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 effects of rolipram, a cAMP-specific phosphodiesterase (phosphodiesterase 4) inhibitor, on experimentally-induced amnesia were examined using a 3-panel runway paradigm in rats and a passive avoidance task in mice. Scopolamine, cerebral ischemia induced by four-vessel occlusion and electric convulsive shock impaired working memory in the 3-panel runway task. Rolipram at 0.1 mg/kg reduced the increase in errors induced by scopolamine or cerebral ischemia. Rolipram at 0.32 mg/kg also reduced the increase in errors induced by electric convulsive shock. Dibutyryl cAMP also had similar effects in 3-panel runway experiments. In the passive avoidance task, rolipram reversed the impairments of the avoidance response induced by scopolamine, cycloheximide and electric convulsive shock at 10, 10 and 3 mg/kg, respectively. These results indicate that rolipram ameliorates impairments of learning and memory in rats and mice, and suggest that rolipram might ameliorate the impairments of learning and memory by elevating cAMP levels.
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PMID:Ameliorating effects of rolipram on experimentally induced impairments of learning and memory in rodents. 908 37

In rat thymic lymphocytes, accumulation of phosphatidic acid (PA) occurs at the same time as decrease in cAMP levels and activation of a cAMP-specific phosphodiesterase (PDE) [type 4, EC 3.1.4.17 (PDE4)]. We investigated the nature of the PDE activated by PA and the mechanism of activation by using recombinant cAMP-specific PDE4 isoforms derived from three different genes (PDE4A, PDE4B, and PDE4D). The "long" variants expressed from each gene (PDE4A5, PDE4B1, and PDE4D3) were activated by PA, whereas the "short" variants (PDE4A1, PDE4B2, PDE4D1, and PDE4D2) were not. Phosphatidylserine was an activator that was as effective as PA, whereas phosphatidylcholine was ineffective, indicating that activation was restricted to anionic phospholipids. PA caused an increase in the Vmax value of PDE4D3 without affecting the Km value of the enzyme for the cAMP substrate. PA also caused a change in the Mg2+ requirement for hydrolysis. Half-maximal stimulation of the PDE was obtained with approximately 10 microg/ml PA. Although protein kinase A-mediated phosphorylation of PDE4D3 produces effects similar to those elicited by PA, the mechanism of PA-induced activation was not found to involve a phosphorylation. Instead, several observations suggest that PA may directly interact with the enzyme. The stimulation of cAMP PDEs by PA and other acidic phospholipids may be a mechanism by which growth factors and hormones modulate the cAMP-dependent signal transduction pathway during cell stimulation.
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PMID:Selective activation of rolipram-sensitive, cAMP-specific phosphodiesterase isoforms by phosphatidic acid. 920 29

5'-Rapid amplification of cDNA ends, done on poly(A)+ RNA from human U87 cells, was used to identify 420 bp of novel 5' sequence of a PDE4B cAMP-specific phosphodiesterase (PDE). This identified an open reading frame encoding a putative 721-residue 'long-form' PDE4B splice variant, which we term HSPDE4B3. HSPDE4B3 differs from the two known PDE4B forms by virtue of its unique 79-residue N-terminal region, compared with the unique N-terminal regions of 94 and 39 residues found in HSPDE4B1 and HSPDE4B2 respectively. In transfected COS7 cells the two long forms, HSPDE4B1 and HSPDE4B3, had molecular masses of approx. 104 and approx. 103 kDa respectively. Expressed in COS-7 cells, the three HSPDE4B isoforms were found in the high-speed supernatant (cytosol) fraction as well as both the high-speed pellet (P2) and low-speed pellet (P1) fractions. All isoforms showed similar Km values for cAMP hydrolysis (1.5-2.6 microM). The maximal activities of the soluble cytosolic activity of the two long forms were very similar, whereas that of the short form, HSPDE4B2, was approx. 4-fold higher. Particulate-associated HSPDE4B1 and HSPDE4B2 were less active (approx. 40%) than their cytosol forms, whereas particulate HSPDE4B3 was similar in activity to its cytosolic form. Particulate and cytosolic forms of HSPDE4B1 and HSPDE4B3 were similarly inhibited by rolipram {4-[3-(cyclopentoxyl)-4-methoxyphenyl]-2-pyrrolidone}, the selective inhibitor of PDE4 (IC50 0.05-0.1 microM), whereas particulate-associated HSPDE4B2 was profoundly (approx. 10-fold) more sensitive (IC50 0.02 microM) to rolipram inhibition than its cytosolic form (IC50 0.2 microM). The various particulate-associated HSPDE4B isoforms showed very different susceptibilities to solubilization with the detergent Triton X-100 and high NaCl concentration. A novel cDNA, called pRPDE74, was obtained by screening a rat olfactory lobe cDNA library. This contained an open reading frame encoding a 721-residue protein that showed approx. 96% amino acid identity with HSPDE4B3 and is proposed to reflect the rat homologue of this human enzyme and is thus called RNPDE4B3. Alternative splicing of mRNA generated from both the human and rat PDE4B genes produces long and short splice variants that have unique N-terminal splice regions. It is suggested that these alternatively spliced regions determine changes in the maximal catalytic activity of the isoforms, their susceptibility to inhibition by rolipram and mode of interaction with particulate fractions.
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PMID:Molecular cloning and transient expression in COS7 cells of a novel human PDE4B cAMP-specific phosphodiesterase, HSPDE4B3. 937 14

The function of lymphocytes, like platelets, has been shown to be inhibited by agents which increase intracellular cyclic AMP. Two high-affinity cAMP phosphodiesterases (PDEs), the cyclic GMP-inhibited cAMP phosphodiesterase, PDE3, and the cAMP-specific phosphodiesterase PDE4, are known to regulate cAMP concentration in haemopoietic cells by degrading cAMP to AMP. We characterized the relative contribution of the two PDEs to total lymphocyte PDE activity. We then determined which of the different gene products, PDE3A, typical of myocardium and platelets, or PDE3B, typical of adipocytes, were present in lymphocytes. The PDE3-specific inhibitor, milrinone, and the PDE4 inhibitor, rolipram, suppressed hydrolysis by 70% and 30% respectively, which indicated that both PDE4 and PDE3 were present, and that PDE3 was predominant. RT-PCR yields the expected size fragment for the primer pair PDE3B and not for PDE3A. The DNA sequence obtained had >95% identity with PDE3B. PDE3B appears to be the major cAMP PDE in lymphocytes. In contrast to human platelets, human lymphocytes appear to contain the PDE3B subtype. Since PDE3B in adipocytes is subject to hormonal regulation, lymphocytes may be similarly modulated. Understanding the role of cAMP regulation and the involvement of cAMP in lymphocyte function may have important implications in drug development.
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PMID:Cyclic AMP phosphodiesterases in human lymphocytes. 943 22

A cAMP-specific phosphodiesterase was found that is stimulated by binding to the regulatory subunit of cAMP-dependent protein kinase, PKA-R, from either Dictyostelium or mammals. The phosphodiesterase is encoded by the regA gene of Dictyostelium, which was recovered in a mutant screen for strains that sporulate in the absence of signals from prestalk cells. The sequence of RegA predicts that it will function as a member of a two-component system. Genetic analyses indicate that inhibition of the phosphodiesterase results in an increase in the activity of PKA, which acts at a check point for terminal differentiation. Conserved components known to affect memory, learning and differentiation in flies and vertebrates suggest that a similar circuitry functions in higher eukaryotes.
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PMID:A cAMP-phosphodiesterase controls PKA-dependent differentiation. 943 89

The mechanisms by which adenosine regulates the inflammatory reaction are poorly characterized. In this study, we investigated the effects of adenosine on neutrophil actin polymerization elicited by the chemotactic peptide N-formyl-methionyl-leucyl-phenylalanine (fMLP) or IgG-opsonized yeast particles. We used bodipy-phallacidin staining in combination with flow cytometry and found that adenosine markedly reduced actin polymerization triggered by IgG-yeast, whereas the effect on the fMLP-response was less pronounced. Similar or even more pronounced effects were obtained with the adenosine A2 receptor agonist 5'-N-ethylcarboxamidoadenosine (NECA), suggesting an A2 receptor-mediated mechanism. The following observations indicate that the A2 receptor-induced effects involve the cAMP-protein kinase A (PKA) signaling pathway: (1) a combination of NECA and the cAMP-specific phosphodiesterase (PDE) inhibitor Ro 20-1724 raised the cAMP content in both unstimulated and stimulated neutrophils and also further inhibited the actin dynamics; (2) the PKA inhibitor H89 reversed the inhibitory effects of NECA on the actin dynamics; (3) Ro 20-1724, isoproterenol and dibutyryl cAMP (DBcAMP) reduced actin polymerization in almost the same way as NECA did. NECA together with Ro 20-1724 impaired the fMLP-induced shape changes and cortical accumulation of actin filaments. In contrast, H89 potentiated the fMLP-induced formation of a submembranous ring of actin filaments. Neutrophils phagocytosing yeast particles in the presence of NECA and Ro 20-1724 were predominantly round in shape, and their ability to extend actin-rich pseudopods around the prey was reduced. These effects were partly antagonized by H89. In correlation with the effects on actin polymerization, NECA more effectively diminished IgG-induced upregulation of the beta2 integrin CD11b/CD18 than such upregulation induced by fMLP. The inhibitory effects of A2-receptor activation on actin dynamics and beta2 integrin expression in neutrophils exposed to IgG-yeast were also associated with a cAMP-dependent reduction of the phagocytic capacity. In conclusion, we show that adenosine inhibits actin dynamics and shape changes in neutrophils via a cAMP-dependent pathway. This finding further characterizes the mechanisms by which adenosine functions as an important modulator of the inflammatory response.
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PMID:Adenosine inhibits actin dynamics in human neutrophils: evidence for the involvement of cAMP. 954 70

The alpha6beta4 integrin promotes carcinoma in-vasion by its activation of a phosphoinositide 3-OH (PI3-K) signaling pathway (Shaw, L.M., I. Rabinovitz, H.H.-F. Wang, A. Toker, and A.M. Mercurio. Cell. 91: 949-960). We demonstrate here using MDA-MB-435 breast carcinoma cells that alpha6beta4 stimulates chemotactic migration, a key component of invasion, but that it has no influence on haptotaxis. Stimulation of chemotaxis by alpha6beta4 expression was observed in response to either lysophosphatidic acid (LPA) or fibroblast conditioned medium. Moreover, the LPA-dependent formation of lamellae in these cells is dependent upon alpha6beta4 expression. Both lamellae formation and chemotactic migration are inhibited or "gated" by cAMP and our results reveal that a critical function of alpha6beta4 is to suppress the intracellular cAMP concentration by increasing the activity of a rolipram-sensitive, cAMP-specific phosphodiesterase (PDE). This PDE activity is essential for lamellae formation, chemotactic migration and invasion based on data obtained with PDE inhibitors. Although PI3-K and cAMP-specific PDE activities are both required to promote lamellae formation and chemotactic migration, our data indicate that they are components of distinct signaling pathways. The essence of our findings is that alpha6beta4 stimulates the chemotactic migration of carcinoma cells through its ability to influence key signaling events that underlie this critical component of carcinoma invasion.
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PMID:Release of cAMP gating by the alpha6beta4 integrin stimulates lamellae formation and the chemotactic migration of invasive carcinoma cells. 985 65

The hypothesis that the selective activation of cyclic AMP (cAMP) signal transduction pathways will suppress the initiation of cocaine self-administration was examined in this investigation. To test this hypothesis, the effects of the administration of the cAMP-specific (type IV) phosphodiesterase inhibitors, rolipram and Ro 20-1724, on cocaine self-administration were determined. The effects of Ro 20-1724 treatment on operant responding for food also were examined. Both cocaine and food were delivered following a fixed-ratio 5 schedule. A significant increase in the latency for the delivery of the first cocaine infusion and a reduction in the number of infusions obtained per session were produced by treatment with either rolipram or Ro 20-1724. Similar effects on responding for food were seen with Ro 20-1724 administration. Responding after drug-induced delays tended to be at control levels. These results suggest that cAMP-specific phosphodiesterase inhibitors may inhibit the initiation of operant responding for either cocaine or food. However, the extent to which these actions involve specific effects on central motivational systems as opposed to other mechanisms remains to be determined.
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PMID:The type IV phosphodiesterase inhibitors, Ro 20-1724 and rolipram, block the initiation of cocaine self-administration. 997 58

The cAMP-specific phosphodiesterase (PDE) HSPDE 4A4B(pde46) selectively bound SH3 domains of SRC family tyrosyl kinases. Such an interaction profoundly changed the inhibition of PDE4 activity caused by the PDE4-selective inhibitor rolipram and mimicked the enhanced rolipram inhibition seen for particulate, compared with cytosolic pde46 expressed in COS7 cells. Particulate pde46 co-localized with LYN kinase in COS7 cells. The unique N-terminal and LR2 regions of pde46 contained the sites for SH3 binding. Altered rolipram inhibition was triggered by SH3 domain interaction with the LR2 region. Purified LYN SH3 and human PDE4A LR2 could be co-immunoprecipitated, indicating a direct interaction. Protein kinase A-phosphorylated pde46 remained able to bind LYN SH3. pde46 was found to be associated with SRC kinase in the cytosol of COS1 cells, leading to aberrant kinetics of rolipram inhibition. It is suggested that pde46 may be associated with SRC family tyrosyl kinases in intact cells and that the ensuing SH3 domain interaction with the LR2 region of pde46 alters the conformation of the PDE catalytic unit, as detected by altered rolipram inhibition. Interaction between pde46 and SRC family tyrosyl kinases highlights a potentially novel regulatory system and point of signaling system cross-talk.
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PMID:Association with the SRC family tyrosyl kinase LYN triggers a conformational change in the catalytic region of human cAMP-specific phosphodiesterase HSPDE4A4B. Consequences for rolipram inhibition. 1020 97

The functional influence of cell proteoglycan (PG) undersulfation on estradiol synthesis by immature rat Sertoli cell cultures was investigated by using sodium chlorate, an inhibitor of the active sulfate donor for sulfotransferases. The addition of sodium chlorate to 20-day-old rat Sertoli cell cultures abolished [35S]-sulfate incorporation into neosynthesized PG and consequently reduced the residence time of undersulfated PG in cell membrane. Simultaneously, follicle-stimulating hormone (FSH)-stimulated estradiol synthesis was increased by 45%. The effects of sodium chlorate upon Sertoli cell PG synthesis and steroidogenesis were not reproduced with the addition of sodium chloride. Addition of phosphodiesterase inhibitors (MIX or Ro20-1724) decreased the magnitude of the chlorate effect on FSH-stimulated steroidogenesis, suggesting that part of chlorate's effect on steroidogenesis resulted from a decrease in adenosine cyclic 3',5'-phosphate (cAMP)-specific phosphodiesterase activity. Additionally, chlorate 1) increased Sertoli cell steroidogenesis at a step located beyond cAMP (restricted to Sertoli cell cultures exhibiting moderate steroidogenic response to (Bu)2cAMP) and 2) abolished the inhibition of steroidogenesis induced by transforming growth factor-beta. These results support our previous data, which showed that alteration in PG synthesis and the consequent decrease in cell membrane PG content induce an increase in FSH-stimulated estradiol synthesis in Sertoli cell cultures. The identification of cAMP-specific phosphodiesterase activity as a signal transduction step modified by PG undersulfation suggests the possible involvement of cell PG in the regulation of phosphodiesterase activity and, therefore, of FSH responsiveness during testicular development.
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PMID:Sodium chlorate induces undersulfation of cellular proteoglycans and increases in FSH-stimulated estradiol production in immature rat Sertoli cells. 1023 59

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