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)

When the supernatant fractions from rat brain homogenates were subjected to preparative electrofocusing in a bed of Sephadex G75, several peaks of calmodulin were resolved. A minor peak representing free calmodulin migrated with a pI of 3.8 --4.4. Other peaks of calmodulin activity were observed with isoelectric points at pH 4.8, 5.2, 6.0 and 6.8. The peak of calmodulin activity at 5.2 co-migrated with phosphodiesterase activity which was stimulated 1.8-fold by calcium. A second peak of phosphodiesterase activity detected at pH 8.0 was stimulated 1.2-fold by calcium and occurred in an area where no calmodulin activity could be detected. If isoelectric focusing was done in the presence of 8 M urea only one peak of calmodulin activity was observed with a pI of 4.0--4.4. It is suggested that the multiple peaks of calmodulin resolved by electrofocusing represent calmodulin associated with various proteins which are subject to modulation by calmodulin and calcium.
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PMID:Calmodulin resolution of multiple peaks of activity by preparative electrofocusing. 22 46

The calmodulin contents of rabbit brain, lung, kidney and liver, of bovine aorta and uterus, and of chicken gizzard have been determined. 2. The calmodulin in all of these tissues has been shown to be present in the form of very stable complexes with several other proteins. 3. A calmodulin-binding protein of mol.wt. 22 000 has been purified in high yield from bovine brain. It has been shown to interact with calmodulin and rabbit skeletal-muscle troponin C in a Ca2+-dependent manner. 4. The 22 000-mol.wt. protein inhibits the activation of bovine brain phosphodiesterase by calmodulin, but has very little affect on the activation of myosin light-chain kinase. 5. Calmodulin-binding proteins of mol.wts. 140000, 77000 and 61000 have also been partially purified from rabbit brain by affinity chromatography and have been shown to interact in a Ca2+-dependent manner with calmodulin. 6. The apparent molecular weights of the calmodulin-calmodulin-binding protein complexes, determined by gel filtration in the presence of 6M-urea, have been shown to be similar for most of the mammalian tissues examined. 7. By using 125I-labelled calmodulin, similar complexes have been demonstrated in rabbit skeletal muscle, although they are present at much lower concentrations.
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PMID:Calmodulin-binding proteins from brain and other tissues. 53 97

To clarify the role of phospholipids in G protein-effector interactions of vertebrate phototransduction, transducin activation of cGMP phosphodiesterase (PDE) has been reconstituted on the surface of well-defined phosphatidylcholine (PC) vesicles, using purified proteins from bovine rod outer segments (ROS). PC vesicles enhanced PDE stimulation by the GTP-gamma S-bound transducin alpha subunit (T alpha-GTP gamma S) as much as 17-fold over activation in the absence of membranes. In the presence of 3.5 microM accessible PC in the form of large (100 nm) unilamellar vesicles, 500 nM T alpha-GTP gamma S stimulated PDE activity to more than 70% of the maximum activity induced by trypsin. Activation required PC, PDE, and T alpha-GTP gamma S, but did not require prior incubation of any of the components, and occurred within 4 s of mixing. The PC vesicles were somewhat more efficient than urea-washed ROS membranes in enhancing PDE activation. Half-maximal activation occurred at accessible phospholipid concentrations of 3.8 microM for PC vesicles, and 13 microM for ROS membranes. Titrations of PDE with T alpha-GTP gamma S in the presence of membranes indicated a high-affinity (Kact less than 250 pM) activation of PDE by a small fraction (0.5-5%) of active T alpha-GTP gamma S, as did titrations of ROS with GTP gamma S. When activation by PC vesicles was compared to PDE binding to membranes, the results were consistent with activation enhancement resulting from formation of a T alpha-GTP gamma S-dependent PDE-membrane complex with half-maximal binding at phospholipid concentrations in the micromolar range. The value of the apparent dissociation constant, KPL, associated with the activation enhancement was estimated to be in the range of 2.5 nM (assuming an upper limit value of 1600 phospholipids/site) to 80 nM (for a lower limit value of 50 phospholipids/site). Another component of membrane binding was more than 100-fold weaker and was not correlated with activation by T alpha-GTP gamma S. Low ionic strength disrupted the ability of ROS membranes, but not PC vesicles, to bind and activate PDE. Removal of PDE's membrane-binding domain by limited trypsin digestion eliminated both the binding of PDE to vesicles and the ability of PDE to be activated by T alpha-GTP gamma S and membranes. These results suggest that ROS membrane stimulation of PDE activation by T alpha-GTP gamma S is due almost exclusively to the phospholipids in the disk membrane.
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PMID:Membrane stimulation of cGMP phosphodiesterase activation by transducin: comparison of phospholipid bilayers to rod outer segment membranes. 132 16

Although GPC has long been recognized as a degradation product of phosphatidylcholine, only recently is there wide appreciation of its role as a compatible and counteracting osmolyte that protects cells from osmotic stress. GPC is osmotically regulated in renal cells. Its level varies directly with extracellular osmolality. Cells in the kidney medulla in vivo and in renal epithelial cell cultures (MDCK) accumulate large amounts of GPC when exposed to high concentrations of NaCl and urea. Osmotic regulation of GPC requires choline in the medium, presumably as a precursor for synthesis of GPC. Choline transport into the cells, however, is not osmoregulated. The purpose of the present studies was to use MDCK cell cultures as a defined model to distinguish whether osmotically induced accumulation of GPC results from increased GPC synthesis or decreased GPC disappearance. The rate of incorporation of 14C from [14C]choline into GPC, the steady-state GPC synthesis rate, and the activity of phospholipase A2 (which can catalyze a step in the synthesis of GPC from phosphatidylcholine) are not increased by high NaCl and urea. In fact all are decreased by approximately one-third. Therefore, we find no evidence that high NaCl and urea increases the GPC synthesis rate. On the other hand, the rate coefficient for cellular GPC disappearance and the activity of GPC:choline phosphodiesterase (EC 3.1.4.2), which catalyzes degradation of GPC, are decreased by approximately two-thirds by high NaCl and urea. We conclude that high NaCl and urea increase the level of GPC by inhibiting its enzymatic degradation.
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PMID:Accumulation of glycerophosphocholine (GPC) by renal cells: osmotic regulation of GPC:choline phosphodiesterase. 165 65

Cholera toxin (CT) irreversibly ADP-ribosylates and activates the nucleotide-stimulatory (Ns) subunit of adenylate cyclase in many tissues, thereby eliciting cyclase-dependent functions. Although earlier studies performed at room temperature could not demonstrate CT-stimulated water transport in toad urinary bladder, subsequent work in other tissues has emphasized the need for incubation at 35-37 degrees C to effect ribosylation and the subsequent physiological effects. We found that incubating tissues with amphibian culture media, rather than Ringer solution, maintained tissue viability at this higher temperature and permitted prolonged incubation with CT. At 37 degrees C, in the presence of 0.1 mM phosphodiesterase inhibitor (1-methyl-3-isobutylxanthine, MIX), 0.2-200 nM mucosal CT caused a dose-dependent but submaximal enhancement of water flux and urea transport. Elimination of MIX from the bath diminished subsequent CT-induced stimulation, supporting a role for adenosine 3',5'-cyclic monophosphate (cAMP) as mediator of the CT effect. The increased water flow was stable for greater than 1 h after removal of CT from the bath, consistent with irreversible stimulation of the cyclase. Mucosal CT stimulated transport to a greater degree than serosal CT, paralleling the pattern seen in the intestine, which is compatible with passage of the toxin's a subunit across the cell to the serosal membrane cyclase. Exposure of the tissue's mucosal surface to GM1 ganglioside, (the natural receptor for the CT b subunit) yielded maximal stimulation of water flow and near-maximal urea transport, presumably by increasing CT's binding to the cell membrane.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cholera toxin enhances adenylate cyclase-dependent transport in toad urinary bladder. 243 87

Two molecules of gramicidin S, a very rigid cyclic decapeptide rich in beta-sheet structure, can bind in a Ca2+-dependent way to a calmodulin molecule in the presence as well as in the absence of 4 M-urea. The flow-microcalorimetric titration of 25 microM-calmodulin with gramicidin S at 25 degrees C is endothermic for 21.3 kJ.mol-1; the enthalpy change is strictly linear up to a ratio of 2, indicating that the affinity constant for binding of the second gramicidin S is at least 10(7) M-1. In 4 M-urea the peptide quantitatively displaces seminalplasmin from calmodulin, as monitored by tryptophan fluorescence. An iterative data treatment of these competition experiments revealed strong positive co-operativity with K1 less than 5 X 10(5) M-1 and K1.K2 = 2.8 X 10(12) M-2. A competition assay with the use of immobilized melittin enabled us to monitor separately the binding of the second gramicidin S molecule: the K2 value is 1.9 X 10(7) M-1. By complementarity, the K1 value is 1.5 X 10(5) M-1. In the absence of urea the seminalplasmin displacement is incomplete: the data analysis shows optimal fitting with K1 less than 2 X 10(4) M-1 and K1.K2 = 3.2 X 10(11) M-2 and reveals that the mixed complex (calmodulin-seminalplasmin-gramicidin S) is quite stable and is even not fully displaced from calmodulin at high concentrations of gramicidin S. The activation of bovine brain phosphodiesterase by calmodulin is not impaired up to 0.2 microM-gramicidin S. According to our model the ternary complex enzyme-calmodulin-gramicidin is relatively important and displays the same activity as the binary complex enzyme-calmodulin. Gramicidin S also displaces melittin from calmodulin synergistically, as monitored by c.d. Our studies with gramicidin S reveal the importance of multipoint attachments in interactions involving calmodulin and confirm the heterotropic co-operativity in the binding of calmodulin antagonists first demonstrated by Johnson [(1983) Biochem. Biophys. Res. Commun. 112, 787-793].
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PMID:High-affinity formation of a 2:1 complex between gramicidin S and calmodulin. 244 97

The cGMP phosphodiesterase of vertebrate retinal rod outer segments plays a key role in visual transduction. A functionally active form of the inhibitory gamma subunit of the phosphodiesterase, which keeps the enzyme inactive in the dark, has been obtained in high yield from a synthetic gene expressed in Escherichia coli. A DNA sequence encoding the 87-residue bovine gamma subunit was chemically synthesized and assembled from 10 oligonucleotides. The synthetic gene was cloned into an expression vector that uses the promoter PL of lambda phage. E. coli was transformed with this vector, which encodes a fusion protein consisting of the first 31 residues of the lambda cII protein, a 7-residue joining sequence that is specifically cleaved at its C-terminal end by clotting protease factor Xa, and the 87-residue gamma subunit. The fusion protein was solubilized in 6 M urea and purified by ion-exchange chromatography on a CM-Sephadex column. The typical yield was 1 mg of fusion protein per liter of bacterial culture, which corresponds to the amount of gamma in about 2500 bovine retinas. Proteolytic cleavage of the fusion protein by factor Xa released a synthetic gamma with the same amino acid sequence as that of native gamma. Both fusion protein and synthetic gamma inhibited trypsin-activated phosphodiesterase with high affinity (Kd less than 100 pM). Likewise, both were as effective as native gamma in inhibiting transducin-activated phosphodiesterase in rod outer segment membranes. This inhibition was reversed by the activation of additional transducin. Thus, the N terminus of gamma is not intimately involved in interactions with either the catalytic subunits of the phosphodiesterase or the activated form of transducin. In contrast, a C-terminal deletion mutant terminating at residue 74 of gamma stimulated rather than inhibited the trypsin-activated enzyme. Thus, the C-terminal region of gamma is critical for inhibition of the phosphodiesterase.
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PMID:Expression in bacteria of functional inhibitory subunit of retinal rod cGMP phosphodiesterase. 254 82

Effects of caffeine on gluconeogenesis and urea synthesis of rat isolated hepatocytes were investigated in the presence of hormonal agonists. Phenylephrine at 10 microM stimulated 1.7-fold gluconeogenesis and 1.9-fold (compared to control) urea synthesis from 4 mM glutamine. Stimulative effects of caffeine in the range from 0.1 to 10 mM were biphasic depending on its concentration, and it showed maxima at about 1 mM. Caffeine at 1 mM stimulated 2.1-fold gluconeogenesis and 2.4-fold urea synthesis. Caffeine without phenylephrine did not stimulate both syntheses. These effects of caffeine and phenylephrine diminished in the absence of extracellular Ca2+. Results on uptake of 45Ca2+ into hepatocytes and change in quin-2 fluorescence indicated that phenylephrine induced Ca2+ influx into the cell and consequently increased the intracellular Ca2+ concentration, [Ca2+], and that the addition of caffeine did not further stimulate the effect of phenylephrine on [Ca2+]. Therefore, we suggest that stimulation of gluconeogenesis and urea synthesis by phenylephrine is due to increase in [Ca2+]. Since caffeine is known to inhibit phosphodiesterase, the additional stimulation of both syntheses by caffeine plus phenylephrine may be due to the synergistic effect of increases in cAMP and [Ca2+]. The increase in the rates of gluconeogenesis and urea synthesis similarly depended on the caffeine concentration. Furthermore, the ratio of [acetoacetate]/[3-OH-butyrate] which shows intramitochondrial redox state, also depended on the caffeine concentration, indicating a possible coupling of the redox function of mitochondria with [Ca2+].
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PMID:Effects of caffeine on gluconeogenesis and urea synthesis induced by alpha-adrenergic stimulation in suspensions of rat hepatocytes. 290 Sep 8

During the process of transduction of a photon signal in vertebrate rod outer segments, transducin, a guanine nucleotide binding protein, mediates between a photobleaching intermediate of rhodopsin and a cGMP-phosphodiesterase. We report here that the beta gamma-subunit of bovine transducin (T beta gamma) characterized so far consists of two components (T beta gamma-1 and T beta gamma-2), which can be separated by anion exchange chromatography under nondenaturing conditions. Both components consisted of two polypeptides of Mr 36,000 (T beta) and about 8,000 (T gamma) in sodium dodecyl sulfate polyacrylamide (13%) gel electrophoresis. On a further analysis by 8 M urea/sodium dodecyl sulfate-polyacrylamide gel electrophoresis, T gamma subunits of T beta gamma-1 and T beta gamma-2 showed Mr values of 8,000 (T gamma-1) and 6,000 (T gamma-2), respectively. Amino acid compositions of both T gamma-1 and T gamma-2 roughly corresponded with that of T gamma previously reported and were quite different from that of gamma-subunit of cGMP-phosphodiesterase. Western blot analysis of freshly isolated rod outer segments by an antiserum raised against a mixture of T beta gamma-1 and T beta gamma-2 revealed the presence of both components in the membranes of a starting material. This observation excludes the possibility that one of the components might be produced artificially in the course of the purification. In the presence of a photobleaching intermediate of either unphosphorylated or phosphorylated rhodopsin, the binding of guanosine 5'-(beta, gamma-imido)triphosphate (GppNHp) to the alpha-subunit of transducin (T alpha) was remarkably enhanced with increasing concentrations of purified T beta gamma-2. On the contrary, T beta gamma-1 retained little ability, if any, to enhance the GppNHp binding to T alpha; the ability of T beta gamma-1 was at least 30 times lower than that of T beta gamma-2. Such a low activity of T beta gamma-1 was attributed to inability for coupling of T alpha with a photobleaching intermediate of rhodopsin. These results indicate that T gamma-2 is essential for the GTP binding of transducin. The role of T gamma-1 in vertebrate photoreceptor cells was discussed.
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PMID:Beta gamma-subunit of bovine transducin composed of two components with distinctive gamma-subunits. 292 42

A polyuric syndrome with nephrogenic diabetes insipidus (NDI) is a frequent consequence of prolonged administration of lithium (Li) salts. Studies in the past, mainly the acute and in vitro experiments, indicated that Li ions can inhibit hydroosmotic effect of [8-arginine]vasopressin (AVP) at the step of cAMP generation in vitro. However, the pathogenesis of the NDI due to chronic oral administration of low therapeutic doses of Li salts is not yet clarified. We conducted a comprehensive study to clarify the mechanism by which Li administered orally for several weeks induces polyuria and NDI in rats. Albino rats consuming a diet which contained Li (60 mmol/kg) for 4 wk developed marked polyuria and polydipsia; at the end of 4 wk the plasma Li was 0.7 +/- 0.09 mM (mean +/- SEM; n = 36). Li-treated rats had a significantly decreased (-33%) tissue osmolality in papilla and greatly reduced cortico-papillary gradient of urea (cortex--43%; medulla--64%; papilla--74%). Plasma urea was significantly (P less than 0.001) lower in Li-treated rats (5.4 +/- 0.2 mM) compared with controls (6.8 +/- 0.3 mM). Medullary collecting tubules (MCT) and papillary collecting ducts (PCD) microdissected from Li-treated animals had higher content of protein than MCT and PCD from the control rats. The cAMP accumulation in response to AVP added in vitro was significantly (delta = -60%) reduced. Also, the cAMP accumulation in MCT and PCD after incubation with forskolin was markedly lower in Li-treated rats. Addition of 0.5 mM 1-methyl,3-isobutyl-xanthine did not restore the cAMP accumulation in response to AVP and forskolin in MCT from Li-treated animals. In collecting tubule segments from polyuric rats with hypothalamic diabetes insipidus (Brattleboro homozygotes) the AVP-dependent cAMP accumulation was not diminished. The activity of adenylate cyclase (AdC) in MCT of Li-treated rats, both the basal and the activity stimulated by AVP, forskolin, or fluoride, was significantly (delta approximately equal to -30%) reduced, while the activity of cAMP phosphodiesterase (cAMP-PDIE) in the same segment showed no significant difference from the controls. Also, the content of ATP in MCT microdissected from Li-treated rats and incubated in vitro did not differ from controls. The rate of [14C]succinate oxidation to 14CO2 in MAL was inhibited (-77%) by 1 mM furosemide, which indicates that this metabolic process is coupled with NaCl cotransport in MAL. The rate of (14)CO(2) production from [14C]succinate in MAL was not significantly different between control and Li-treated rats. In MCT of control rats, the rate of [14C]succinate oxidation was approximately 3 times lower than in MAL. The rate of (14)CO(2) production from [(14)C]succinate in MCT of Li-treated rats was significantly (delta +33%) higher than in MCT dissected from control rats. Based on these results, we conclude that at least two factors play an important role in the pathogenesis of NDI consequent to chronic oral administration of Li: (a) decreased ability of MCT and PCD to generate and accumulate cAMP in response to stimulation by AVP; this defect is primarily due to diminished activity of AdC in these tubular segments caused by prolonged exposure to Li; and (b) lower osmolality of renal papillary tissue, due to primarily to depletion of urea, which decreases osmotic driving force for water reabsorption in collecting tubules. On the other hand, NaCI reabsorption in MAL is apparently not affected by chronic Li treatment.
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PMID:Pathogenesis of nephrogenic diabetes insipidus due to chronic administration of lithium in rats. 298 35

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