EC:3.1.4.1 - FACTA Search

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Query: EC:3.1.4.1 (phosphodiesterase)
18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The potential role of cyclic nucleotides and calcium as regulators of neuropeptide biosynthesis was examined in the bag cell neurons of Aplysia, which produce and secrete a peptide egg-laying hormone (ELH). Elevated external potassium, which stimulates ELH biosynthesis, increased bag cell cAMP levels when assayed in the presence of a phosphodiesterase inhibitor. Dopamine and serotonin, which increase bag cell cAMP levels, both stimulated ELH synthesis, as did the phosphodiesterase inhibitor isobutylmethylxanthine, the specific adenylate cyclase activator forskolin, and the phosphodiesterase-resistant cAMP analogue 8-benzylthio-cAMP. The stimulatory effect on peptide biosynthesis appears to be specific for cAMP, as bag cell cGMP levels were not altered significantly by high potassium or forskolin, and 8-bromo-cGMP did not stimulate ELH synthesis. In contrast to cAMP, intracellular calcium inhibits ELH production: biosynthesis of the peptide was elevated in a 0 Ca2+/EGTA medium and reduced in the presence of the Ca2+ ionophore A23187. Synthesis was also elevated in the presence of the calmodulin inhibitor calmidazolium. Treatment of intact bag cells with 0 Ca2+/EGTA or A23187 did not alter cAMP levels significantly, suggesting that calcium exerts its effect on peptide synthesis independently of cAMP. The antagonistic effects of cAMP and calcium on ELH synthesis parallel their effects on bag cell excitability, suggesting that, in these cells, neuropeptide synthesis and secretion are co-regulated by the same intracellular messengers.
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PMID:Regulation of synthesis of the neurosecretory egg-laying hormone of Aplysia: antagonistic roles of calcium and cyclic adenosine 3':5'-monophosphate. 298 35

We have isolated and sequenced cDNA clones representing portions of the polyadenylylated transcripts of the dunce+ gene. These define an open reading frame of 1086 bases and some of the 5'- and 3'-untranslated regions of the transcripts. The deduced amino acid sequence is strikingly homologous to the amino acid sequence of a Ca2+/calmodulin-dependent cyclic nucleotide phosphodiesterase isolated from bovine brain and more weakly related to the predicted amino acid sequence of a yeast cAMP phosphodiesterase. These homologies, together with prior genetic and biochemical studies, provide unambiguous evidence that dunce+ codes for a phosphodiesterase. In addition, the dunce+ gene product shares a seven-amino acid sequence with a regulatory subunit of cAMP-dependent protein kinase that is predicted to be part of the cAMP binding site. We also identify a weak homology between a region of the dunce+ gene product and the egg-laying hormone precursor of Aplysia californica. The open reading frame is divided in the genome by four introns.
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PMID:Molecular analysis of cDNA clones and the corresponding genomic coding sequences of the Drosophila dunce+ gene, the structural gene for cAMP phosphodiesterase. 302 34

Forskolin, a diterpene extracted from Coleus forskolii, stimulates the production of cAMP in a variety of cells and is potentially an important tool for studying the role of cAMP in the modulation of neuronal excitability. We studied the effects of forskolin on neurons of nudibranch molluscs and found that it caused characteristic, reversible changes in the amplitude and waveform of the transient K current, IA, and also activated an inward current similar to the cAMP-dependent inward current previously described in molluscan neurons. Forskolin altered the time course of IA activation and inactivation but did not affect the voltage dependence or the reversal potential of the current. IA normally inactivates exponentially, but in forskolin the time course of inactivation can be fit by the sum of 2 exponentials with an initial rate that is faster than the control and a final rate that is much slower. On depolarization in forskolin, IA begins to activate at the normal rate, but a slower component of activation is also seen. The changes in IA in the nudibranch cells were qualitatively different than the changes caused by forskolin in Aplysia bag cell neurons (Strong, 1984). Experiments were performed to determine whether these effects of forskolin require cAMP. Intracellular injection of cAMP, application of membrane-permeable analogs of cAMP, application of phosphodiesterase inhibitors, and intracellular injection of the active catalytic subunit of cAMP-dependent protein kinase did not affect the amplitude or waveform of IA. Also, the changes in IA that are caused by forskolin were not prevented or reversed by intracellular injection of an inhibitor of cAMP-dependent protein kinase. Cyclic AMP did, however, activate inward current at voltages near the resting potential. We conclude that the changes in IA and the activation of inward current represent separate affects of forskolin. The inward current appears to depend on an increase in intracellular cAMP, while the changes in IA do not. These experiments show that, in addition to activating adenylate cyclase, forskolin may have a separate direct affect on the transient K current.
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PMID:Forskolin's effect on transient K current in nudibranch neurons is not reproduced by cAMP. 302 41

We have measured by radioimmunoassay the amount of total, free, and bound forms of cyclic AMP (cAMP) within the abdominal ganglion and in five identified cell bodies of neurons from Aplysia californica. In the abdominal ganglion the unbound (free) cAMP levels comprised approximately 25-30% of the total cAMP content under the unstimulated condition, i.e., bathed in high-magnesium saline. Under pharmacological conditions that blocked endogenous phosphodiesterase and activated adenylate cyclase, ganglionic free cAMP levels were elevated more than fourfold, while bound cAMP levels more than doubled. Freeze-substitution techniques were employed to facilitate isolation of individual cell bodies either before or after pharmacological manipulation of cAMP levels. The basal, free cAMP content of cells R2, LP1, R15, L11, and L2-L6 was in the range of 10-40 pmol/mg of cell protein, which accounted for approximately one-half of the total cAMP content per cell body. Determinations of individual cell volumes indicated that the basal, free cAMP concentrations ranged from 1 to 6 microM. Under the same pharmacological conditions that elevated ganglionic cAMP in levels, no changes were measured in either the free or the bound forms of cAMP in isolated cell bodies. Our results indicate that the cAMP elevation was compartmentalized within the neuropilar region of the ganglion, most likely within the processes of the nerve cells. Previous results demonstrated that cAMP injections into the same Aplysia neurons studied here induced a cAMP-activated sodium current, INa (cAMP). In this report we discuss the possibility that pharmacological elevation of cAMP within neuronal processes may reach concentrations similar to those produced by cAMP injections into somata.
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PMID:Compartmentalization of cyclic AMP elevation in neurons of Aplysia californica. 303 61

1. The effect of serotonin (5-HT) and forskolin on an inwardly rectifying K+ conductance (IKR) was studied using voltage-clamp techniques in several identified Aplysia neurons isolated and maintained in primary cell culture. 2. Inward rectification was observed in the current-voltage relationship of the identified neurons R15, R2, B1, and B2 and was predominately due to IKR, as demonstrated by the dependence of inward rectification on the extracellular K+ concentration, instantaneous kinetics of the membrane current response to hyperpolarizing voltage clamp pulses, and voltage-dependent Ba2+ block of the inwardly rectifying current. 3. 5-HT increased IKR conductance between 100 and 400% in the identified neuron R15 in culture and increased IKR conductance approximately 50% in the identified neurons B1, B2, and R2 in culture. The adenylate cyclase activator, forskolin, plus a phosphodiesterase inhibitor, Ro 20-1724, also increased IKR conductance in these neurons. 4. 5-HT and forskolin modulated other ion conductances as well in all of these cultured neurons.
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PMID:Serotonin and forskolin increase an inwardly rectifying potassium conductance in cultured identified Aplysia neurons. 369 50

A variety of chemical and electrophysiological evidence indicates that the onset of afterdischarge and the subsequent profound enhancement of spike broadening that occur in the bag cell neurons of Aplysia are related to an increase in adenosine 3',5'-monophosphate-(cAMP) dependent protein phosphorylation. We have now used a two-electrode voltage clamp to study the properties of isolated bag cell neurons in cell culture and their response to 8 benzylthio-cAMP (8BTcAMP) and N6-n-butyl 8BTcAMP. These membrane-permeant and phosphodiesterase-resistant cAMP analogs induce spontaneous discharge and spike broadening in both the intact bag cell cluster and isolated bag cell neurons in cell culture. The dominant inward current in these cultured cells was found to be the calcium current, Ica, which was abolished by Co2+ (20 mM) or Ni2+ (10 mM) and could be observed in Na+-free media. In a minority of cells (2 of 12), in normal ionic media, a transient inward current was observed that was unaffected by Co2+ and Ni2+ and probably represents a sodium current. The three characterized potassium currents, the delayed rectifying current IK, the calcium-dependent current IC, and the early transient current IA, distinguished by their differing pharmacological and voltage-activation properties, were present in all healthy cells. Three effects of the cyclic AMP analogs (0.5 mM) on the electrical properties of these cells were 1) the emergence of a region of negative slope resistance in the steady-state I-V relations, 2) a depression of the net sustained outward currents due to depolarizing commands, and 3) a marked reduction in IA. When outward currents had been largely suppressed using high concentrations of tetraethylammonium (TEA) ions (100-460 mM) no effects of the cyclic AMP analogs could be observed on peak inward currents using NA+ and Ca2+ or Ba2+ as carriers of inward current. At least part of these electrical effects of the cyclic AMP analogs could be accounted for by a depression of a delayed potassium current and the A current.
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PMID:A voltage-clamp analysis of currents underlying cyclic AMP-induced membrane modulation in isolated peptidergic neurons of Aplysia. 609 Jun 5

The bag cell neurons of Aplysia are neurosecretory cells which control egg-laying behavior. In their resting state, the cells have a high resting potential and show no spontaneous activity. In response to brief stimulation of a neural input, the cells depolarize and fire repetitively for up to 60 min. This afterdischarge is thought to be controlled by elevations of intracellular adenosine 3':5'-monophosphate (cAMP). A voltage clamp study of bag cells in primary culture was undertaken in order to characterize the effects of cAMP on the cells' electrical properties. The transient outward potassium current (A-current) was studied before and after the application of forskolin (an activator of adenylate cyclase) and RO20-1724 (a phosphodiesterase inhibitor). These drugs reduced the amplitude of the A-current, primarily by speeding the inactivation process. The time constants for inactivation were speeded at all potentials, but the largest effects were seen at the more positive potentials (-40 to -15 mV), where the time constants were reduced 5-fold. Neither the activation process nor the steady-state parameters of inactivation were altered by the drugs. It is suggested that these changes in the A-current could explain the ability of the bag cells to fire repetitively during the afterdischarge.
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PMID:Modulation of potassium current kinetics in bag cell neurons of Aplysia by an activator of adenylate cyclase. 609 43

In Aplysia californica, multiple regulatory mechanisms are involved in the actions of neurotransmitters on the gill. Neurotransmitter receptors and adenylate cyclase were examined in a particulate fraction of gill homogenates. The neuropeptide FMRF-amide stimulated enzyme activity 7- to 8-fold (EC50, 1 microM) via receptors that were pharmacologically distinct from those for dopamine and serotonin. FMRF-amide augmented cyclic AMP levels in slices of gill tissue with a time course similar to that for adenylate cyclase activation. Increases in cyclic AMP levels produced by the neuropeptide were potentiated by the phosphodiesterase inhibitor theophylline. Physiological responses to neuropeptides and cyclic AMP analogues were examined in a perfused, isolated gill preparation. Phasic contractions evoked by FMRF-amide (EC50, 0.1 microM) were mimicked by membrane-permeable analogues of cyclic AMP. Comparison of FMRF-amide effects on adenylate cyclase and gill behavior suggests an association between cyclic AMP and phasic contractions. In addition, FMRF-amide-like immunoreactivity, detected by antisera raised against the neuropeptide, was found in nerve fibers innervating the gill. These findings indicate that in Aplysia, FMRF-amide or a closely related peptide neurotransmitter may be involved in the physiological regulation of gill behavior.
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PMID:Evidence for FMRF-amide as a neurotransmitter in the gill of Aplysia californica. 614 96

Eight-position substituted cAMP and cGMP derivatives, and phosphodiesterase inhibitors, modify endogenous 'bursting' activity in Aplysia neuron R15. Several different patterns of activity were elicited depending on the agent used. 8-Benzylthio-cAMP or 8-parachlorophenylthio-cAMP, at concentrations between 5 muM and 0.3 mM, markedly enhanced the depth and duration of the interburst hyperpolarization, and in some cells bursting was inhibited completely. In contrast, 8-parachlorophenyl-thio-cGMP treatment led to some depolarization and to the appearance of long slow bursts, with little effect on the interburst phase. When the parachlorophenylthio-derivatives of cAMP and cGMP were added together at equal concentrations, a pattern consisting of long bursts interrupted by long and deep interburst hyperpolarizations was observed. This pattern could also be elicited by the phosphodiesterase inhibitor isobutylmethylxanthine (IBMX). IBMX inhibited cAMP and cGMP phosphodiesterases and caused both cAMP and cGMP to accumulate in intact ganglia and in individual identified neuronal cell bodies including that of R15. Another phosphodiesterase inhibitor, Ro 7-2956, was a more potent inhibitor of cAMP than of cGMP phosphodiesterase; Ro 7-2956 also modified bursting activity, and seemed to enhance preferentially the interburst hyperpolarization. At high concentrations the 8-substituted cAMP and cGMP derivatives also inhibited cAMP and cGMP phosphodiesterases. The 8-parachlorophenylthio-derivatives of cAMP and cGMP were indistinguishable from each other in this assay, and thus phosphodiesterase inhibition cannot be responsible for their differential effects on bursting activity. The derivatives stimulated protein kinase activity in Aplysia ganglion homogenates, as measured by the incorporation of 32P from ATP into histone. IBMX and Ro 7-2956 had no detectable effect on protein kinase activity. The concentrations of cAMP and cGMP derivatives required for protein kinase activation (10(-8)M-10(-6)M) were much lower than those required for phosphodiesterase inhibition (10(-5)M-10(-3)M). Thus, differential protein phosphorylation is more likely to be responsible for the effects of cAMP and cGMP derivatives on neuron R15 bursting activity than is differential phosphodiesterase inhibition.
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PMID:Different effects of cAMP and cGMP derivatives on the activity of an identified neuron: biochemical and electrophysiological analysis. 615 97

Responsiveness of Aplysia neurons to agents that affect cyclic nucleotide levels was not limited to neurons exhibiting a spontaneous bursting activity pattern. Analyses of the I-V relationship elicited by triangular current ramps within cells exposed to different agents presumably causing elevated cyclic nucleotide levels showed qualitatively similar alterations. These included an increased slope conductance at more negative potentials, possibly related to anomalous rectification, and the induction of a hysteresis in response to a triangular ramp. The paired metacerebral giant cells showed induction of synchronous bursting when exposed to phosphodiesterase inhibitors, and we examined this phenomenon more closely. Classical methods to inactivate a presynaptic source did not eliminate the induction of synchronous bursting. Intracellular injection of a phosphodiesterase inhibitor into a metacerebral giant cell caused changes in the current-voltage relationship similar to those described above for other cells. Subsequent perfusion with the inhibitor caused an enhancement of these effects and the induction of bursting. The alteration of the current-voltage plot in the metacerebral cells and abdominal ganglion cells is qualitatively similar to that induced in the similarly treated bursting neuron R15, suggesting a similar mechanism of action in both burster and nonburster neurons. The implications of these results for cyclic nucleotide mediation of neuronal events are discussed.
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PMID:Alteration of neuronal activity in response to cyclic nucleotide agents in Aplysia. 615 58

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