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)

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

Muscarinic cholinergic agonists such as acetylcholine attenuate phosphorylation of phospholamban induced by agents that activate cAMP-dependent protein kinase. However, cAMP accumulation is variably affected or only slightly reduced; thus, the choline ester might produce effects in addition to inhibition of adenylate cyclase. We hypothesized that acetylcholine might regulate a phosphatase in mammalina myocardium. Exposure of Langendoff-perfused guinea pig ventricles to isoproterenol (10 nM) for 45 s increased phosphatase inhibitor-1 activity 2-fold. Co-administration of acetylcholine (100 nM) antagonized the effect of isoproterenol, and atropine (1 microM) blocked the effect of acetylcholine. Forskolin (1 microM) caused a 3-fold increase in inhibitor-1 activity, and acetylcholine markedly attenuated the effect of forskolin. However, acetylcholine did not lower cAMP levels in the same tissues. Both isoproterenol and forskolin reduced the type 1 phosphatase activity intrinsic to sarcoplasmic reticulum by 25-50%, using [32P]phosphorylase a or 32P-labeled membrane vesicles as a substrate for the phosphatase. Co-administration of acetylcholine markedly attenuated these effects of isoproterenol and forskolin. Acetylcholine alone caused a 50% increase in type 1 phosphatase activity. We concluded that inhibitor-1 and type 1 phosphatase can be regulated in intact cardiac muscle by agents that increase intracellular cAMP and by acetylcholine.
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PMID:Autonomic regulation of type 1 protein phosphatase in cardiac muscle. 253 94

1. Catecholamines, adenosine, gonadotrophins, vasoactive intestinal peptide (VIP) and E-series prostaglandins all elicit K+ currents in follicle-enclosed Xenopus oocytes. Evidence suggests that cyclic nucleotides act as intracellular messengers in the activation of this K+ conductance. Muscarinic agonists and some divalent cations (e.g. Co2+, Mn2+, Ni2+ and Cd2+) elicit slow oscillatory Cl- currents, which are activated through hydrolysis of inositol phospholipids and mobilization of intracellular calcium by inositol phosphates. 2. We investigated whether these membrane current responses were generated in the oocyte itself or in enveloping follicular cells which are coupled to the oocyte by gap junctions. Oocytes were defolliculated, either enzymatically using collagenase, or by manual dissection combined with rolling over poly-L-lysine-coated slides. Removal of follicular cells was checked using scanning electron microscopy. Membrane current responses of defolliculated oocytes were compared with responses seen in follicle-enclosed oocytes taken from the same ovary. 3. The K+ responses evoked by all the various hormones/neurotransmitters were either drastically reduced (greater than 90%) or abolished by defolliculation. K+ currents generated by the adenylate cyclase activator forskolin and by intraoocyte injection of adenosine 3',5'-cyclic monophosphate (cyclic AMP), or guanosine 3',5'-cyclic monophosphate were similarly reduced in defolliculated oocytes. In contrast, oscillatory Cl- currents to acetylcholine and divalent cations were selectively preserved through defolliculation. 4. Injection of cyclic AMP (1-20 pmol) into defolliculated oocytes had little or no effect on oscillatory Cl- currents elicited by ACh. However, the calcium-dependent transient Cl- current, activated by depolarization of the oocyte membrane, was consistently potentiated (100-900%) by injections of cyclic AMP (1-10 pmol). 5. These experiments suggest that cyclic nucleotide-activated K+ currents arise essentially in follicular cells and are monitored within the oocyte through electrical coupling by gap junctions. Oscillatory Cl- responses evoked by ACh and divalent cations are produced largely or wholly in the oocyte itself.
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PMID:Effects of defolliculation on membrane current responses of Xenopus oocytes. 255 77

The adenylate cyclase system has been studied from the standpoint of its significance in cholinergic modulation of the synaptic transmission in the CA1 field of the rat hippocampal slices. Microionphoretic application of ACh as well as addition of either carbachol or tolbutamide (an inhibitor of cAMP-dependent protein kinase) blocked the transmission in synapses formed by the Schaffer collaterals and commissural fibres with dendrites of carbacholine both the number of releasing quanta of the neurotransmitter and the probability of their release decreased. Atropine eliminated the inhibitory effect of carbacholine on synaptic transmission. Dibutyryl cAMP and forskolin increased the amplitude of synaptic potentials and completely or partially prevented the inhibitory effect of cholinomimetics on synaptic potentials. The results obtained revealed opposite effects of cholinomimetics and activators of the adenylate cyclase system on neurotransmission in synapses formed by the Schaffer collaterals/commissural fibres and dendrites of pyramidal neurons of the hippocampal CA1 field.
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PMID:[The role of the adenyl cyclase system in cholinergic modulation of synaptic transmission in the hippocampus]. 257 80

The K+ current induced by isoprenaline acting on beta-adrenergic receptors in Xenopus laevis has been studied in oocytes still surrounded by their follicular cells and inner ovarian epithelium. Forskolin, an adenylate cyclase activator, induced a similar K+ current and when used at subliminal concentration it potentiated the current induced by isoprenaline. Inhibition of phosphodiesterase by methylisobutylxanthine also enhanced the response to isoprenaline. 8-Br-cAMP, a permeant analogue of cAMP also produced a K+ current. Acetylcholine produced a long lasting inhibition of the isoprenaline current. This inhibition was not seen in the presence of atropine. It is concluded that the K+ current induced by the activation of beta-adrenergic receptors in the oocyte is mediated by an intracellular rise of cAMP.
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PMID:beta-Adrenergic induced K+ current in Xenopus oocytes: role of cAMP, inhibition by muscarinic agents. 257 1

In previous studies, we showed that cardiac muscarinic receptors (M2) are composed of two subgroups, M2 alpha and M2 beta, with different affinities for agonists and that the M2 alpha subgroup is coupled with inhibition of adenylate cyclase. We now studied which subgroup was responsible for the formation of inositol mono- (IP), bis- (IP2), tris- (IP3) and tetrakis- (IP4) phosphates in guinea pig heart. Carbachol (1 mM) significantly stimulated the formation of all four IPs in [3H]myoinositol-preloaded slices of guinea-pig ventricles. Acetylcholine (1 mM) also stimulated the formation of IP2, IP3 and IP4. However, oxotremorine (1 mM) only slightly stimulated the formation of IP2, and pilocarpine did not stimulate the formation of any IP. The pED50 values of carbachol for IP2 and IP3 formation were 3.76 and 4.23, respectively, which coincided with the pKd values of the low-affinity agonist binding site (L site) measured by competition of carbachol with [3H]quinuclidinyl benzilate [( 3H]QNB) binding while the pKd value for inhibition of adenylate cyclase coincided with the pKd value of the high-affinity agonist binding site (H site). Treatment of animals with pertussis toxin decreased the formation of IP2 and IP3 by carbachol to 66 and 54%, respectively, but resulted in complete inhibition of adenylate cyclase. These results suggested that muscarinic stimulation of the formation of IPs was manifested through a different receptor subgroup (M2 beta) and GTP binding protein different from those for inhibition of adenylate cyclase.
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PMID:The H-L subgroup of guinea-pig cardiac M2 receptors (M2 beta) regulates inositol phosphate formation. 258 43

Acetylcholine inhibits FSH-induced cAMP accumulation in cultured Sertoli cells from immature hamsters. This action of acetylcholine is mimicked by muscarinic cholinergic agonists with a rank order of carbachol greater than acetylcholine greater than arecoline greater than pilocarpine. The carbachol-induced inhibition of stimulated cAMP accumulation is blocked by atropine greater than pirenzepine but not by d-tubocurarine, indicating an apparent muscarinic receptor similar to that found in other peripheral tissues. The fact that pirenzepine is less effective as an inhibitor of the carbachol effect than atropine further defines the muscarinic effect as of the M2 subtype. The ability of carbachol to inhibit FSH-induced cAMP accumulation is blocked by pertussis toxin, which inhibits the action of the Ni inhibitory transducer of adenylate cyclase. These data indicate that cultured Sertoli cells from immature hamsters contain an M2 type muscarinic cholinergic receptor that is negatively coupled to the adenylate cyclase system through the inhibitory Ni transducer.
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PMID:Cholinergic inhibition of cAMP accumulation in Sertoli cells cultured from immature hamsters. 282 40

The purpose of this study was to determine whether vasoactive intestinal peptide (VIP) might have a presynaptic modulatory effect at cholinergic terminals in the rat hippocampal formation. The exposure of rat hippocampal slices to VIP increased [3H]acetylcholine ([3H]ACh) synthesis from the precursor [3H]choline when tissue was incubated in normal or in high K+ medium; the maximal effect was apparent at 10(-8) M VIP and 10(-7) M VIP, respectively. Also, 10(-7) M VIP increased the activity of choline acetyltransferase (ChAT) in a hippocampal homogenate system. The increased synthesis by hippocampal slices was not the result of a VIP-induced alteration in either the basal release of ACh or the uptake of choline via the high-affinity uptake system. The increase in ACh synthesis induced by VIP in hippocampal slices was not associated with either adenylate cyclase or protein kinase C second messenger systems. There was no correlation between the effect of VIP on cyclic AMP production with that on ACh synthesis; also, forskolin, an activator of adenylate cyclase that increased cyclic AMP production 3.5-fold, did not mimic the effect of VIP on ACh synthesis. Similarly, there was no effect of the protein kinase C activator, phorbol myristate acetate, on ACh synthesis in hippocampal slices. However, the effect of VIP to increase ACh synthesis was not evident in the absence of extracellular calcium, suggesting that the effect of VIP is mediated by a calcium-requiring mechanism. The results suggest that, in the rat hippocampus, VIP has a presynaptic action at cholinergic terminals that results in enhanced synthesis of ACh, possibly by an action that alters ChAT activity.
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PMID:Vasoactive intestinal peptide increases acetylcholine synthesis by rat hippocampal slices. 282 90

We examined the effects of several muscarinic agonists and antagonists on phosphoinositide breakdown (PI) and adenylate cyclase (AC) inhibition in rat cerebral cortex and heart, respectively. Acetylcholine, carbachol and methacholine behaved as full agonists in both systems. In contrast, oxotremorine and arecoline failed to stimulate PI turnover but were potent and efficacious at inhibiting AC. Among the antagonists, pirenzepine, dicyclomine, telenzepine and (R)-QNA were both potent (Ki approximately 0.5-7.5 nM) and selective (90- to 8,500-fold) for the PI-linked (putatively M1) brain receptor. In contrast, the cardioselective and ileal-selective M2 antagonists, AF-DX 116 and hexahydrosiladifenidol, were equipotent, competitive inhibitors of both responses. The selectivity of these drugs in terms of their biochemical responses is described.
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PMID:Selective agents for muscarinic receptors linked to phosphoinositide breakdown. 285 97

1. The utilization and control of glycogen stores were studied in the isolated segmental ganglia of the horse leech, Haemopis sanguisuga. The glycogen in the ganglia was extracted and assayed fluorimetrically and its cellular localization and turnover studied by autoradiography in conjunction with [3H] glucose. 2. The glycogen levels were measured after incubation with different neurotransmitters for 60 min at 28 degrees C. The results for each experimental ganglion were compared to a paired control ganglion, and the results analysed by paired t-tests. 3. Several transmitter substances (5-HT, octopamine, dopamine, noradrenaline, histamine) produced reductions in glycogen (glycogenolysis); other transmitters (glutamate, GABA) produced increases in glycogen (gluconeogenesis); others (adenosine, glycine) produced reductions or increases, depending on concentration. Acetylcholine had no effect on the glycogen levels. 4. Most of the glycogen in the ganglia is localized in the packet glial cells, which surround the neuron perikarya. Autoradiographic analysis demonstrated that the effects of histamine and dopamine were principally on the glycogen in the glial cells. 5. Adenylate cyclase was demonstrated by electron microscope histochemistry to be localized on the plasma membranes of the glial cells, and to a lesser extent on the neuronal membranes. 6. It is concluded that the changes in glycogen in the glial cells may be party controlled by transmitters via adenylate cyclase. This may provide a sensitive mechanism for coupling neuronal activity with energy metabolism.
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PMID:Transmitter-induced glycogenolysis and gluconeogenesis in leech segmental ganglia. 290 39

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