Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.4.1 (phosphodiesterase)
 18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The time course of rolipram (Ca2+/calmodulin independent cyclic adenosine monophosphate inhibitor) binding sites changes following gerbil transient forebrain ischemia was determined using receptor autoradiography. Gerbils subjected to 10-min ischemia revealed a significant reduction in rolipram binding in most selectively vulnerable regions early in the recirculation (1-5 h). Marked reduction in the rolipram binding was seen in the selectively vulnerable areas 48 h or 7 days after ischemia. Thereafter, the rolipram binding in the hippocampal CA1 and CA3 sectors, which were most vulnerable to ischemia, was severely reduced up to 1 month after recirculation. In contrast, the reduction of the rolipram binding activity in other regions recovered to sham-operated level or showed a slight recovery. Interestingly, the dentate gyrus, which was resistant to ischemia, also exhibited a significant reduction of the rolipram binding activity up to 1 month after ischemia. Eight months after ischemia, the hippocampal CA1 and CA3 sectors showed severe shrinkage and marked reduction in the rolipram binding. Other regions exhibited no significant reduction in the rolipram binding except for a slight reduction in the thalamus. These results demonstrate that transient cerebral ischemia causes severe reduction in rolipram binding sites in selectively vulnerable areas, and this reduction precedes the neuronal cell loss. These findings may reflect the alteration of an intracellular phosphodiesterase activity after ischemia.
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PMID:Sequential alteration of [3H]rolipram binding in gerbil brain after transient cerebral ischemia. 845 96

The present study demonstrates that chronic, but not acute, adminstration of several different classes of antidepressants, including serotonin- and norepinephrine-selective reuptake inhibitors, increases the expression of cAMP response element binding protein (CREB) mRNA in rat hippocampus. In contrast, chronic administration of several nonantidepressant psychotropic drugs did not influence expression of CREB mRNA, demonstrating the pharmacological specificity of this effect. In situ hybridization analysis demonstrates that antidepressant administration increases expression of CREB mRNA in CA1 and CA3 pyramidal and dentate gyrus granule cell layers of the hippocampus. In addition, levels of CRE immunoreactivity and of CRE binding activity were increased by chronic antidepressant administration, which indicates that expression and function of CREB protein are increased along with its mRNA. Chronic administration of the phosphodiesterase (PDE) inhibitors rolipram or papaverine also increased expression of CREB mRNA in hippocampus, demonstrating a role for the cAMP cascade. Moreover, coadministration of rolipram with imipramine resulted in a more rapid induction of CREB than with either treatment alone. Increased expression and function of CREB suggest that specific target genes may be regulated by these treatments. We have found that levels of brain-derived neurotrophic factor (BDNF) and trkB mRNA are also increased by administration of antidepressants or PDE inhibitors. These findings indicate that upregulation of CREB is a common action of chronic antidepressant treatments that may lead to regulation of specific target genes, such as BDNF and trkB, and to the long-term effects of these treatments on brain function.
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PMID:Chronic antidepressant administration increases the expression of cAMP response element binding protein (CREB) in rat hippocampus. 860 16

Evidence for nongenomic actions of steroids is now coming from a variety of fields of steroid research. Mechanisms of steroid action are being studied with regard to the membrane receptors and the activation of second messengers. The present study investigated the mechanism for the rapid effect of estrogen on acutely dissociated hippocampal CA1 neurons by using the whole-cell, voltage-clamp recording. Under the perforated patch configuration, 17 beta-estradiol potentiated kainate-induced currents in 38% of tested neurons. The potentiation was stereospecific, rapid in onset, and reversible after the removal of the steroid. Dose-response curves show that the potentiation by 17 beta-estradiol was evident at a concentration as low as 10 nM and saturated at 10 microM. 17 beta-Estradiol did not affect the kinetics (i.e., affinity and cooperativity) and reversal potential of kainate-induced currents. This suggests that the potentiation did not result from direct interaction with kainate receptors nor the activation of ion channels other than kainate receptor-channels. The potentiation by 17 beta-estradiol was similar to the enhancement of kainate-induced currents evoked by 8-bromo-cAMP, and was modulated by an inhibitor of phosphodiesterase (IBMX). The estrogen potentiation was blocked by a specific blocker of PKA (Rp-cAMPS). Under standard recording configuration, the effect was significantly affected by intracellular perfusing with GDP-beta-S or GTP-gamma-S. The data suggest that the potentiation of kainate-induced currents by 17-beta-estradiol was likely a G-protein(s) coupled, cAMP-dependent phosphorylation event. By involvement of this non-genomic mechanism, estrogen may play a role in the modulation of excitatory synaptic transmission in the hippocampus.
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PMID:17 beta-Estradiol potentiates kainate-induced currents via activation of the cAMP cascade. 864 6

We investigated the effects of age and nitric oxide synthase inhibitor, NG-nitro-L-arginine methyl ester (L-NAME), on protein kinase C (PKC), adenylyl cyclase, calcium/calmodulin-independent cyclic-AMP phosphodiesterase (cyclic-AMP PDE) and voltage-dependent L-type calcium channels in Fischer rat brain using autoradiography. [3H]Phorbol 12,13-dibutyrate (PDBu), [3H]forskolin, [3H]rolipram and [3H]PN200-110 were used to label PKC, adenylyl cyclase, cyclic-AMP PDE and calcium channels, respectively. [3H]Forskolin binding significantly decreased in the striatum, hippocampal CA3 sector, dentate gyrus, hilus, thalamus, substantia nigra and cerebellum of 24-month-old (aged) rats, as compared with 6-month-old (adult) animals. [3H]Rolipram binding also showed an age-related reduction in the thalamus and cerebellum in rats. In contrast, no age-related changes were observed in [3H]PDBu and [3H]PN200-110 binding in the rat brain. Chronic treatment with L-NAME (5 mg/kg, once a day for 4 weeks) showed no significant changes in [3H]PDBu, [3H]rolipram and [3H]PN200-110 binding in aged rat brains. However, this treatment significantly increased age-related decreases in [3H]forskolin binding in the frontal cortex; striatum and hippocampal CA1 sector in rats. The results demonstrate that [3H]forskolin binding in the rat brain is more susceptible to aging processes than [3H]PDBu, [3H]rolipram and [3H]PN200-110 binding. Furthermore, our study shows that chronic treatment with NO inhibitor increases the age associated changes in [3H]forskolin binding in most brain areas of aged rats. These findings suggest that NO may play a key role in the regulation of adenylyl cyclase system during aging processes.
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PMID:Effect of nitric oxide synthase inhibitor on age-related changes in second messenger systems and calcium channels in rats. 910 40

Ageing is associated with changes in neurotransmission which might be correlated with abnormal calcium metabolism. Because there is evidence that nimodipine can enhance the learning abilities of ageing animals and rolipram can enhance the excitability of neurons, providing a functional basis for cognition-enhancing activity, age-related alterations in the binding of voltage-dependent L-type calcium channels and calcium/calmodulin-independent cyclic adenosine monophosphate-selective phosphodiesterase (cyclic-AMP PDE) were studied in 3-week- and 6-, 12-, 18- and 24-month-old Fisher 344 rats by use of receptor autoradiography. [3H]Nimodipine and [3H]rolipram were used to label the voltage-dependent L-type calcium channels and calcium/calmodulin-independent cyclic-AMP PDE, respectively. [3H]Nimodipine binding showed no obvious change in all brain areas of 12- and 18-month-old rats, as compared with 6-month-old animals. In 24-month-old rats, however, [3H]nimodipine binding increased significantly in the striatum and hippocampal CA3 sector. In contrast, [3H]rolipram binding showed no significant change in most brain areas during ageing, except for a transient change only in the hippocampal CA1 sector of 12-month-old animals. [3H]Nimodipine and [3H]rolipram binding showed a significant increase in some brain areas of 3-week-old rats compared with 6-month-old animals. The results indicate that in rats voltage-dependent L-type calcium channels are more susceptible to ageing processes than calcium/calmodulin-independent cyclic-AMP PDE. Our data also demonstrate that voltage-dependent L-type calcium channels and calcium/calmodulin-independent cyclic-AMP PDE might play roles in developmental processes. These findings might help further elucidation of the relationship between age-related neurological deficits and behavioural pharmacology including cognitive function.
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PMID:Age-related changes in [3H]nimodipine and [3H]rolipram binding in the rat brain. 923 52

In this study the effect of post-treatment with rolipram, an inhibitor of cAMP phosphodiesterase, on neuronal damage following global ischemia was evaluated. Global cerebral ischemia was induced in male Wistar rats by four-vessel occlusion for 20 minutes. Rolipram was administered 6 hours after onset of ischemia and thereafter the following 7 days daily once at a dose of 0.3 or 3.0 mg/kg intraperitoneally. Four weeks after ischemia the amount of intact neurons in the hippocampus and in the striatum was assessed following perfusion fixation. The ischemia-induced neuronal damage in the CA1 sector of the hippocampus and in the striatum was reduced by rolipram at either dose. The present results show that treatment with rolipram reduces ischemic neuronal damage at a therapeutic window of 6 hours.
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PMID:Delayed treatment with rolipram protects against neuronal damage following global ischemia in rats. 942 78

The slow Ca2+-activated K+ current, sIAHP, underlying spike frequency adaptation, was recorded with the whole cell patch-clamp technique in CA1 pyramidal neurons in rat hippocampal slices. Inhibitors of serine/threonine protein phosphatases (microcystin, calyculin A, cantharidic acid) caused a gradual decrease of sIAHP amplitude, suggesting the presence of a basal phosphorylation-dephosphorylation turnover regulating sIAHP. Because selective calcineurin (PP-2B) inhibitors did not affect the amplitude of sIAHP, protein phosphatase 1 (PP-1) or 2A (PP-2A) are most likely involved in the basal regulation of this current. The ATP analogue, ATP-gamma-S, caused a gradual decrease in the sIAHP amplitude, supporting a role of protein phosphorylation in the basal modulation of sIAHP. When the protein kinase A (PKA) inhibitor adenosine-3', 5'-monophosphorothioate, Rp-isomer (Rp-cAMPS) was coapplied with the phosphatase inhibitor microcystin, it prevented the decrease in the sIAHP amplitude that was observed when microcystin alone was applied. Furthermore, inhibition of PKA by Rp-cAMPS led to an increase in the sIAHP amplitude. Finally, an adenylyl cyclase inhibitor (SQ22, 536) and adenosine 3',5'-cyclic monophosphate-specific type IV phosphodiesterase inhibitors (Ro 20-1724 and rolipram) led to an increase or a decrease in the sIAHP amplitude, respectively. These findings suggest that a balance between basally active PKA and a phosphatase (PP-1 or PP-2A) is responsible for the tonic modulation of sIAHP, resulting in a continuous modulation of excitability and firing properties of hippocampal pyramidal neurons.
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PMID:Modulation of the Ca2+-activated K+ current sIAHP by a phosphatase-kinase balance under basal conditions in rat CA1 pyramidal neurons. 963 23

1. We examined the effects of noradrenaline on steady-state intracellular pH (pHi) and the recovery of pHi from internal acid loads imposed by the NH4+ prepulse technique in hippocampal CA1 neurones acutely dissociated from adult rats. 2. Under nominally HCO3--free conditions, acid extrusion was accomplished by a Na+-dependent mechanism, probably the amiloride-insensitive variant of the Na+-H+ exchanger previously characterized in both fetal and adult rat hippocampal neurones. In the presence of external HCO3-, acid extrusion appeared to be supplemented by a Na+-dependent HCO3--Cl- exchanger, the activity of which was dependent upon the absolute level of pHi. 3. Noradrenaline evoked a concentration-dependent and sustained rise in steady-state pHi and increased rates of pHi recovery from imposed intracellular acid loads. The effects of noradrenaline were not dependent upon the presence of external HCO3- but were blocked by substituting external Na+ with N-methyl-D-glucamine, suggesting that noradrenaline acts to increase steady-state pHi by increasing the activity of the Na+-H+ exchanger. 4. The effects of noradrenaline on steady-state pHi and on rates of pHi recovery from imposed acid loads were mimicked by beta1- and beta2-, but not alpha-, adrenoceptor agonists. The beta-adrenoceptor antagonist propranolol blocked the ability of noradrenaline to increase both steady-state pHi and rates of pHi recovery from acid loads. 5. The effects of noradrenaline on steady-state pHi and on pHi recovery rates following acid loads were not dependent on changes in [Ca2+]i. However, the effects of noradrenaline were blocked by pre-treatment with the adenylate cyclase inhibitor 2',5'-dideoxyadenosine and the cAMP-dependent protein kinase inhibitors Rp-adenosine-3',5'-cyclic monophosphorothioate (sodium salt; Rp-cAMPS) and N-[2-(p-bromocinnamylamino)ethyl]-5-isoquinolinesulphonamide (H-89). 6. Forskolin, an activator of endogenous adenylate cyclase, and 3-isobutyl-1-methylxanthine, a phosphodiesterase inhibitor, mimicked the ability of noradrenaline to increase both steady-state pHi and rates of pHi recovery from imposed acid loads, as did Sp-cAMPS, a selective activator of cAMP-dependent protein kinase. The effect of forskolin on steady-state pHi was blocked by pre-treatment with Rp-cAMPS whereas the effect of Sp-cAMPS was enhanced by pre-treatment with the protein phosphatase inhibitor, okadaic acid. 7. Noradrenaline also increased steady-state pHi and rates of pHi recovery from imposed acid loads in cultured postnatal rat hippocampal neurones. In this preparation, the effects of noradrenaline were occluded by 18-24 h pre-treatment with cholera toxin. 8. We conclude that noradrenaline increases the activity of the Na+-H+ exchanger in rat hippocampal neurones, probably by inducing an alkaline shift in the pHi dependence of the antiport, thereby raising steady-state pHi. The effects of noradrenaline are mediated by beta-adrenoceptors via a pathway which involves the alpha-subunit of the stimulatory G-protein Gs (Gsalpha), adenylate cyclase, cAMP and the subsequent activation of cAMP-dependent protein kinase which, in turn, may phosphorylate the exchange mechanism.
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PMID:Effects of noradrenaline on intracellular pH in acutely dissociated adult rat hippocampal CA1 neurones. 976 38

Gustin, a zinc-metalloprotein constituting about 3% of human parotid saliva protein was previously isolated and characterized as a single polypeptide chain of 37kDa with one mole of zinc tightly bound to the protein. It exhibited biological activity activating calmodulin dependent bovine brain cAMP phosphodiesterase and was decreased in saliva of patients with loss of taste in whom taste buds showed a specific pathological morphology. Determination of its primary structure by amino acid sequence revealed it was identical with carbonic anhydrase (CA) [EC 4.2.1.1] VI and had two N-linked glycosylation sites. Analysis by reverse phase HPLC and SDS-PAGE before and after deglycosylation confirmed a single peak with molecular weight of the purified protein being 37kDa, the deglycosylated protein, 33kDa. N-linked carbohydrate chains contained N-acetyl glucosamine, galactose, mannose, and fucose interior to di, tri and tetra sialyated termini. By isoelectric focusing five increasingly acidic pI values were determined consistent with addition of sialic acid as the terminal carbohydrate residue on the N-linked glycoforms of the protein. Gustin was found to exhibit CA activity but was inhibited by known CA inhibitors in a different manner than CA I or II. These findings, consistent with analysis of previous investigators, indicate that parotid saliva gustin is CA VI.
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PMID:Gustin from human parotid saliva is carbonic anhydrase VI. 978 98

In an attempt to improve behavioral memory, we devised a strategy to amplify the signal-to-noise ratio of the cAMP pathway, which plays a central role in hippocampal synaptic plasticity and behavioral memory. Multiple high-frequency trains of electrical stimulation induce long-lasting long-term potentiation, a form of synaptic strengthening in hippocampus that is greater in both magnitude and persistence than the short-lasting long-term potentiation generated by a single tetanic train. Studies using pharmacological inhibitors and genetic manipulations have shown that this difference in response depends on the activity of cAMP-dependent protein kinase A. Genetic studies have also indicated that protein kinase A and one of its target transcription factors, cAMP response element binding protein, are important in memory in vivo. These findings suggested that amplification of signals through the cAMP pathway might lower the threshold for generating long-lasting long-term potentiation and increase behavioral memory. We therefore examined the biochemical, physiological, and behavioral effects in mice of partial inhibition of a hippocampal cAMP phosphodiesterase. Concentrations of a type IV-specific phosphodiesterase inhibitor, rolipram, which had no significant effect on basal cAMP concentration, increased the cAMP response of hippocampal slices to stimulation with forskolin and induced persistent long-term potentiation in CA1 after a single tetanic train. In both young and aged mice, rolipram treatment before training increased long- but not short-term retention in freezing to context, a hippocampus-dependent memory task.
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PMID:Rolipram, a type IV-specific phosphodiesterase inhibitor, facilitates the establishment of long-lasting long-term potentiation and improves memory. 984 8


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