EC:3.1.4.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

This study demonstrates that cyclic AMP (cAMP) production is induced by lipopolysaccharide (LPS) stimulation and activates two different pathways in murine BV2 microglial cells. Two principal effector proteins for cAMP are protein kinase A (PKA) and cAMP-responsive guanine nucleotide exchange factor (Epac), a Rap GDP exchange factor. When cells were treated with various cAMP level modulators, nitric oxide (NO) production increased as the result of posttreatment with Type IV phosphodiesterase (PDE4) inhibitor, rolipram or dibutyryl-cAMP (dbcAMP), at 2 hr after LPS stimulation. Intracellular cAMP increased due to LPS stimulation and the cAMP modulators phosphorylate transcription factor CREB, which is enhanced in turn by posttreatment with dbcAMP. In contrast, the Epac-specific cAMP analog 8-(4-chloro-phenylthio)-2'-O-methyladenosine-3',5'-cyclic monophosphate (8CPT-2Me-cAMP) activates Rap1 in the BV2 cells, but does not induce PKA activation, as judged by CREB phosphorylation. NO production was enhanced by posttreatment with dbcAMP but not by treatment with 8CPT-2Me-cAMP. This suggests that LPS-stimulated NO production is mainly PKA-dependent and also that Epac1-mediated Rap1 activation is not required for the induction of NO production.
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PMID:Epac1-mediated Rap1 activation is not required for the production of nitric oxide in BV2, murine microglial cells. 1593 67

The methylxanthine theophylline is contained in tea and in numerous asthma and cold medications. Theophylline inhibits the enzyme phosphodiesterase, thereby preventing the intracellular break-down of cAMP. The resulting increase in intracellular cAMP reduces smooth muscle tone, thus dilating the airways. Epidemiologic studies on preventive effects of tea on the development of lung cancer have yielded mixed results, with some studies demonstrating a reduction in lung cancer risk whereas others showed evidence for cancer promotion. On the other hand, preclinical studies in mouse models of lung cancer or in vitro systems have consistently demonstrated strong cancer preventive effects of tea and of polyphenols contained in tea. Investigations conducted in our laboratory have recently shown that cell lines derived from human pulmonary adenocarcinomas of Clara cell lineage (PACC) and experimentally induced PACCs in a hamster model are under beta-adrenergic growth control. beta-adrenergic agonists as well as forskolin, which activates cAMP, had strong growth-promoting effects on human PACC cells and on the hamster PACCs. The current project therefore tests the hypothesis that theophylline activates growth-stimulating signaling in human PACC cells and their normal cells of origin, small airway epithelial cells (SAEC). Using assays for the assessment of intracellular cAMP, activated PKA, phosphorylated CREB, ERK1/2 and cell numbers, our data provide evidence for a significant stimulation of cell proliferation in both cell systems via activation of these signaling components.
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PMID:Theophylline stimulates cAMP-mediated signaling associated with growth regulation in human cells from pulmonary adenocarcinoma and small airway epithelia. 1594 55

Rolipram, a type IV-specific phosphodiesterase inhibitor, is known to improve memory under various learning tasks. Moreover, Rolipram treatments have been shown to increase expression and phosphorylation of a key factor for hippocampal memory consolidation, the cAMP-dependent response element-binding protein, CREB. However, the exact correlation between hippocampal CREB phosphorylation and memory improvement induced by Rolipram has not yet been determined in a CREB-dependent type of hippocampal-related learning in normogenic, intact rodents. Here, we report that subchronic Rolipram delivery by using osmotic minipumps increased the basal rat hippocampal expression and phosphorylation of CREB, as well as the expression of the cAMP-dependent, memory-related protein, Arc. In parallel, the same treatment improved memory consolidation of conditioned fear. Furthermore, the increase of CREB phosphorylation and Arc expression consequent to the learning experience was enhanced in Rolipram-treated rats, compared to controls. By evaluating the time course of memory extinction over 10 days after the initial learning test, we also observed significant slowing down of the memory extinction rate in Rolipram-treated rats. This effect could be attributed to CREB phosphorylation and memory having been initially higher, as osmotic minipumps stopped to release Rolipram the first day after the initial learning test. Our data define the conditions through which the pharmacological manipulation of hippocampal CREB expression and activation result in memory amelioration in normogenic, intact animals. These results are relevant for the study of molecular correlates of memory, and may also be important in view of the efforts to design new pharmacological treatments, targeting the CREB pathway and leading to enhancement of learning and memory, even in the absence of patent neuropathology.
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PMID:Subchronic rolipram delivery activates hippocampal CREB and arc, enhances retention and slows down extinction of conditioned fear. 1598 67

Nobiletin is a nonpeptide compound with a low molecular weight from a citrus fruit and has the activity to rescue bulbectomy-induced memory impairment. Here we describe that nobiletin itself induces neurite outgrowth in PC12D cells, a rat pheochromocytoma cell line, like NGF, and the molecular mechanism of its neurotrophic action. As cultured in the presence of nobiletin or NGF for 48 h and then assayed using a scanning electron microscope, PC12D cells treated with nobiletin showed morphology with flatter and larger cell bodies than the cells cultured with NGF. Nobiletin-induced neurite outgrowth was inhibited by PD98059 and U0126 but not K252a. Consistently, nobiletin caused a concentration-dependent enhancement of Erk/MAP kinase phosphorylation and a sustained increment of phosphorylation of MEK and Erk/MAP kinase, resulting in a stimulation of CREB phosphorylation and CRE-mediated transcription. This compound also increased intracellular cAMP and CRE-mediated transcription in the presence of forskolin and enhanced PKA activity to stimulate phosphorylation of multiple PKA substrates in PC12D cells. Furthermore, nobiletin preferentially inhibited Ca2+/CaM-dependent phosphodiesterase in vitro. This compound failed to stimulate phosphorylation of Erk5, which is known to be induced by NGF/TrkA signaling. These results suggest that nobiletin induces neurite outgrowth by activating a cAMP/PKA/MEK/Erk/MAP kinase-dependent but not TrkA-dependent signaling pathway coupling with CRE-mediated gene transcription and may thus become a novel type of biochemical probe for elucidation of the molecular mechanism of neuronal differentiation.
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PMID:Mechanism of neurotrophic action of nobiletin in PC12D cells. 1622 58

cAMP-dependent signalling cascades regulate a number of CNS functions including brain inflammation processes. In this study, we characterized IL-1-induced IL-6 production in hippocampal cells using H19-7/IGF-IR cells and investigated the effect of changes in intracellular cAMP levels on IL-1 activity. IL-1 potently induced IL-6 mRNA expression with a corresponding increase in IL-6 release, in a time- and dose-dependent manner with a maximal at 24 h and with an EC50 value of 0.11 ng/ml. Cell pre-treatment with the IL-1sR antagonist produced a rightward shift of IL-1 dose-response effect with a corresponding decrease in IL-1 potency. IL-1-induced IL 6 release was attenuated in the presence of the p38 MAPK inhibitor SB203580 but was not significantly affected by the PKA inhibitor KT 5720. Western blotting analysis of phospho-CREB cell content showed a marked increase in CREB activation. Similar results were obtained by pharmacologically increasing cAMP using dibutyryl cyclic adenosine monophosphate (dbcAMP) or the cAMP-specific type-4 phosphodiesterase inhibitor rolipram. Both dbcAMP and rolipram increased IL-6 production to about 50% of IL-1 effect. However, in the presence of IL-1, IL-6 production was further potentiated by either dbcAMP and rolipram, reaching 300% and 500% IL-1-induced levels. These data implicate the role of cAMP-dependent pathways on IL-6 production in neuronal cells and suggest novel synergistic mechanisms of regulation of cytokine production in brain.
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PMID:Synergistic effects of cAMP-dependent signalling pathways and IL-1 on IL-6 production by H19-7/IGF-IR neuronal cells. 1649 77

1. Glutamate-NMDA receptor excitotoxicity and oxidative stress are two common mechanisms associated with most neurodegenerative diseases. We hypothesize that the vital state of neurons is regulated in part by two key transcription factors, CREB and NF-kappaB. To test this hypothesis we used hippocampal-entorhinal cortex slice cultures. 2. Glutamate neurotoxicity and oxidative stress neurotoxicity, using hydrogen peroxide (H(2)O(2)) are both associated with a decrease in CREB DNA binding and an increase in NF-kappaB DNA binding. 3. Agents that modulate CREB and NF-kappaB DNA-binding activity alter neurotoxicity. Rolipram, a phosphodiesterase IV inhibitor, increased CREB DNA binding activity and decreased toxicity, whereas TNFalpha, increased NF-kappaB DNA-binding activity and increased neurotoxicity to both glutamate and H(2)O(2). Ethanol decreased CREB and increased NF-kappaB DNA-binding activity and increased neurotoxicity to both glutamate and H(2)O(2). 4. Brain-derived neurotrophic factor (BDNF) is a transcriptionally regulated trophic factor whose expression follows sensitivity to toxicity suggesting it is one of the transcriptionally regulated factors that contributes to neuronal vitality secondary to the balance of CREB-NF-kappaB-activated transcription. Together these studies suggest that neurotoxicity through glutamate-NMDA receptors or oxidative stress is dependent upon CREB and NF-kappaB DNA transcription that regulates vitality of neurons.
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PMID:CREB and NF-kappaB transcription factors regulate sensitivity to excitotoxic and oxidative stress induced neuronal cell death. 1663 91

Trichinella spiralis infection causes hyperexcitability in enteric after-hyperpolarising (AH) sensory neurons that is mimicked by neural, immune or inflammatory mediators known to stimulate adenylyl cyclase (AC)/cyclic 3',5'-adenosine monophosphate (cAMP) signaling. The hypothesis was tested that ongoing modulation and sustained amplification in the AC/cAMP/phosphorylated cAMP related element binding protrein (pCREB) signaling pathway contributes to hyperexcitability and neuronal plasticity in gut sensory neurons after nematode infection. Electrophysiological, immunological, molecular biological or immunochemical studies were done in T. spiralis-infected guinea-pigs (8000 larvae or saline) after acute-inflammation (7 days) or 35 days p.i., after intestinal clearance. Acute-inflammation caused AH-cell hyperexcitability and elevated mucosal and neural tissue levels of myeloperoxidase, mast cell tryptase, prostaglandin E2, leukotrine B4, lipid peroxidation, nitric oxide and gelatinase; lower level inflammation persisted 35 days p.i. Acute exposure to blockers of AC, histamine, cyclooxygenase or leukotriene pathways suppressed AH-cell hyperexcitability in a reversible manner. Basal cAMP responses or those evoked by forskolin (FSK), Ro-20-1724, histamine or substance P in isolated myenteric ganglia were augmented after T. spiralis infection; up-regulation also occurred in AC expression and AC-immunoreactivity in calbindin (AH) neurons. The cAMP-dependent slow excitatory synaptic transmission-like responses to histamine (mast cell mediator) or substance P (neurotransmitter) acting via G-protein coupled receptors (GPCR) in AH neurons were augmented by up to 2.5-fold after T. spiralis infection. FSK, histamine, substance P or T. spiralis acute infection caused a 5- to 30-fold increase in cAMP-dependent nuclear CREB phosphorylation in isolated ganglia or calbindin (AH) neurons. AC and CREB phosphorylation remained elevated 35 days p.i.. Ongoing immune activation, AC up-regulation, enhanced phosphodiesterase IV activity and facilitation of the GPCR-AC/cAMP/pCREB signaling pathway contributes to T. spiralis-induced neuronal plasticity and AH-cell hyperexcitability. This may be relevant in gut nematode infections and inflammatory bowel diseases, and is a potential therapeutic target.
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PMID:Cyclic AMP signaling contributes to neural plasticity and hyperexcitability in AH sensory neurons following intestinal Trichinella spiralis-induced inflammation. 1730 83

Smac/DIABLO is a mitochondrial protein that participates in apoptotic cell death by means of sequestering several members of the inhibitor of apoptosis protein family. This action allows caspase activation, cleavage of key cellular substrates and death. Release from mitochondria is considered the main regulatory step of Smac/DIABLO activity. Nevertheless, the fact that at least one isoform, Smac-beta, does not reside in this organelle implies that transcriptional regulation could also be important. cAMP is a well known second messenger with important apoptotic effects. To analyze if cAMP could be involved in Smac/DIABLO gene regulation, we analyzed 2903 base pairs upstream of the coding sequence and characterized the minimal promoter, which contains a consensus CRE site. We found that cAMP/PKA/CREB pathway is indeed an important regulator of Smac/DIABLO transcription, since exposure to the cAMP analog 8-CPT-cAMP, the adenylyl cyclase activator forskolin, the inhibitor of phosphodiesterase isobutylmethylxanthine or by hindering PKA activation with H89, regulated the promoter activity, as shown by gene reporter and RT-PCR assays. Additionally, the results of site-directed mutagenesis revealed that the consensus CRE site was biologically functional and required for cAMP-induced promoter activity in human HeLa cells. Supporting these results, a negative dominant version of the protein kinase A responsive factor, KCREB, reduced basal Smac/DIABLO expression and rendered the promoter unresponsive to cAMP. Reducing Smac expression using an antisense approach blocked the apoptosis effects of cAMP in cervical cancer cells. These results show that cAMP is an important modulator of the apoptotic threshold in cancer cell by means of regulating Smac/DIABLO expression.
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PMID:Apoptosis induced by cAMP requires Smac/DIABLO transcriptional upregulation. 1732 Mar 50

The failure of axons to regenerate after spinal cord injury remains one of the greatest challenges facing both medicine and neuroscience, but in the last 20 years there have been tremendous advances in the field of spinal cord injury repair. One of the most important of these has been the identification of inhibitory proteins in CNS myelin, and this has led to the development of strategies that will enable axons to overcome myelin inhibition. Elevation of intracellular cyclic AMP (cAMP) has been one of the most successful of these strategies, and in this review we examine how cAMP signaling promotes axonal regeneration in the CNS. Intracellular cAMP levels can be increased through a peripheral conditioning lesion, administration of cAMP analogues, priming with neurotrophins or treatment with the phosphodiesterase inhibitor rolipram, and each of these methods has been shown to overcome myelin inhibition both in vitro and in vivo. It is now known that the effects of cAMP are transcription dependent, and that cAMP-mediated activation of CREB leads to upregulated expression of genes such as arginase I and interleukin-6. The products of these genes have been shown to directly promote axonal regeneration, which raises the possibility that other cAMP-regulated genes could yield additional agents that would be beneficial in the treatment of spinal cord injury. Further study of these genes, in combination with human clinical trials of existing agents such as rolipram, would allow the therapeutic potential of cAMP to be fully realized.
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PMID:The role of cyclic AMP signaling in promoting axonal regeneration after spinal cord injury. 1772 Jan 60

Rehabilitation-dependent motor recovery after cerebral ischemia is associated with functional reorganization of residual cortical tissue. Recovery is thought to occur when remaining circuitry surrounding the lesion is "retrained" to assume some of the lost function. This reorganization is in turn supported by synaptic plasticity within cortical circuitry and manipulations that promote plasticity may enhance recovery. Activation of the cAMP/CREB pathway is a key step for experience-dependent neural plasticity. Here we examined the effects of the prototypical phosphodiesterase inhibitor 4 (PDE4) rolipram and a novel PDE inhibitor (HT-0712), known to enhance cAMP/CREB signaling and cognitive function, on restoration of motor skill and cortical function after focal cerebral ischemia. Adult male rats were trained on a skilled reaching task to establish a baseline level of motor performance. Intracortical microstimulation was then used to derive high-resolution maps of forelimb movement representations within the caudal forelimb area of motor cortex contralateral to the trained paw. A focal ischemic infarct was created within approximately 30% of the caudal forelimb area. The effects of administering either rolipram or the novel PDE4 inhibitor HT-0712 during rehabilitation on motor recovery and restoration of movement representations within residual motor cortex were examined. Both compounds significantly enhanced motor recovery and induced an expansion of distal movement representations that extended beyond residual motor cortex. The expansion beyond the initial residual cortex was not observed in vehicle injected controls. Furthermore, the motor recovery seen in the HT-0712 animals was dose dependent. Our results suggest that PDE4 inhibitors during motor rehabilitation facilitate behavioral recovery and cortical reorganization after ischemic insult to levels significantly greater than that observed with rehabilitation alone.
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PMID:A novel phosphodiesterase type 4 inhibitor, HT-0712, enhances rehabilitation-dependent motor recovery and cortical reorganization after focal cortical ischemia. 1782 13

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