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)

A method for the separation of cyclic AMP from adenosine and polyvalent adenine nucleotides is described. The method consists of the sequential elution of adenosine and cyclic AMP from a single column of acidic aluminum oxide (alumina) with dilute hydrochloric acid and ammonium acetate. Adenosine, adenine, xanthine, and hypoxanthine are rapidly eluted with the application of 0.005 N hydrochloric acid while cyclic AMP remains adsorbed to the alumina. A subsequent application of 0.1 M ammonium acetate elutes more than 90% of the cyclic AMP. Under these conditions, polyvalent nucleotides (AMP, ADP, and ATP) remain adsorbed to the alumina. The method permits the measurement of adenylylcyclase activity using [3H]ATP as the labeled substrate. The same technique can be used to measure the accumulation of cyclic AMP in intact cells after labeling the ATP pool with [3H]adenine. With slight modification, the technique can be used to measure the activity of cyclic-AMP phosphodiesterase using [3H]cyclic AMP as the substrate. The proposed technique provides rapid, highly reproducible assays using inexpensive, disposable columns.
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PMID:A separation method for the assay of adenylylcyclase, intracellular cyclic AMP, and cyclic-AMP phosphodiesterase using tritium-labeled substrates. 132 36

T and B lymphocyte antigen receptors exhibit single transmembrane spanning regions and very short, three to five amino acid, C-terminal cytoplasmic tails. Ligation of these receptors leads, apparently through GTP binding protein activation, to rapid stimulation of a polyphosphoinositide specific phosphodiesterase (PPI-PDE). T lymphocyte antigen receptors (alpha beta) are coupled to PPI-PDE via a receptor associated complex of membrane proteins, designated CD3. Although an analogous transducer complex is presumed to exist in B cells, no such structure has been defined. We utilized in vitro [32P]phosphorylation to identify and characterize a membrane immunoglobulin (mIg) associated phosphoprotein complex which appears to represent a B cell analog of CD3. The phosphoprotein complex consists of three N-glycosylated polypeptides which occur as disulfide linked dimers, non-covalently associated with mIg. The complex associated with mIgM (pp32, pp34 and pp37 subunits) differs from that associated with mIgD (pp33, pp34 and pp37 subunits), and the isotype specific phosphoprotein (pp32 or pp33) appears to exist as a disulfide linked heterodimer with either pp34 or pp37. Aluminum fluoride stimulates phosphorylation of all of the subunits, and at least one of the proteins is phosphorylated on a tyrosine residue(s).
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PMID:B lymphocyte antigen receptors (mIg) are non-covalently associated with a disulfide linked, inducibly phosphorylated glycoprotein complex. 215 71

Aluminum ion perturbs the activity of a number of physiologically important enzymes, including members of a family of guanine nucleotide-binding proteins (G-proteins). G-proteins couple cellular receptor proteins to a variety of effector enzymes (including adenylate cyclase, phospholipase C, and the rod photoreceptor phosphodiesterase). We show herein that subnanomolar concentrations of free aluminum ion, produced in a carefully defined and kinetically stable manner through the buffering of total aluminum at 0.1-1.0 mM with calculated ratios of chelating agents, inhibit both the receptor-mediated activation and the self-inactivating GTPase activity of the rod photoreceptor G-protein, Gv. In the presence of 4 X 10(-10) M free aluminum ion, GTPase activity is inhibited from about 25-60% as the magnesium ion concentration is reduced from 10(-3) to about 5 X 10(-5) M. The principal effect of aluminum ion upon Gv is to inhibit receptor catalyzed nucleotide exchange. Binding of the GTP analog 5'-guanylyl imidodiphosphate can be reduced by as much as 90% by aluminum ion following subsaturating rhodopsin stimulation. Aluminum ion can produce either competitive or mixed noncompetitive inhibition of rhodopsin-catalyzed Gv activation and GTPase activity, as a function of whether Gv undergoes single (competitive), or multiple (mixed noncompetitive) nucleotide exchanges. The rod photoreceptor phosphodiesterase is only slightly inhibited by similar aluminum ion activities. Light- and Gv-coupled phosphodiesterase activation exhibits both a lower maximum rate of cyclic guanosine monophosphate hydrolysis and a slower inactivation in the presence of aluminum ion activities from about 10(-12) - 10(-10) M. These data suggest that intracellular free aluminum ion concentrations in the subnanomolar range could markedly affect the ability of cells to transduce extracellular signals. Interestingly, the combination of Al3+ and F- to produce the fluoro-aluminate species (AlFx) also inhibits the GTPase of G-proteins, although the mechanism of inhibition (e.g. binding to the G-protein.Mg2+.GDP complex) is totally distinct from that observed for free Al3+ and the overall effect on signal transduction (e.g. enhanced signal amplification) is in complete opposition to that observed for free Al3+.
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PMID:Inhibition of transducin activation and guanosine triphosphatase activity by aluminum ion. 253 40

Phosphodiesterase activity was stimulated in myelin membranes in the presence of guanine nucleotide analogues. This activity was reduced in myelin membranes which had been adenosine diphosphate ribosylated in the presence of cholera toxin which ADP-ribosylated three proteins of Mr 46,000, 43,000 and 18,500. Aluminum fluoride treatment of myelin had the same stimulatory effects on phosphodiesterase activity as did the guanine nucleotides.
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PMID:Guanine nucleotides stimulate hydrolysis of phosphatidyl inositol bis phosphate in human myelin membranes. 254 48

Cells of the human medulloblastoma clonal line TE671 exhibit polymorphism when grown in vitro in serum-supplemented medium. Under these conditions, cell numbers double every 18 h during log phase growth. These tumorigenic precursors of cerebellar interneurons are not contact-inhibited and approach densities of one million cells per cm2. TE671 cells in proliferative growth express a class of nicotinic acetylcholine receptors that are fully sensitive to functional blockade by the neurotoxin alpha-bungarotoxin (Bgt). TE671 cells grown in medium containing dibutyryl cyclic adenosine monophosphate (dbcAMP) rapidly undergo a distinctive morphological transformation characterized by neurite extension and formation of cell-cell contacts. The rate of cell division and cell saturation densities are diminished coordinately with these treatments. Sodium fluoride and forskolin induce similar changes in cell division and morphology as does dbcAMP, and these effects are potentiated by aluminum and the phosphodiesterase inhibitor, 3-isobutyl-1-methylxanthine, respectively. The high-affinity binding of Bgt to TE671 cells also is reduced on exposure to dbcAMP in a time and dose-dependent manner. The results suggest that activation of adenylate cyclase and the concomitant elevation of intracellular cAMP levels may be involved in the morphological transformation of TE671 cells to a mature, neuronal phenotype and in changes in the level of expression of a subtype of human neuronal nicotinic receptors. These studies establish a unique, neural tube-derived model system for investigation of the mechanisms involved in these processes.
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PMID:Morphological and biochemical differentiation of the human medulloblastoma cell line TE671. 285 72

The effects of fluoride on ROS phosphodiesterase and G-protein have been studied using membrane-free extracts. When G-protein was present NaF, at millimolar concentrations, stimulated PDE activity however, in a G-protein free extract, cGMP hydrolysis was inhibited by high fluoride concentrations. Fluoride was also found to profoundly inhibit the ability of G-protein to bind a GTP analogue, GTP gamma S, both in the presence and absence of rhodopsin. Aluminium greatly modified these effects of fluoride on PDE and G-protein. The possibility that fluoride activates PDE through its effect on G-protein is discussed.
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PMID:Effects of fluoride on retinal rod outer segment cGMP phosphodiesterase and G-protein. 299 45

In the search for the mode of action of aluminum ions in dialysis encephalopathy, their interaction with calmodulin has been assessed, and compared with those of Ca2+, Pb2+, Mn2+, Hg2+ and Cd2+. The basal and calmodulin-dependent activity of phosphodiesterase was measured in the presence of the ions, and their binding to calmodulin was assessed by competition with 45Ca2+ in flow dialysis. Al3+, Mn2+, Hg2+, and Cd2+ cannot be regarded as exclusive calmodulin antagonists or agonists, but rather interact with the phosphodiesterase itself. Pb2+ however, mimicks Ca2+ in every system tested, and is active in the same concentration range as Ca2+. Our results indicate that the assumed role of Al3+ ions in dialysis encephalopathy or other neurological disturbances is not linked with calmodulin.
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PMID:The interaction of aluminum and other metal ions with calcium-calmodulin-dependent phosphodiesterase. 300 81

Although it is well known that aluminum (Al) plays a role in the development of osteomalacia in patients with chronic renal failure, the mechanisms are not fully understood. Since the osteoblasts are the cells responsible for the formation of osteoid tissue, which is greatly affected in patients with Al-induced osteomalacia, it is possible that Al could affect the number of osteoblasts or interfere with their function. To further characterize this potential mechanism, we performed studies in isolated perfused tibiae from normal and Al-treated dogs. In this system, when PTH is added to the perfusate, cAMP, a major marker of osteoblasts, is released. The dogs were divided into two groups: control, and Al-treated (0.75 mg/kg, iv, 5 days a week for 3 months). Thereafter, the dogs were killed, and the tibiae were perfused in vitro. PTH-(1-34) (3-4 ng/ml) and 3-isobutyl-1-methylxanthine (an inhibitor of phosphodiesterase) were added to the perfusate. Basal cAMP secretion was the same in both groups of dogs. After PTH was added to the perfusate, cAMP increased to a peak of 188.2 +/- 30.6 pmol/min in the normal dogs vs. 113 +/- 8.15 in Al-treated dogs (P less than 0.05). Cumulative cAMP secretion over a 30-min period was 766 +/- 127.9 pmol in the normal dogs vs. 455.6 +/- 38.2 pmol in the experimental animals (P less than 0.05). The histological appearance of bone biopsies taken before and after Al administration are consistent with a suppressive effect of the cation on osteoblast function. In particular, the number of osteoblasts had decreased 8-fold (P less than 0.01) under the influence of Al, and tetracycline-based measurements of mineralization kinetics show that osteoblast-mediated calcification was dysfunctional (P less than 0.01-0.025). On the other hand, the histological features of the post Al treatment biopsies suggest that at some time during its administration, the cation stimulates osteoblastic activity. For example, new (woven) bone formation was present in two dogs, and in another, lamellar bone, deposited under the influence of Al, covered the entire trabecular surface. Moreover, Al-associated osteoid was deposited independent of prior resorptive activity, indicating that the cation promotes bone formation in the absence of prior resorption. In keeping with its trophic effect on matrix deposition, Al also led to extensive marrow fibrosis in five dogs, indicating that Al also stimulates the activity of fibroblasts, cells closely related to osteoblasts.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Biological effects of aluminum on normal dogs: studies on the isolated perfused bone. 303 73

With magnesium present, fluoride and aluminum ions activate heterotrimeric G-proteins by forming AlFx complexes that mimic the gamma phosphate of a GTP. We report compelling evidence for a newly proposed process of G-protein activation by fluoride and magnesium, without Al3+. With millimolar Mg2+ and F-, Gs and Gt activate adenylylcyclase and cGMP-phosphodiesterase, respectively. In 31P NMR, addition of magnesium to Gi1 alpha GDP or Gt alpha GDP solutions containing fluoride, but no Al3+, modifies the chemical shift of the GDP beta phosphorus, suggesting that magnesium interacts with the beta phosphate. Titration of this effect indicates that two Mg2+ are bound per G alpha. Biphasic activation kinetics, monitored by G alpha tryptophan fluorescence, suggests the rapid binding of one Mg2+ to G alpha GDP and the slow association of another Mg2+, in correlation with fluoride binding and G alpha activation. The deactivation rate upon fluoride dilution shows a second order dependence with respect to the residual F- concentration, suggesting the sequential release of at least three F-/G alpha. Thus, in millimolar Mg2+ and F-, and without Al3+, two Mg2+ and three F- bind sequentially to G alpha GDP and induce the switch to an active G alpha (GDP-MgF3)Mg state, which is structurally analogous to G alpha (GDP-AlFx)Mg and to G alpha (GTP)Mg.
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PMID:The mechanism of aluminum-independent G-protein activation by fluoride and magnesium. 31P NMR spectroscopy and fluorescence kinetic studies. 838 8

Aluminium (Al.) is an ubiquitous element found in every food product. The sources of Al. are especially corn, yellow cheese, salt, herbs, spices, tea and tap water. In household Al.-made ware is a major source of the element. Al. may cause diseases in humans, especially hampers many metabolic processes especially turnover of calcium, phosphorus and iron. Salts of Al. may bind to DNA, RNA, inhibit such enzymes as hexokinase, acid and alkaline phosphatases, phosphodiesterase and phosphooxydase. Al. salts are especially harmful to nervous, hematopoietic systems and to skeleton. Al. gets to organism with food, water, cosmetics, from aluminium ware and containers. Toxicity comes from substitution of Mg and Fe ions effecting in disturbances in intracellular signaling, excretory functions and cellular growth. Neurotoxic action of Al. probably comes from substitution of Mg ions in ATP, what finally influences function of every ATP using-enzymes. There are observations in experimental models proving Al. salts are responsible for Alzheimer disease development. Toxicity of Al. to skeletal system results in diminished resistance thus tendencies to breaking, and comes from lower collagen synthesis and slowing down of mineralisation. Low erythropoietin production, inhibition of hem-synthesing enzymes and binding of Al. to transferrin, effects in anaemia. Carcinogenic effects of Al. were nor proved nor denied, but high concentrations of Al. were found in many neoplastic cells. In conclusion, we should introduce prophylactic measures effecting in less Al. intake esp. avoiding use of Al.-made ware nad controlling food for Al. content.
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PMID:[Aluminum--occurrence and toxicity for organisms]. 1129 16


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