EC:3.4.16.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.16.2 (PCP)
3,761 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Effects of endotoxin administration on ryanodine receptor in canine cardiac junctional sarcoplasmic reticulum (SR) were studied. The results show that the Bmax for [3H]ryanodine binding to cardiac junctional SR was decreased by 25% (8 +/- 0.38 vs 6 +/- 0.41 pmole/mg protein for control and endotoxic, respectively; (P less than 0.01) while the kd (13.7 +/- 1 nM for control vs 13.2 +/- 2 nM for endotoxic) was unaffected 4 hr following endotoxin administration. Ca2+ activated [3H]ryanodine binding in both groups sigmoidally but the Vmax for Ca2+ activation was decreased by 24% (P less than 0.05) while the S0.5 and the Hill coefficient values remained unchanged after endotoxin injection. Caffeine, ATP, and AMP-PCP activated while calmodulin, SKF-525A, ruthenium red, and Mg2+ inhibited [3H]ryanodine binding in both groups but the A0.5 (concentration requires for half-maximum activation) and the I50 (concentration requires for half-maximum inhibition) for the above-mentioned activators and inhibitors, respectively, were unaffected during endotoxin shock. Digestion of cardiac SR isolated from control dogs with phospholipase A2 inhibited [3H]ryanodine binding and the inhibition was reversed completely by the addition of phosphatidylserine. Addition of phosphatidylserine to cardiac SR isolated from endotoxic dogs stimulated [3H]ryanodine binding and the stimulation represents a complete reversal of the inhibition caused by endotoxin administration. Based on these findings together with previous observation that phospholipase A2 activity is activated during endotoxin shock, it is concluded that endotoxin administration decreases the number of ryanodine receptor in canine cardiac junctional SR and the decrease in ryanodine receptor is associated with a mechanism involving a modification of membrane lipid microenvironment in response to phospholipase A2 activation.
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PMID:Altered ryanodine receptor of canine cardiac sarcoplasmic reticulum and its underlying mechanism in endotoxin shock. 138 10

Active gamma subunit of skeletal muscle phosphorylase kinase has been obtained by expression of the rat soleus cDNA in a baculovirus system. The protein exhibited the expected pH 6.8/8.2 activity ratio of 0.6, and its activity was insensitive to Ca2+ addition, indicating that it was free gamma subunit and not a gamma subunit-calmodulin complex. It was stimulated approximately 2-fold by Ca(2+)-calmodulin addition, demonstrating that it had retained high-affinity calmodulin binding. By site-directed mutagenesis, we have examined the role of six of the amino acids that constitute the consensus ATP binding site of the protein kinase, which in the gamma subunit is represented by the sequence 26Gly.Arg.Gly.Val.Ser.Ser.Val.Val33. Changes were evaluated by the kinetic determination of the dissociation constants of gamma-ATP, gamma-ADP, gamma-AMP.PCP, and gamma-phosphorylase and the maximum catalytic activity. The mutants Ser26-gamma, Ser29-gamma, Phe30-gamma, and Gly31-gamma each exhibited an essentially identical dissociation constant for gamma subunit phosphorylase, indicating that these mutations had not caused a global alteration in the protein structure but were limited to changes in the nucleotide binding site domain. Substitution of either Val33 (by Gly) or Gly28 (by Ser), two of the most conserved residues in all protein kinases, resulted in enzyme with marginally detectable activity. In noted contrast, the Ser26 mutant, which substituted the first glycine of the consensus glycine trio motif, and which is also very highly conserved, retained at least 25% of the enzymatic activity. The Gly31 substitution, which restored a glycine to a position characteristic for most protein kinases, had little overall effect upon the maximum rate of catalysis. Restoration of Ser30 to the more typical phenylalanine, which is present in most protein kinases, had minimal effect on catalysis. These data provide the first direct evaluation of the roles that different residues play within this consensus glycine trio/valine motif of the protein kinases, which up to now have only been surmised to be of importance because of their conservation. Two unexpected findings are that for one residue that is very conserved (Gly26) there is some flexibility of substitution not apparent from the evolutionary conservation and that a second quite conserved residue in protein kinases (equivalent to Gly at position 31) does not produce a protein optimized for nucleotide binding.
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PMID:Analysis by mutagenesis of the ATP binding site of the gamma subunit of skeletal muscle phosphorylase kinase expressed using a baculovirus system. 142 Jan 77

Phosphoinositide-specific phospholipase C (PI-PLC) activity in whole homogenates of mouse pancreatic islets decreased 60-85% when the homogenates were incubated at 37 degrees C for 1 h in the presence of down to micromolar concentrations of Ca2+. Ca(2+)-induced inactivation was augmented by calmodulin, the phorbol ester 12-O-tetradecanoylphorbol 13-acetate in the presence of ATP-Mg, and by Mg2+. Inactivation was inhibited when ATP was removed and completely abolished by trifluoperazine and EGTA. Inactivation was not affected by the non-phosphorylating ATP analogue, AMP-PCP, GMP-PNP, glucose, Zn2+ or a series of protease inhibitors. These observations suggest that PI-PLC in broken cell preparations of pancreatic islets may be inactivated via phosphorylation by Ca(2+)-calmodulin-stimulated protein kinase and/or protein kinase C. Inactivation of PI-PLC was reversible. Reactivation started after approx. 2 h incubation, when the concentration of ATP in the homogenate was below 0.15 x 10(-6) M. PI-PLC activity returned to values approx. 25% higher than the initial values. PI-PLC inactivation via phosphorylation by the mentioned protein kinases may constitute a feedback control on the phosphoinositide response, attenuating subsequent diacylglycerol formation and/or Ca2+ mobilization by inositol trisphosphate.
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PMID:Ca(2+)- and ATP-dependent reversible inactivation of pancreatic islet phosphoinositide-specific phospholipase C activity. 166 65

A subpopulation of canine cardiac sarcoplasmic reticulum vesicles has been found to contain a "Ca2+ release channel" which mediates the release of intravesicular Ca2+ stores with rates sufficiently rapid to contribute to excitation-contraction coupling in cardiac muscle. 45Ca2+ release behavior of passively and actively loaded vesicles was determined by Millipore filtration and with the use of a rapid quench apparatus using the two Ca2+ channel inhibitors, Mg2+ and ruthenium red. At pH 7.0 and 5-20 microM external Ca2+, cardiac vesicles released half of their 45Ca2+ stores within 20 ms. Ca2+-induced Ca2+ release was inhibited by raising and lowering external Ca2+ concentration, by the addition of Mg2+, and by decreasing the pH. Calmodulin reduced the Ca2+-induced Ca2+ release rate 3-6-fold in a reaction that did not appear to involve a calmodulin-dependent protein kinase. Under various experimental conditions, ATP or the nonhydrolyzable ATP analog, adenosine 5'-(beta, gamma-methylene)triphosphate (AMP-PCP), and caffeine stimulated 45Ca2+ release 2-500-fold. Maximal release rates (t1/2 = 10 ms) were observed in media containing 10 microM Ca2+ and 5 mM AMP-PCP or 10 mM caffeine. An increased external Ca2+ concentration (greater than or equal to 1 mM) was required to optimize the 45Ca2+ efflux rate in the presence of 8 mM Mg2+ and 5 mM AMP-PCP. These results suggest that cardiac sarcoplasmic reticulum contains a ligand-gated Ca2+ channel which is activated by Ca2+, adenine nucleotide, and caffeine, and inhibited by Mg2+, H+, and calmodulin.
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PMID:Rapid calcium release from cardiac sarcoplasmic reticulum vesicles is dependent on Ca2+ and is modulated by Mg2+, adenine nucleotide, and calmodulin. 243 95

Two drugs known to inhibit the action of calmodulin, prochlorperazine offP) and N-(6-aminohexyl)-5-chloro-1-napthalene sulfonamide (W7), were investigated for their ability to control cell proliferation in murine B16 melanoma cells in culture. PCP and W7 inhibited [3H]thymidine uptake in these cells, 50% inhibition occurring with 13 microM PCP and 40 microM W7. In the presence of relatively high concentrations of fetal calf serum (FCS), cells withstood high concentrations of both drugs (100 microM PCP and 200 microM W7) and showed increased pigment production. Drug-inhibited DNA synthesis could be reversed by the addition of fresh medium containing FCS or by the addition of exogenous pure calmodulin. Extracellular calmodulin itself stimulated DNA synthesis. FCS was found to contain calmodulin-like activity at concentrations that may be relevant to the stimulation of [3H]thymidine uptake by cells in culture.
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PMID:Effects of extracellular calmodulin and calmodulin antagonists on B16 melanoma cell growth. 673 71

1. The regulation of the cardiac Ca2+ release channel-ryanodine receptor (RyR) by exogenous acid phosphatase (AcPh) and purified Ca(2+)-calmodulin-dependent protein kinase II (CaMKII) was studied in swine and rabbit sarcoplasmic reticulum (SR) vesicles using [3H]ryanodine binding and planar bilayer reconstitution experiments. 2. Addition of AcPh (1-20 U ml-1) to a standard incubation medium increased [3H]ryanodine binding in a Ca(2+)-dependent manner. Stimulation was only readily apparent in media containing micromolar Ca2+ concentrations. 3. Scatchard analysis of [3H]ryanodine binding curves revealed that AcPh enhanced binding by increasing the affinity of the receptor for [3H]ryanodine without recruiting additional receptor sites (Kd, 9.8 +/- 0.85 and 3.9 +/- 0.65 nM; Bmax (the maximal receptor density), 1.45 +/- 0.14 and 1.47 +/- 0.12 pmol mg-1 for control and AcPh, respectively). The failure of AcPh to increase Bmax suggested that the number of receptors that were 'dormant' due to phosphorylation in the SR preparation was very small. 4. At the single channel level, AcPh increased the open probability (Po) of RyR channels by increasing the opening rate and inducing the appearance of a longer open state while having no effect on single channel conductance. Thus AcPh acted directly on RyR channels or a closely associated regulatory protein. 5. CaMKII decreased both [3H]ryanodine binding and Po of RyRs when added to medium supplemented with micromolar levels of Ca2+ and calmodulin (CaM). Addition of a synthetic peptide inhibitor of CaMKII, or replacement of ATP with the non-hydrolysable ATP analogue adenylyl[beta, gamma-methylene]-diphosphate (AMP-PCP), prevented CaMKII inhibition of RyRs, suggesting that CaMKII acted specifically through a phosphorylation mechanism. 6. The inhibition of RyR channel activity by CaMKII was reversed by the addition of AcPh. Thus we showed that an in vitro phosphorylation-dephosphorylation mechanism effectively regulates RyRs. 7. The results suggest that intracellular signalling pathways that lead to activation of CaMKII may reduce efflux of Ca2+ from the SR by inhibition of RyR channel activity. The Ca2+ dependence of CaMKII inhibition suggests that the role of the phosphorylation mechanism is to modulate the RyR response to Ca2+.
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PMID:Modulation of cardiac ryanodine receptors of swine and rabbit by a phosphorylation-dephosphorylation mechanism. 854 25

Activation of NMDA receptors in dissociated cerebellar granule cells reduced mitochondrial membrane potential (MMP), as measured by rhodamine 123 fluorescence in a flow cytometer. This effect was inhibited by several NMDA-receptor antagonists with the following rank order of potency: MK-801 > PCP > TCP > dextrorphan > dichlorokynurenic acid > D-AP5 > dextromethorphan. Neither spermine nor arcaine modified the NMDA-induced reduction in MMP, whereas ifenprodil and eliprodil inhibited this response in the micromolar range. The mechanism responsible for the alteration of MMP mediated by NMDA was studied. Mepacrine and dibucaine prevented the MMP reduction induced by NMDA, as did W13 (calmodulin antagonist). In contrast, this effect was not blocked by cyclooxygenase or lipooxygenase inhibitors, H7 (a protein kinase C inhibitor) or nitroarginine (nitric oxide synthase inhibitor). These data suggest a direct interaction between NMDA-receptor activation and arachidonic acid formation, and indicate that NMDA receptor-mediated effect on MMP could involve arachidonic acid.
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PMID:Modulation of neuronal mitochondrial membrane potential by the NMDA receptor: role of arachidonic acid. 944 14

The hypothesis that calmodulin (CaM) may act as a positive modulator of junctional SR Ca2+-release channel/ ryanodine receptor (RyRl) rests largerly on the demonstrated capacity of CaM to interact structurally and functionally with RyRl at pCa > 8 (Tripathy et al., 1995). The goal of the present [3H]-ryanodine binding study was to produce, in isolated terminal cisternae (TC) and in purified junctional face membrane (JFM), CaM-mediated activation of RyRl at less extreme pCa values, i.e. closer to resting myoplasmic pCa, and to analyze more accurately the corresponding changes in binding affinity for ryanodine of the receptor. We were able to monitor these changes at an optimum pCa of 6.5, following pre-activation of native RyRl by mM concentrations of caffeine or microM concentrations of antraquinone compound doxorubicin, and at various doses of these triggers. CaM increased the affinity of ryanodine binding to isolated TC in the presence of 1 mM AMP-PCP as an activator of RyRl; the Kd for ryanodine binding was reduced from 21.8 nM to 13.2 nM by 1microM CaM. Similar effects of CaM were seen when AMP-PCP was replaced by either caffeine or doxorubicin. In order to discount the involvement of SR extrajunctional proteins in this effect, the experiments were repeated on purified JFM. Again, CaM increased the affinity of ryanodine binding; the Kd was reduced from 11.1 nM to 7.0 nM by 1 microM CaM (in the presence of doxorubicin). Pharmacological triggers of CaM-activatory action on native RyRl, like caffeine and doxorubicin, have long been characterized for their ability to activate RyRl by increasing the Ca2+-sensitivity of the receptor. We speculate that the triggering effect of these agents on the CaM-mediated mechanism in vitro might mimick one of the early effects of the activation of RyRl in skeletal muscle, during E-C coupling.
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PMID:Pharmacological clues to calmodulin-mediated activation of skeletal ryanodine receptor using [3H]-ryanodine binding. 1081 30

The properties of a ryanodine-sensitive Ca2+ release channel (receptor) in non-excitable cells like exocrine cells or epithelial cells are described in this review. The ryanodine-sensitive Ca2+ release from the microsomal vesicles is activated by Ca2+, caffeine, ryanodine or cyclic ADP-ribose (cADPR) and is inhibited by ruthenium red or higher concentrations (> or =100 microM) of ryanodine. The properties are similar to those of excitable cells such as muscle cells or neuronal tissues. In some non-excitable cells, the Ca2+ release induced by caffeine, ryanodine or cADPR is stimulated by calmodulin (CaM) or FK506. Kd values of [3H]ryanodine binding to the receptor protein range from 6 to 17 nM and are similar to those of a high-affinity binding site in skeletal or cardiac muscle. Maximum binding capacities (Bmax) range from 40 to 620 fmol/ mg protein and are 10 approximately 200-fold lower than those for a high-affinity binding site in skeletal muscle. Caffeine, adenine nucleotide AMP-PCP, Mg2+, ruthenium red or FK506 affects the binding. In some non-excitable cells, the ryanodine receptor (RyR) isoform RyR2 or RyR3 is expressed and has been identified. However, unlike for excitable cells, information concerning the RyR proteins, including binding sites for modulators like CaM and phosphorylation sites has not yet been obtained.
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PMID:Ryanodine-sensitive Ca2+ release mechanism in non-excitable cells (Review). 1111 3

In humans, phencyclidine (PCP), a noncompetitive N-methyl-d-aspartate (NMDA) antagonist, reproduces a schizophrenia-like psychosis such as positive/negative symptoms and cognitive deficits. PCP (10 mg/kg/day for 14 days)-treated mice exhibit the enhanced immobility in a forced swimming test as indexes of negative symptoms and impairment of latent learning in a water finding test as indexes of cognitive deficits. These behavioral deficits remain after withdrawal from repeated PCP treatment and are attenuated by atypical antipsychotics, but not by typical antipsychotics. Since it has been hypothesized that insufficient glutamate neurotransmission is involved in the pathophysiology of schizophrenia, we investigated an involvement of glutamatergic system in emotional and cognitive deficits in mice treated with PCP repeatedly. Ca(2+)/calmodulin kinase II (CaMKII) is markedly phosphorylated after the forced swimming test and the training trial of water finding test in the prefrontal cortex of saline-treated mice but not PCP-treated mice. Facilitation of NMDA receptor function by NMDA receptor glycine-site agonists such as D-cycloserine and glycine is effective on the abnormal intracellular signaling, and emotional and cognitive deficits in mice treated with PCP repeatedly. The repeated PCP treatment impaired NMDA receptor function and decreased levels of spontaneous extracellular glutamate in the prefrontal cortex, indicating that the repeated PCP treatment impairs both pre- and postsynaptic glutamate transmissions. Our findings suggest that abnormal NMDA receptor signaling is involved in the emotional and cognitive deficits in mice treated with PCP repeatedly. Our PCP-treated mice would be a useful model for studying the effect of antipsychotics on emotional and cognitive deficits in schizophrenia.
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PMID:Animal model of schizophrenia: dysfunction of NMDA receptor-signaling in mice following withdrawal from repeated administration of phencyclidine. 1718 14

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