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)

The following study was performed to determine the effects of phosphodiesterase IV (PDE-IV) inhibition and its attenuation of tumor necrosis factor (TNF alpha) production in a rat model of the Adult Respiratory Distress Syndrome (ARDS). Rats were either unexposed (n = 8), pretreated orally with vehicle prior to intratracheal saline exposure (n = 11), pretreated with vehicle prior to 7 mg/kg intratracheal endotoxin (LPS) administration (n = 22), or pretreated with 5 or 50 mg/kg rolipram prior to LPS exposure (n = 6 and 7, respectively). Blood was sampled 1 and 3 hr post LPS exposure and assayed for plasma TNF alpha concentrations. Twenty-four hours after LPS exposure, blood was sampled again for hematologic measurements. The rats were then anesthetized and exsanguinated. Bronchoalveolar lavage (BAL) was performed after the lung of each rat was removed and weighed. Rolipram pretreatment was protective against LPS-induced mortality and also resulted in reduced plasma TNF alpha concentrations. LPS induced pulmonary edema, as indicated by wet/dry lung weight ratio (W/D) and total BAL protein content (TP) was attenuated by rolipram pretreatment. LPS-induced alveolar hemorrhage was reduced by rolipram pretreatment, but LPS-induced pulmonary neutrophilia was not. The hemoconcentration induced by LPS was reduced by rolipram, as was the LPS-induced thrombocytopenia. However, LPS-induced changes in circulating leukocyte populations were actually exacerbated by rolipram. LPS-induced alterations in renal and hepatic function, indicated by increased blood urea nitrogen (BUN), alanine aminotransferase (ALT), and aspartate aminotransferase (AST), were inhibited by rolipram.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Therapeutic intervention in a rat model of ARDS: IV. Phosphodiesterase IV inhibition. 838 94

These studies were conducted to determine whether the alpha 2-agonists epinephrine and dexmedetomidine inhibit osmotic water permeability (Pf) and urea permeability (Pu) in the rat inner medullary collecting duct (IMCD). Wistar rat IMCD segments were perfused via standard methods, and Pf and Pu were determined in separate studies. The control period was followed by adding 220 pM arginine vasopressin (AVP) or 10(-4) M dibutyryladenosine 3',5'-cyclic monophosphate (DBcAMP) to the bath. Epinephrine or dexmedetomidine, both at 1 microM, was then added to the bath, and this period was followed by adding 1 microM atipamezole, a selective alpha 2-antagonist. The phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine was present in all experiments with DBcAMP. Epinephrine inhibited AVP- and DBcAMP-stimulated Pf by 90% and 80%, respectively. Dexmedetomidine inhibited AVP- and DBcAMP-stimulated Pf by 98% and 97%, respectively. Epinephrine inhibited AVP- and DBcAMP-stimulated Pu by 70% and 60%, respectively. Dexmedetomidine failed to affect Pu. Atipamezole reversed all inhibitory effects. These data confirm an alpha 2-mediated mechanism in the IMCD that modulates Pf and Pu, and they indicate that inhibition occurs via post-cAMP cellular events.
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PMID:Alpha 2-adrenergic-mediated inhibition of water and urea permeability in the rat IMCD. 876 Feb 56

The amount of glycerophosphocholine (GPC) in renal medullary cells in vivo and in cultured renal [Madin-Darby canine kidney (MDCK)] cells varies with extracellular NaCl and urea. We previously showed that this is largely due to modulation of GPC degradation catalyzed by GPC:choline phosphodiesterase (GPC: PDE). GPC also varies inversely with the levels of other compatible osmolytes, the accumulation of which is induced by high tonicity. We tested whether GPC:PDE activity and GPC degradation are affected by accumulation of compatible osmolytes other than GPC. We find that MDCK cell GPC content decreases when the cells take up betaine and/or inositol from the medium. The effect is considerably greater for cells in isosmotic or high-NaCl medium than in high-urea medium. This difference is associated with suppression of betaine and inositol accumulation with high urea. We then measured GPC:PDE activity with a novel chemiluminescent assay. Addition of inositol and/or betaine to the medium greatly increases GPC:PDE activity in cells in isosmotic or high-NaCl media, but the increase is much less in high-urea medium. The increases in GPC:PDE activity, associated with the presence of betaine, are accompanied by commensurate increases in absolute rates of endogenous GPC degradation by cells in isosmotic or high-NaCl medium. We found previously that, in MDCK cells incubated for 2 days in high-NaCl medium, the rate of GPC synthesis from phosphatidylcholine is increased, correlated with an increase in phospholipase activity. However, in the present experiments, betaine accumulation has no effect on phospholipase activity under those conditions and, thus, presumably does not affect GPC synthesis. Collectively, these data support the conclusion that betaine and/or inositol reduces GPC by increasing GPC degradation catalyzed by GPC:PDE. This mechanism enables GPC to be reciprocally regulated relative to other compatible osmolytes, thus maintaining an appropriate total osmolyte content.
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PMID:Betaine and inositol reduce MDCK cell glycerophosphocholine by stimulating its degradation. 877 45

Ionic reabsorption along the ascending limb of Henle's loop (TAL) is controlled by hormonal stimulation. Most of the hormones that affect this reabsorption regulate ionic transporter activity via cAMP, and some of these hormonal actions have been shown to be modulated by interstitial osmolarity. We studied the early effects of increasing extracellular urea concentration on the production of cAMP induced by arginine vasopressin (AVP) and forskolin in a suspension of medullary portions of TAL (MTAL) prepared from mouse kidney. The addition of urea, performed fifteen minutes before adenylyl cyclase stimulation, decreased both AVP- and forskolin-induced cAMP production. This effect, observed both in the presence and the absence of phosphodiesterase inhibition, was optimal with 300 mmol/liter urea. Addition of urea to the extracellular medium disturbed several cellular parameters, but the decrease in cAMP production appeared to be mediated by the activation of both the protein kinase A and a phosphatase rather than by the modifications in phospholipid metabolism. Since cAMP is the major cytosolic transductional factor in MTAL cells, urea present in the medullary interstitium may thus be considered as an important modulator of hormonal actions in this segment of the nephron.
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PMID:Extracellular urea concentration modulates cAMP production in the mouse MTAL. 880 68

A 19-amino acid residue peptide, Gly-Trp-Leu-Lys-Ile-Lys-Ala-Ala-Met-Arg-Trp-Gly-Phe-Phe-Val-Arg-Lys-Lys- Ala, corresponding to the basic amphiphilic alpha-helix (BAA) motif at the C-terminus of a recombinant tobacco calmodulin-binding protein, TCB60, was synthesized. The interaction of the synthetic binding domain with calmodulin (CaM) was analyzed by gel mobility shift assays, phosphodiesterase competition assays, and fluorescence, circular dichroism, and nuclear magnetic resonance spectroscopy. Mobility shift assays showed an apparent 2 kDa increase in CaM Mr in presence of synthetic peptide and CaCl2 in 4 M urea polyacrylamide gel electrophoresis. HPLC measurements of hydrolysis of cyclic AMP by CaM-dependent phosphodiesterase indicated the synthetic peptide competitively inhibits (Ki = 15-20 nM) stimulation of phosphodiesterase activity by CaM. Upon binding CaM, the fluorescence emission maximum of the synthetic peptide, which contained two tryptophanyl residues, shifted toward blue and increased in intensity. The circular dichroism spectra indicated the ellipticity of CaM increased at 208 and 222 nm upon complex formation with the synthetic peptide. 1H NMR studies showed that the peptide interacts with the aromatic residues in domains I and III of CaM. Taken together, these data provide direct evidence that the structurally conserved basic amphiphilic alpha-helix CaM-binding domain of the recombinant tobacco CaM-binding protein interacts with CaM at physiologically significant nanomolar concentrations and the microenvironments of both CaM and the synthetic binding domain are modified upon complex formation.
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PMID:Characterization of the basic amphiphilic alpha-helix calmodulin-binding domain of a 61.5 kDa tobacco calmodulin-binding protein. 904

The intrinsic GTPase activity of transducin controls inactivation of the effector enzyme, cGMP phosphodiesterase (PDE), during turnoff of the visual signal. The inhibitory gamma-subunit of PDE (Pgamma), an unidentified membrane factor and a retinal specific member of the RGS family of proteins have been shown to accelerate GTP hydrolysis by transducin. We have expressed a human homologue of murine retinal specific RGS (hRGSr) in Escherichia coli and investigated its role in the regulation of transducin GTPase activity. As other RGS proteins, hRGSr interacted preferentially with a transitional conformation of the transducin alpha-subunit, GtalphaGDPAlF4-, while its binding to GtalphaGTPgammaS or GtalphaGDP was weak. hRGSr and Pgamma did not compete for the interaction with GtalphaGDPAlF4-. Affinity of the Pgamma-GtalphaGDPAlF4- interaction was modestly enhanced by addition of hRGSr, as measured by a fluorescence assay of GtalphaGDPAlF4- binding to Pgamma labeled with 3-(bromoacetyl)-7-diethylaminocoumarin (PgammaBC). Binding of hRGSr to GtalphaGDPAlF4- complexed with PgammaBC resulted in a maximal approximately 40% reduction of BC fluorescence allowing estimation of the hRGSr affinity for GtalphaGDPAlF4- (Kd 35 nM). In a single turnover assay, hRGSr accelerated GTPase activity of transducin reconstituted with the urea-stripped rod outer segment (ROS) membranes by more than 10-fold to a rate of 0.23 s-1. Addition of Pgamma to the reconstituted system reduced the GTPase level accelerated by hRGSr (kcat 0.085 s-1). The GTPase activity of transducin and the PDE inactivation rates in native ROS membranes in the presence of hRGSr were elevated 3-fold or more regardless of the membrane concentrations. In ROS suspensions containing 30 microM rhodopsin these rates exceeded 0.7 s-1. Our data suggest that effects of hRGSr on transducin's GTPase activity are attenuated by Pgamma but independent of a putative membrane GTPase activating protein factor. The rate of transducin GTPase activity in the presence of hRGSr is sufficient to correlate it with in vivo turnoff kinetics of the visual cascade.
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PMID:Regulation of transducin GTPase activity by human retinal RGS. 921 88

Fifty percent of the mice homozygous for a deletion in the gene for CCAAT/enhancer-binding protein beta (C/EBP beta-/- mice; B phenotype) die within 1 to 2 h after birth of hypoglycemia. They do not mobilize their hepatic glycogen or induce the cytosolic form of phosphoenolpyruvate carboxykinase (PEPCK). Administration of cAMP resulted in mobilization of glycogen, induction of PEPCK mRNA, and a normal blood glucose; these mice survived beyond 2 h postpartum. Adult C/EBP beta-/- mice (A phenotype) also had difficulty in maintaining blood glucose levels during starvation. Fasting these mice for 16 or 30 h resulted in lower levels of hepatic PEPCK mRNA, blood glucose, beta-hydroxybutyrate, blood urea nitrogen, and gluconeogenesis when compared with control mice. The concentration of hepatic cAMP in these mice was 50% of controls, but injection of theophylline, together with glucagon, resulted in a normal cAMP levels. Agonists (glucagon, epinephrine, and isoproterenol) and other effectors of activation of adenylyl cyclase were the same in liver membranes isolated from C/EBP beta-/- mice and littermates. The hepatic activity of cAMP-dependent protein kinase was 80% of wild type mice. There was a 79% increase in the concentration of RI alpha and 27% increase in RII alpha in the particulate fraction of the livers of C/EBP beta-/- mice relative to wild type mice, with no change in the catalytic subunit (C alpha). Thus, a 45% increase in hepatic cAMP (relative to the wild type) would be required in C/EBP beta-/- mice to activate protein kinase A by 50%. In addition, the total activity of phosphodiesterase in the livers of C/EBP beta-/- mice, as well as the concentration of mRNA for phosphodiesterase 3A (PDE3A) and PDE3B was approximately 25% higher than in control animals, suggesting accelerated degradation of cAMP. C/EBP beta influences the regulation of carbohydrate metabolism by altering the level of hepatic cAMP and the activity of protein kinase A.
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PMID:Mice with a deletion in the gene for CCAAT/enhancer-binding protein beta have an attenuated response to cAMP and impaired carbohydrate metabolism. 1102 29

Acute endotoxemic renal failure involves renal vasoconstriction, which presumably occurs despite increased nitric oxide (NO) generation by inducible NO synthase in the kidney. The present study examined the hypothesis that the renal vasoconstriction during endotoxemia occurs in part because of desensitization of soluble guanylate cyclase (sGC). Endotoxic shock was induced in male B6/129F2/J mice by an intraperitoneal injection of Escherichia coli lipopolysaccharide. The endotoxemia resulted in shock and renal failure as evidenced by a decrease in mean arterial pressure and an increase in serum creatinine and urea nitrogen. Serum NO increased in a time-dependent manner, reaching the highest levels at 24 h, in parallel with induction of inducible NO synthase protein in the renal cortex. In renal cortical slices obtained from endotoxemic mice, cyclic guanosine monophosphate (cGMP) increased significantly at 6 h and 15 h as compared with control but normalized at 24 h after injection of lipopolysaccharide. Incubation of renal cortical slices in the presence of a phosphodiesterase inhibitor isobutylmethylxantine did not alter the pattern of changes in cGMP. Incubation of renal cortical slices with 2 mM sodium nitroprusside resulted in a similar accumulation of cGMP in slices taken from control and endotoxemic mice at 6 h and 15 h. However, in slices from 24-h endotoxemic mice, accumulation of cGMP in response to sodium nitroprusside was significantly lower. This lower stimulability of sGC was not paralleled by a decrease in its abundance in renal cortex on immunoblot. Taken together, these results demonstrate a desensitization of sGC in renal cortex during endotoxemia, which may contribute to the associated renal vasoconstriction.
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PMID:Desensitization of soluble guanylate cyclase in renal cortex during endotoxemia in mice. 1105 91

Mammalian sperm motility, capacitation, and the acrosome reaction are regulated by signal transduction systems involving cAMP as a second messenger. Levels of cAMP are controlled by two key enzymes, adenylyl cyclase and phosphodiesterases (PDEs), the latter being involved in cAMP degradation. Calmodulin-dependent PDE (PDE1) and cAMP-specific PDE (PDE4) activities were previously identified in spermatozoa via the use of specific inhibitors. Here we report that human sperm PDEs are associated with the plasma membrane (50%-60%) as well as with the particulate fraction (30%-50%) and have more affinity for cAMP than cGMP. Immunocytochemical data indicated that PDE1A, a variant of PDE1, is localized on the equatorial segment of the sperm head as well as on the mid and principal pieces of the flagellum, and that PDE3A is found on the postacrosomal segment of the sperm head. Immunoblotting confirmed the presence of PDE1A and PDE3A isoforms in spermatozoa. Milrinone, a PDE3 inhibitor, increased intracellular levels of cAMP by about 15% but did not affect sperm functions, possibly because PDE3 represents only a small proportion of the sperm total PDE activity (10% and 25% in Triton X-100 soluble and particulate fractions, respectively). PDE1A activity in whole sperm extract or after partial purification by anion-exchange chromatography was not stimulated by calcium + calmodulin. Results obtained with electrophoresis in native conditions indicated that calmodulin is tightly bound to PDE1A. Incubation with EGTA + EDTA, trifluoperazine, or urea did not dissociate the PDE1A-calmodulin complex. These results suggest that PDE1A is permanently activated in human spermatozoa.
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PMID:Presence of cyclic nucleotide phosphodiesterases PDE1A, existing as a stable complex with calmodulin, and PDE3A in human spermatozoa. 1213 76

We are studying a Turkish family with autosomal-dominant hypertension and brachydactyly; affected persons die of stroke before 50 years of age. With interphase fluorescence in situ hybridization, we found a chromosome 12p deletion, reinsertion, and inversion in affected persons. This finding suggested that the hypertension could be caused by one or more of 3 genes, the ATP-dependent potassium channel Kir6.1, its regulator the sulfonyl urea receptor SUR2, and the phosphodiesterase PDE3A. We further studied 6 affected and 4 nonaffected persons. Buttocks biopsies were done, small vessels were tested on a myograph, and mRNA was extracted. We performed forearm blood flow studies with intrabrachial artery diazoxide, isoproterenol, and milrinone infusions. Systemic pharmacological testing was done with intravenous diazoxide, nitroprusside, and isoproterenol. PDE3A mRNA was high in vessels from 3 affected subjects, but not high in 3 others. The vessels responded similarly to forskolin, with or without glibenclamide, and to cromakalim. However, there was a suggestion that the dilatation after milrinone might be exaggerated. The forearm infusion studies showed no differences in the responses to diazoxide, isoproterenol, or milrinone. Systemically, affected persons showed a greater blood pressure response to diazoxide and nitroprusside, and a greater heart rate response to isoproterenol than nonaffected persons. The results shed doubt on Kir6.1 and SUR2. The differences in PDE3A expression and responses may be the result of hypertension rather than the cause. Although our 3 candidate genes are no longer likely, the rearrangement we describe greatly enhances the perspectives of this project.
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PMID:Autosomal-dominant hypertension with type E brachydactyly is caused by rearrangement on the short arm of chromosome 12. 1470 63

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