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 mechanism of activation of cGMP phosphodiesterase by the GTP-binding protein in the disc membrane of retinal rods has been investigated by measuring the light-induced phosphodiesterase activity in reconstituted systems where the concentration of either the GTP-binding protein or the phosphodiesterase is varied. The results are consistent with the existence of two activator sites per phosphodiesterase functional unit: binding of one G alpha GTP (alpha subunit of the G-protein with GTP bound) with high affinity (100 +/- 50 nM) partially activates the enzyme (Vmax1 approxmately 0.05 Vmax to 0.10V max to trypsin-activated phosphodiesterase); binding of a second G alpha GTP with lower affinity (600 +/- 100 nM) induces maximal activation (Vmax2 approximately Vmax of trypsin-activated phosphodiesterase). The two different states of activated phosphodiesterase have the same Km for cGMP and the same pH dependence; they differ in their sensitivity to GMP. Micromolar concentration of protamines increases the affinity of the two activator sites and slightly increases Vmax1. When G-protein is activated with GTP-gamma S instead of GTP, the affinities of the two activator sites are not significantly modified, while Vmax1 appears to be increased.
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PMID:Activation of cGMP phosphodiesterase in retinal rods: mechanism of interaction with the GTP-binding protein (transducin). 255 70

The effect of pertussis toxin on GTP-binding protein of bovine rod cell outer segments (transducin) was studied. Pertussis toxin was shown to ADP ribosylate either alpha subunit of free transducin or transducin-GDP complex, whereas GTP and its analogue Gpp(NH)p strongly inhibit ADP ribosylation of transducin. Pertussis toxin inhibits rod outer segment membrane GTPase and GTPase of homogeneous transducin by 40% and 70-80%, respectively. Activation of rod cell cyclic nucleotide phosphodiesterase by transducin is reduced after its preincubation with pertussis toxin. In transducin modified by pertussis toxin, 83% of GDP becomes tightly bound and cannot be exchanged with Gpp(NH)p. The stabilization of complex transducin-GDP after ADP ribosylation can explain the inhibitory effect of pertussis toxin on GTP hydrolysis by transducin, and on phosphodiesterase activation by guanyl nucleotides.
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PMID:Inhibition by pertussis toxin of guanyl nucleotides exchange on transducin in bovine rod cell membranes. 256 2

We have previously reported that the purified GDP-bound alpha-subunit of the GTP-binding protein transducin (TD), present in outer segments of retinal rod cells (ROS), serves as a high affinity substrate (Km = 1 microM) for protein kinase C (PKC) [Zick et al. (1986) Proc. natn. Acad. Sci., U.S.A. 83, 9294-9297]. In the present study we demonstrate that TD-alpha undergoes phosphorylation by PKC when present in its native form in intact ROS membranes. This phosphorylation is inhibited by GTP-gamma-S which activates TD, suggesting that it is only the inactive conformation of TD-alpha that serves as a substrate for PKC. Indeed, both vanadate and AlF4, that confer an active conformation on TD-alpha-GDP, inhibit PKC-mediated phosphorylation of purified TD-alpha-GDP. We demonstrate that the purified beta subunit of TD also serves as an in vitro substrate for PKC. Moreover, following their phosphorylation, both TD-alpha and beta form high affinity complexes with PKC. This is evident from the findings that PKC coprecipitates with both the alpha and beta subunits of TD when the latter are immunoprecipitated by their respective antibodies. PKC phosphorylates additional ROS proteins of 36, 48 and 92 kDa, tentatively identified as rhodopsin, arrestin and the cGMP-phosphodiesterase. Taken together our results strongly suggest that phosphorylation of TD is of physiological relevance and that through phosphorylation of endogenous ROS proteins, PKC could play a key role in regulating phototransduction.
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PMID:Protein kinase C-mediated phosphorylation of retinal rod outer segment membrane proteins. 264 84

Proteins whose molecular mass, GTPase activity and immunochemical properties are similar to those of transducin, a GTP-binding protein of photoreceptor cells, were isolated from the soluble fraction of calf uterine tissue. The proteins were purified and the possibility of their incorporation into a reconstituted system made up of photoreceptor membranes, of phosphodiesterase extracted from these membranes and of transducin was demonstrated.
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PMID:[Soluble uterine proteins similar to GTP-binding proteins of receptor systems]. 282 50

Recent progress in understanding phototransduction has come primarily from studies on cell-free systems. To investigate the transduction process under physiological conditions, a fully functional preparation of retinal rod outer segments without attached inner segments was developed that allows electrical recording of light-sensitive current during intracellular dialysis with defined solutions. No light-sensitive current is recorded from detached outer segments dialyzed with nucleotide-free solutions, whereas cells detached from the retina into Ringer's solution containing 3-isobutyl-1-methyl-xanthine (a phosphodiesterase inhibitor) develop a light-sensitive inward dark current. This indicates that there is a basal level of cGMP-specific phosphodiesterase activity in the dark. Detached outer segments dialyzed with greater than or equal to 20 microM cGMP rapidly develop a light-suppressible current. A current of similar magnitude is generated more slowly during dialysis with a 50-fold greater concentration of GTP. Apparently, cGMP can be synthesized from GTP by guanylate cyclase in the outer segment. Cells dialyzed with cGMP alone show a reduced light sensitivity that is restored to normal by addition of 20 microM GTP. This action of GTP is antagonized by guanosine 5'-[beta-thio]diphosphate. These findings are in good agreement with biochemical evidence indicating that a GTP-binding protein (transducin) plays a pivotal role in the generation of responses to light. The recovery of photocurrent following a brief flash is delayed or abolished by dialysis with solutions that lack ATP or contain guanosine 5'-[gamma-thio]triphosphate, a nonhydrolyzable GTP analog. These results support the view that both GTP hydrolysis by activated transducin and ATP-dependent phosphorylation of a rhodopsin photoproduct are necessary for termination of the transduction process.
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PMID:Intracellular biochemical manipulation of phototransduction in detached rod outer segments. 282 76

In the present experiments we have examined the effect of N-ethylmaleimide (NEM) on the release of [3H]glutamate from rat hippocampal slices. Pretreatment of slices with NEM in a concentration between 50 microM and 200 microM, can inhibit the GTP-binding protein (Ni) that transmits receptor signals into inhibitions of adenylate cyclase, without affecting the Ns-protein, that transmits signals into stimulation of the cyclase, or the cyclase. The adenosine receptor agonist R-phenylisopropyladenosine (R-PIA, 1 microM) caused an approximately 50% inhibition of the evoked [3H]glutamate release. This effect was completely prevented by NEM treatment, which did not affect basal or stimulated release of the amino acid. By contrast, the effect of R-PIA was unaffected by adding an adenylate cyclase stimulator (forskolin 1 microM) and a phosphodiesterase inhibitor (rolipram, ZK 62.711, 30 microM) which raised the cyclic AMP content of the slices approximately 10-fold. In conclusion, these results suggest that the adenosine receptor that mediates prejunctional inhibition of glutamate release is coupled to a protein similar to the Ni-protein, but that another effector than adenylate cyclase is involved.
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PMID:Effects of N-ethylmaleimide and forskolin on glutamate release from rat hippocampal slices. Evidence that prejunctional adenosine receptors are linked to N-proteins, but not to adenylate cyclase. 287

In the absence of the specific hormone, fluoride is able to activate the adenylate cyclase because it interacts with the GTP-binding protein. It has been reported that fluoride activates also the phosphodiesterase of the light-sensitive enzymatic cascade in dark-adapted retinal rod outer segments, but there is no indication that the GTP-binding protein is involved in this process or not. We show here that also in the photoreceptor system fluoride does interact with the GTP-binding protein in order to activate the phosphodiesterase in the dark. Further, we show evidences that fluoride solubilizes the GTP-binding protein in the dark and that the resulting complex activates the phosphodiesterase in dark-adapted rod outer segment membranes.
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PMID:Effect of fluoride on the phosphodiesterase of bovine photoreceptors. 301 31

Thyrotropin-releasing hormone (TRH), like numerous other Ca2+-mobilizing agonists, has been found to stimulate polyphosphoinositide hydrolysis in responsive cells. The present studies further clarify the mechanism of action of this peptide hormone by demonstrating direct in vitro effects of TRH on polyphosphoinositide hydrolysis in GH3 pituitary cell membranes. Membranes from [3H]myoinositol-labeled cells were found to generate inositol bis- and tris- but not monophosphate upon incubation. Inositol polyphosphate generation was stimulated 2-3-fold by nanomolar concentrations of TRH in a reaction which was potentiated by micromolar concentrations of GTP; hormone-stimulated hydrolysis observed in the absence of GTP was fully antagonized by guanosine 5'-O-(2-thiodiphosphate). Guanosine 5'-O-(3-thiotriphosphate), Ca2+, and sodium fluoride also activated phosphoinositide hydrolysis in vitro. Stimulated inositol polyphosphate generation was accompanied by stimulated 1,2-diacylglycerol formation. Evidence that both phosphatidylinositol 4,5-bisphosphate as well as phosphatidylinositol 4-phosphate served as substrates for the activated phosphoinositide phosphodiesterase is presented. Pretreatment of GH3 cells with cholera or pertussis toxin did not influence stimulated hydrolysis in membranes. It is concluded that the TRH receptor directly regulates polyphosphoinositide hydrolysis in GH3 cell plasma membranes by a GTP-dependent process. The GTP dependence does not appear to be mediated through a cholera or pertussis toxin substrate and may involve a novel GTP-binding protein (NP).
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PMID:Thyrotropin-releasing hormone stimulation of polyphosphoinositide hydrolysis in GH3 cell membranes is GTP dependent but insensitive to cholera or pertussis toxin. 301 20

Fluoride activation of neutrophils was found to be associated with phosphoinositide turnover, as monitored by the time-dependent accumulation of inositol phosphates. Unlike phosphoinositide turnover induced by the chemotactic peptide, formylmethionylleucylphenylalanine, that induced by fluoride was not inhibited by pretreatment with pertussis toxin. The translocation of protein kinase C activity from the cytosolic to the membrane compartment was also observed in fluoride-stimulated cells. We have proposed that the mode of action of this halide ion involves interaction with a GTP-binding protein which serves as an intermediary unit between the receptors for inflammatory stimuli and the phosphoinositide-specific phosphodiesterase.
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PMID:Use of fluoride ion as a probe for the guanine nucleotide-binding protein involved in the phosphoinositide-dependent neutrophil transduction pathway. 301 68

In the vertebrate rod outer segment (ROS), the light-dependent activation of a GTP-binding protein (G-protein) and phosphodiesterase (PDE) is quenched by a process that requires ATP [Liebman, P.A., & Pugh, E.N. (1979) Vision Res. 19, 375-380]. The ATP-dependent quenching mechanism apparently requires the phosphorylation of photoactivated rhodopsin (Rho*); however, a 48-kilodalton protein (48K protein) has also been proposed to participate in the inactivation process. Purified species of phosphorylated rhodopsin containing 0, 2, or greater than or equal to 4 (high) phosphates per rhodopsin (PO4/Rho) were reconstituted into phosphatidylcholine (PC) vesicles and reassociated with a hypotonic extract from isotonically washed disk membranes that were depleted of 48K protein; PDE activation, in response to bleaching from 0.01% to 15% of the rhodopsin present, was measured. PDE activity was reduced by at least 30% at high fractional rhodopsin bleaches and by greater than 80% at low fractional rhodopsin bleaches in high PO4/Rho samples when compared to the activity measured in O PO4/Rho controls. A phosphorylation level of 2 PO4/Rho produced PDE activities that were intermediate between O PO4/Rho and high PO4/Rho samples at low bleaches, but were identical with the O PO4/Rho samples at high rhodopsin bleaches. Rhodopsin phosphorylation is thus capable of producing a graded inhibition of light-stimulated PDE activation over a limited range of (near physiological) bleach levels. This effect become less pronounced as the bleach levels approach those that saturate PDE activation. These results are consistent with increasing levels of phosphorylation, producing a reduction of the binding affinity of G-protein for Rho*.
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PMID:Amplification of phosphodiesterase activation is greatly reduced by rhodopsin phosphorylation. 302 Dec 8

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