchanger. These data indicate that in the HT-29 intestinal cell line, in contrast to observations in other tissues, alpha 2-adrenergic receptors are not coupled to the Na+/H+ exchanger, suggesting that the cell-signaling mechanisms utilized by the alpha 2-AR are tissue specific.
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PMID:Alpha 2-adrenergic receptors and the Na+/H+ exchanger in the intestinal epithelial cell line, HT-29. 257 Jul 77

The aim of this study was to investigate the effects of chronic lithium treatment on calcium (Ca2+)-stimulated adenylate cyclase activity in rat striatum and hippocampus, and to elucidate the effect of lithium treatment on the neurotransmitter/GTP-mediated inhibition of Ca2+-stimulated enzyme activity in the two brain areas. Lithium treatment, which gave a serum-lithium concentration of 0.9 +/- 0.16 mmol/l, enhanced Ca2+-stimulated enzyme activity in the hippocampus but reduced this activity in the striatum. Serotonin (5-HT) dose dependently reduced Ca2+-stimulated adenylate cyclase activity in the hippocampus, and chronic lithium administration reduced the ability of 1 microM 5-HT to inhibit Ca2+-stimulated enzyme activity. Furthermore, the 5-HT-induced GTP-mediated inhibition of Ca2+-stimulated adenylate cyclase activity in the hippocampus was markedly decreased by lithium. Increasing concentrations of dopamine in the striatum did not, however, affect Ca2+-stimulated adenylate cyclase activity and the inhibition of enzyme activity observed with increasing concentrations of GTP was not influenced by chronic lithium treatment. These results demonstrate that lithium ex vivo exerts dual and region-specific effects on Ca2+-stimulated adenylate cyclase in the brain. Furthermore, long-term administration of lithium could reduce the inhibitory effect of 5-HT on adenylate cyclase in the hippocampus, by influencing the inhibitory GTP-binding protein. The effects of lithium on serotonergic and dopaminergic neurotransmission could be involved in the therapeutic actions of lithium in manic-depressive illness.
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PMID:Effects of lithium ex vivo on the GTP-mediated inhibition of calcium-stimulated adenylate cyclase activity in rat brain. 258 40

To evaluate a possible modulation by membrane fluidity of hormonal, cAMP-mediated effects on renal epithelial cells, we studied the effect of the neutral local anesthetic, benzyl alcohol, on membrane fluidity and on basal and stimulated intracellular cAMP content in intact MDCK cells. Benzyl alcohol induced a dose-dependent decrease of lipid order which was measured by steady-state fluorescence anisotropy using trimethylammonium-diphenylhexatriene and propionyl-diphenylhexatriene as fluorescent probes. Benzyl alcohol induced a 2-fold increase in basal cAMP content, likely as a consequence of increased prostaglandin synthesis since this effect was abolished by indomethacin. The effect of benzyl alcohol on stimulated cAMP synthesis depended on the nature of the ligand: 10 mM benzyl alcohol increased significantly the stimulatory effect of prostaglandin E2, glucagon and forskolin but not of vasopressin. At higher concentrations (40 mM), benzyl alcohol did not affect significantly the glucagon-stimulated cAMP content, while it inhibited significantly the prostaglandin E2-, forskolin- and vasopressin-stimulated cAMP synthesis. The 40 mM benzyl alcohol-induced inhibition was reversed by 1 mM Mn2+, which is known to block the inhibitory GTP-binding protein Ni. These results suggest that: (i) the various components of the adenylate cyclase-cAMP system and their coupling are affected differently by changes in membrane fluidity, which might reflect differences in their lipid environment, (ii) changes in membrane fluidity can modulate responses of renal tubular cells to hormones, and thus tubular functions.
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PMID:Benzyl alcohol increases membrane fluidity and modulates cyclic AMP synthesis in intact renal epithelial cells. 282 Apr 91

Opiate receptor-mediated inhibition of adenylate cyclase activity was elicited in membranes of C6BUI glioma cells and S49 cyc- lymphoma cells after fusion with opiate receptor-containing membranes derived from NG108-15 neuroblastoma x glioma hybrid cells. The fusion was induced by polyethylene glycol using procedures developed by Orly and Schramm [(1976) Proc. Natl. Acad. Sci. USA 73, 4410-4414]. Prior to fusion, the adenylate cyclase activity of the donor. NG108-15 cell membrane, was inactivated by N-ethylmaleimide treatment. Prostaglandin E1 receptors and the stimulatory GTP-binding protein Ns were transferred to the recipient cells along with opiate receptors. Thus, inhibitory receptors can be transferred to foreign adenylate cyclase systems just as stimulatory receptors had earlier been found to do. Furthermore, opiate receptors have been shown to function in non-neuronal cells.
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PMID:Transfer of functional opiate receptors from membranes to recipient cells by polyethylene glycol-induced fusion. 282 Aug 7

We studied possible coupling of opioid receptors to GTP-binding proteins to clarify the mechanism(s) of opioid action in bovine adrenal medullary membranes. Guanylyl imidodiphosphate (Gpp(NH)p) reduced the binding of [3H] D-Ala2-D-Leu5-enkephalin ([3H] DADLE) to bovine adrenal medullary membranes dose-dependently, and enhanced the binding of [3H] diprenorphine to them. Gpp(NH)p (0.1 mM) enhanced the Kd value of the [3H] DADLE binding from 2.9 nM to 3.9 nM, but did not change its Bmax. Pretreatment of bovine adrenal medullary membranes with pertussis toxin (PT) reduced the [3H] DADLE binding. The Gpp(NH)p inhibition for [3H] DADLE binding was diminished by the PT-pretreatment. On the other hand, the [3H] diprenorphine binding to PT-pretreated membranes was higher than that to control membranes. Levorphanol inhibited the adenylate cyclase activity of the rat caudate nucleus crude synaptosomal fraction, but did not change that of bovine adrenal medullary membranes. These results suggest that opioid receptors in bovine adrenal medullary membranes are coupled to PT-sensitive GTP-binding protein which may not influence on adenylate cyclase.
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PMID:[Characterization of adrenal medullary opioid receptors. II. Coupling of adrenal medullary opioid receptors to GTP binding proteins]. 282

The genomic gene coding for the human beta 2-adrenergic receptor (beta 2AR) from A431 epidermoid cells has been isolated. Transfection of the gene into eukaryotic cells restores a fully active receptor/GTP-binding protein/adenylate cyclase complex with beta 2AR properties. Southern blot analyses with beta 2AR-specific probes show that a single beta 2AR gene is common to various human tissues and that its flanking sequences are highly conserved among humans and between man and rabbit, mouse, and hamster. Functional significance of these regions is supported by the presence of a promoter region (including mRNA cap sites, two "TATA boxes," a "CAAT box," and three G + C-rich regions that resemble binding sites for transcription factor Sp1) 200-300 base pairs 5' to the translation initiation codon. In the 3' flanking region, sequences homologous to glucocorticoid-response elements might be responsible for the increased expression of the beta 2AR gene observed after treatment of the transfected cells with hydrocortisone. In addition, 5' to the promoter region, an open reading frame encodes a 251-residue polypeptide that displays striking homologies with protein kinases and other nucleotide-binding proteins.
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PMID:Structure of the gene for human beta 2-adrenergic receptor: expression and promoter characterization. 282 49

The stimulatory GTP-binding protein (Gs) of the uncoupled mutant of S49 lymphoma cells is deficient in its ability to transduce hormonal signals from ligand-bound beta-adrenergic receptors to the catalytic component of adenylate cyclase. In order to define the genetic defect in the Gs of uncoupled S49 cells, a complementary DNA clone encoding the alpha-subunit of Gs was analyzed and the deduced primary structure of the defective subunit compared to that of the wild-type subunit. A single nucleotide transversion was found that coded for a proline rather than an arginine at residue 389. The results indicate a domain of the alpha-subunit of Gs that specifically interacts with hormone receptors.
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PMID:Identification of the lesion in the stimulatory GTP-binding protein of the uncoupled S49 lymphoma. 282 31

Serotonin (5-hydroxytryptamine, 5-HT) inhibited the formation of cAMP promoted by vasoactive intestinal polypeptide, plus forskolin, in mouse hippocampal and cortical neurons in primary culture. The rank order of potencies of classical 5-HT1 agonists in inhibiting cAMP formation in hippocampal neurons was 8-hydroxy-2-(di-n-propylamino)tetralin (8-OH-DPAT) greater than 5-carboxamidotryptamine (5-CT) greater than d-lysergic acid diethylamide greater than 5-HT greater than 5-methoxy-N,N-dimethyltryptamine (5-MeO-N,N-DMT) greater than RU 24969 greater than ipsapirone greater than bufotenine greater than buspirone [half-maximal efficacy (EC50) = 7, 18, 30, 52, 90, 102, 100, 110, and 128 nM, respectively]. All the tryptamine derivatives substituted in position 5 of the indol were potent agonists [5-HT, 5-CT, 5-MeO-N,N-DMT, 5-methoxytryptamine, and bufotenine], whereas tryptamine, N-methyltryptamine, and N,N-dimethyltryptamine were poor agonists. The most potent antagonists tested were spiperone, (+/-)-pindolol, (+/-)-cyanopindolol, WB4101, and methiothepin, the affinity of spiperone for this receptor being 22 nM. In contrast, ketanserin, a specific 5-HT2 antagonist, and 5-HT3-selective drugs (ICS 205 930 and MDL 72222) were very weak in antagonizing the 5-HT-inhibited cAMP formation. The pharmacological profiles of 5-HT receptors mediating the inhibition of cAMP formation indicate that these receptors correspond to the 5-HT1A-binding site subtypes. Experiments with the Bordetella pertussis toxin indicate that the 5-HT1A receptor mediating inhibition of cAMP production involves a pertussis toxin-sensitive GTP-binding protein. In the absence of VIP, cAMP formation could be stimulated through a 5-HT receptor, but the specific 5-HT1A agonists, 8-OH-DPAT and RU 24969 did not stimulate cAMP production. These results suggest that in mouse embryonic hippocampal neurons, the 5-HT1A receptors, which are negatively coupled to adenylate cyclase, are distinct from the receptor positively coupled to this enzyme. The pharmacological characterization of the 5-HT receptor negatively coupled to adenylate cyclase in mouse embryonic cortical neurons indicates that it differs from the 5-HT1A receptor found in hippocampal neurons. Its main differences with the 5-HT1A receptor in hippocampal neurons are as follows: 1) 8-OH-DPAT was only a poor partial agonist in cortical neurons, whereas it was the best full agonist in hippocampal neurons; and 2) metergoline and methysergide as well as the anxiolytic drugs, ipsapirone and buspirone, which were potent agonists in hippocampal neurons, were competitive antagonists in cortical neurons.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Pharmacology of 5-hydroxytryptamine-1A receptors which inhibit cAMP production in hippocampal and cortical neurons in primary culture. 282 13


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