EC:2.7.11.13 - FACTA Search

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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The transient activation of the N-methyl-D-aspartate (NMDA) receptor system by high frequency (tetanic) stimulation results in a rapidly developing and long-lasting potentiation of synaptic transmission in the CA1 region of the hippocampus. This potentiation can be divided into an early decremental component, known as short-term potentiation (STP), and a more slowly developing persistent phase, termed long-term potentiation (LTP). Here we describe how activation of metabotropic glutamate receptors (mGluRs), by aminocyclopentane-1S,3R-dicarboxylic acid (1S,3R-ACPD), can induce the same stable form of LTP, but without the STP component. 1S,3R-ACPD-induced LTP does not require electrical stimulation during its induction, but is dependent on an intact connection between the CA3 and CA1 regions of the hippocampus. 1S,3R-ACPD-induced LTP circumvents the need for the activation of NMDA receptors and is likely to involve both the stimulation of protein kinase C (PKC) and the release of Ca2+ from intracellular stores.
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PMID:Characterisation of LTP induced by the activation of glutamate metabotropic receptors in area CA1 of the hippocampus. 838 24

1. A grease-gap recording technique has been used to investigate the mechanisms underlying the acute potentiation of N-methyl-D-aspartate (NMDA) responses by aminocyclopentane-1S,3R-dicarboxylic acid (1S,3R-ACPD) in area CA1 of rat hippocampal slices. 2. 1S,3R-ACPD (10 microM), but not 1R,3S- ACPD (10 microM), potentiated submaximal responses to NMDA (dose-ratio of 0.81 +/- 0.02 (mean +/- s.e.mean); n = 55), but not to alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA), in a readily reversible manner. Potentiation also occurred in slices treated with 0.2 microM tetrodotoxin, and in slices perfused with Mg(2+)-free medium. 3. 1S,3R-ACPD-induced potentiation was unaffected by the protein kinase inhibitors K-252b (0.1 microM) and staurosporine (1 microM) and the intracellular Ca2+ store depletor, thapsigargin (10 microM). Coapplication of staurosporine and thapsigargin was also without effect. 4. 1S,3R-ACPD-induced potentiation was unaffected by inhibitors of arachidonic acid formation, bromophenacyl bromide (50 microM) and RG80267 (100 microM). Arachidonic acid (10-50 microM) depressed reversibly NMDA-induced responses. The potentiation was unaffected by 8-bromo cyclic AMP (500 microM) or the PKA inhibitor Rp-adenosine 3,5-cyclic monophosphothioate triethylamine (Rp-cAMPS; 50 microM). 5. 1S,3R-ACPD-induced potentiation was abolished in slices perfused with Ca(2+)-free medium. The potentiation was also blocked by phorbol-12,13-diacetate (1 microM), in a staurosporine-sensitive manner. 6. It is concluded that the potentiation of NMDA responses by 1S,3R-ACPD is not mediated by protein kinase A or C, by release of Ca2+ from intracellular stores or by arachidonic acid. It involves a Ca2+-sensitive process and is negatively regulated by protein kinase C.
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PMID:Signal transduction pathways involved in the acute potentiation of NMDA responses by 1S,3R-ACPD in rat hippocampal slices. 840 19

The excitatory responses of individual dorsal horn neurons to cutaneous brush, repeated application of the C-fibre-selective chemical algogen, mustard oil, or to ionophoretic (1S,3R)-ACPD [a metabotropic glutamate receptor (mGluR) agonist] were monitored by extracellular recording. We have previously shown that the responses of dorsal horn neurons to mustard oil are inhibited by several selective antagonists of mGluRs. Effects of ionophoresis of the mGluR antagonists (R,S)-CHPG and L-AP3 and a range of selective inhibitors of intracellular signalling pathways were examined on evoked responses here. The results suggest that protein kinase C, phospholipase A2 and perhaps Ca2+/calmodulin kinase II play a role in mediating the sustained elevated activity of dorsal horn neurons that is incrementally elicited by repeated application of mustard oil, but probably make little contribution to sustained brush-evoked activity. Concurrence in the sensitivity of mustard oil- and (1S,3R)-ACPD-evoked activity to (R,S)-CHPG, L-AP3 and to inhibitors of intracellular signalling pathways, suggests that mGluRs are an important origin of these intracellular signals required for sustained nociception.
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PMID:The involvement of metabotropic glutamate receptors and their intracellular signalling pathways in sustained nociceptive transmission in rat dorsal horn neurons. 853 52

We have studied the influence of class I metabotropic glutamate receptors (mGluRs) on excitotoxic neuronal degeneration in cultured murine cortical neurons grown on a monolayer of astrocytes. These cultures expressed high levels of mGluR5 mRNA, which were comparable to those found in RNA extracts from cerebral cortex. Cortical neurons in mixed cultures were heavily stained with antibodies raised against mGluR5 and were also stained--albeit to a much lower extent--with mGluR1a but not with mGluR1b or c antibodies. Preferential agonists of class I mGluRs, such as quisqualate, 3,5-dihydroxyphenylglycine (DHPG), and trans-azetidine-2,4-dicarboxylic acid (t-ADA), as well as the mixed mGluR agonist, 1S,3R-1-aminocyclopentane-1,3-dicarboxylic acid (1S,3R-ACPD) all stimulated PPI hydrolysis in cultured cortical cells. The potency of N-methyl-D-aspartate (NMDA) in inducing neuronal degeneration was substantially enhanced when the drug was coincubated with quisqualate, DHPG or t-ADA during a 10-min pulse (paradigm of "fast" toxicity). None of the mGluR agonists influenced neuronal viability by itself. The amplification of NMDA toxicity by quisqualate or DHPG was attenuated by a series of protein kinase C (PKC) inhibitors, suggesting that class I mGluRs operate, at least in part, through activation of PKC. Quisqualate and, in particular, DHPG enhanced excitoxic neuronal degeneration even when applied after the toxic pulse with NMDA. This action is likely to occur early in the maturation of excitotoxic damage, because the functional activity of class I mGluRs was substantially reduced at 2 or 3 hr after the NMDA pulse. These results suggest that activation of class I mGluRs enhances NMDA-receptor mediated neuronal toxicity and encourage the search for selective antagonists for the experimental therapy of acute or chronic neurodegenerative diseases.
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PMID:Activation of metabotropic glutamate receptors coupled to inositol phospholipid hydrolysis amplifies NMDA-induced neuronal degeneration in cultured cortical cells. 853 58

1. Intracellular recordings were used to study the role of metabotropic glutamate receptors (mGluRs) in modulating GABA-mediated giant depolarizing potentials (GDPs) in immature rat hippocampal CA3 neurones. 2. The mGluR antagonist (RS)-alpha-methyl-4-carboxyphenylglycine (MCPG, 1 mM) reduced the frequency of GDPs. The broad-spectrum ionotropic glutamate receptor antagonist kynurenic acid (1 mM) blocked GDPs. 3. In the presence of kynurenic acid, both tetanic stimulation of the hilus or bath application of quisqualic acid (1 microM) and trans-1-aminocyclopentane-1,3-dicarboxylic acid (t-ACPD, 20 microM) induced the appearance of GDPs. These effects were antagonized by MCPG (1 mM) or L(+)-2-amino-3-phosphonopropionic acid (L-AP3) and blocked by bicuculline (10 microM). 4. 8-Bromo-cAMP (8-Br-cAMP, 0.3 mM), 3-isobutyl-1-methylxanthine (IBMX, 200 microM) or forskolin (30 microM) mimicked the effects of mGluR agonists on GDPs. The forskolin analogue 1,9-dideoxyforskolin (30 microM), which does not activate adenylate cyclase, was ineffective. 5. Incubation of slices in the presence of the protein kinase A inhibitor Rp-adenosine 3',5'-cyclic monophosphothioate triethylamine (Rp-cAMPS) (500 microM) or superfusion of Rp-cAMPS (20 microM) prevented the effects of forskolin or t-ACPD on GDPs. In the presence of kynurenic acid, the protein kinase C activator, phorbol 12,13-diacetate (2 microM) induced the appearance of GDPs. This effect was prevented by staurosporine (1 microM). However, staurosporine (1-3 microM) did not modify the effects of t-ACPD on GDPs. 6. It is suggested that, during development, mGluRs enhance the synchronous release of GABA, responsible for GDPs, through cAMP-dependent protein kinase.
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PMID:Cyclic AMP-dependent modulation of giant depolarizing potentials by metabotropic glutamate receptors in the rat hippocampus. 858 96

Metabotropic glutamate receptors, nitric oxide (NO), and the signal transduction pathways of protein kinase C (PKC) and protein kinase A (PKA) can independently alter ischemic-induced neuronal cell death. We therefore examined whether the protective effects of metabotropic glutamate receptors during anoxia and NO toxicity were mediated through the cellular pathways of PKC or PKA in primary hippocampal neurons. Pretreatment with the metabotropic glutamate receptor agonists (+/-)-1-aminocyclopentane-trans-1,3-dicarboxylic acid, (1S,3R)-1-aminocyclopentane-1,3-dicarboxylic acid (1S,3R-ACPD), and L(+)-2-amino-4-phosphonobutyric acid (L-AP4) 1 h before anoxia or NO exposure increased hippocampal neuronal cell survival from approximately 30 to 70%. In addition, posttreatment with 1S,3R-ACPD or L-AP4 up to 6 h following an insult attenuated anoxic- or NO-induced neurodegeneration. In contrast, treatment with L-(+)-2-amino-3-phosphonopropionic acid, an antagonist of the metabotropic glutamate receptor, did not significantly alter neuronal survival during anoxia or NO exposure. Protection by the ACPD-sensitive metabotropic receptors, such as the subtypes mGluR1 alpha, mGluR2, and mGluR5, appears to be dependent on the modulation of PKC activity. In contrast, L-AP4-sensitive metabotropic glutamate receptors, such as the subtype mGluR4, may increase neuronal survival through PKA rather than PKC. Thus, activation of specific metabotropic glutamate receptors is protective during anoxia and NO toxicity, but the signal transduction pathways mediating protection differ among the metabotropic glutamate receptor subtypes.
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PMID:Cellular mechanisms of protection by metabotropic glutamate receptors during anoxia and nitric oxide toxicity. 863 65

1. Facilitation of the N-methyl-D-aspartate (NMDA) receptor-mediated depolarization of cortical neurones induced by metabotropic glutamate receptor (mGluR) agonists in the presence of tetrodotoxin has been examined by use of grease-gap recording. 2. Quisqualate (1-2 microM) and 10 to 100 microM 1S,3R-I-aminocyclopentane-1,3-dicarboxylic acid (1S,3R-ACPD) facilitated the NMDA-, but not the kainate-induced depolarization with an EC50 of 16 microM for 1S,3R-ACPD. The facilitation induced by quisqualate was reduced, but not blocked, by 4 microM 6-cyano-7-nitroquinoxaline-2,3-dione. 3. D,L-2-Amino-3-phosphonopropionic acid and D,L-2-amino-4-phosphonobutyric acid antagonized the 1S,3R-ACPD facilitation in a non-competitive manner with IC50 values of 0.24 microM and 4.4 microM respectively. 4. Homologous desensitization of the 1S,3R-ACPD induced facilitation was not observed. The facilitation was not altered by 10 nM staurosporine or 3 microM phorbol diacetate. 5. Substitution of 20 microM 8-bromo-cyclic adenosine monophosphate, 20 microM 8-bromo-cyclic guanosine monophosphate, or 10 microM arachidonic acid for 1S,3R-ACPD did not induce facilitation of the NMDA response. However, the 1S,3R-ACPD facilitation was potentiated by 10 mM myo-inositol and exhibited heterologous desensitization following exposure to 100 microM 5-hydroxytryptamine. 6. The 1S,3R-ACPD-induced facilitation persisted in both 10 microM nifedipine and nominally Ca(2+)-free medium and was only gradually eliminated following addition of 100 microM bis-(-o-aminophenoxy)-ethane-N,N,N,N-tetraacetic acid in Ca(2+)-free medium. Facilitation of the NMDA response induced by carbachol, but not phenylephrine, was also observed in nominally Ca(2+)-free medium. Perfusing 50 microM bis-(-aminophenoxy)-ethane-N,N,N,N-tetraacetic acid aminoethoxy eliminated the 1S,3R-ACPD facilitation. 7. These experiments have shown that mGluR agonists selectively facilitate the NMDA depolarization of cortical wedges, most likely by activating one or more mGluR subtypes that couple to phospholipase C. We conclude the facilitation results from a Ca(2+)-sensitive mechanism dependent on activation of phospholipase C and release of internal Ca2+. The facilitation is not contingent on activation of protein kinase C or entry of Ca2+ through nifedipine-sensitive Ca2+ channels.
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PMID:Characterization of metabotropic glutamate receptor-mediated facilitation of N-methyl-D-aspartate depolarization of neocortical neurones. 864 13

A front phosphorylation assay followed by two-dimensional gel electrophoresis was used to detect proteins in the tadpole optic tectum, the phosphorylation state of which is regulated by NMDA receptor activation. Five proteins with isoelectric points between 4 and 7 displayed marked increases in their phosphorylation state in response to application of 10 microM glutamate and 50 microM NMDA. This response was inhibited by 60 microM 2-amino-5-phosphopentanoic acid. These proteins are termed NMDA receptor activation-responsive phosphoproteins (NARPPs). Two NARPPs were identified as both in vitro and in vivo substrates for protein kinase C. Of these two NARPPs, one was located in the postsynaptic density (NARPP-50), and one was located in the nuclear fraction (NARPP-21). Phosphorylation of NARPP-21 was also induced by application of the metabotropic glutamate receptor agonist trans-(+/-)-1-amino-1,3-cyclopentanedicarboxylic acid (trans-ACPD) (100 microM). Phosphorylation of all NARPPs was eliminated by dantrolene, which inhibits release of calcium from intracellular stores. In adult tecta, only NARPP-21 and -50 were phosphorylation. Thus the phosphorylation state of most NARPPs is regulated differently when synaptic plasticity is low. Further characterization of NARPPs should lead to identification of second messenger systems involved in NMDA receptor signaling and developmental synaptic plasticity.
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PMID:NMDA receptor activation-responsive phosphoproteins in the developing optic tectum. 877 97

1. Phospholipase D (PLD) is the key enzyme in a signal transduction pathway leading to the formation of the second messengers phosphatidic acid and diacylglycerol. In order to define the pharmacological profile of PLD-coupled metabotropic glutamate receptors (mGluRs), PLD activity was measured in slices of adult rat brain in the presence of mGluR agonists or antagonists. Activation of the phospholipase C (PLC) pathway by the same agents was also examined. 2. The mGluR-selective agonist (1S,3R)-l-aminocyclopentane-1,3-dicarboxylic acid [(1S,3R)-ACPD] induced a concentration-dependent (10-300 microM) activation of PLD in the hippocampus, neocortex, and striatum, but not in the cerebellum. The effect was particularly evident in hippocampal slices, which were thus used for all subsequent experiments. 3. The rank order of potencies for agonists stimulating the PLD response was: quisqualate > ibotenate > (2S,3S,4S)-alpha-(carboxycyclopropyl)-glycine > (1S,3R)-ACPD > L-cysteine sulphinic acid > L-aspartate > L-glutamate. L-(+)-2-Amino-4-phosphonobutyric acid and the ionotropic glutamate receptor agonists N-methyl-D-aspartate, alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid, and kainate failed to activate PLD. (RS)-3,5-dihydroxyphenylglycine (100300 microM), an agonist of mGluRs of the first group, stimulated PLC but inhibited the PLD response elicited by 100 microM (1S,3R)-ACPD. 4. (+)-alpha-Methyl-4-carboxyphenylglycine (0.1-1 mM), a competitive antagonist of mGluRs of the first and second group, elicited a significant PLD response. L-(+)-2-Amino-3-phosphonopropionic acid (1 mM), an antagonist of mGluRs of the first group, inhibited the 100 microM (1S,3R)-ACPD-induced PLC response but produced a robust stimulation of PLD. 5. 12-O-Tetradecanoylphorbol 13-acetic acid and phorbol 12,13-dibutyrate (PDBu), activators of protein kinase C, at 1 microM had a stimulatory effect on mGluRs linked to PLD but depressed (1S,3R)-ACPD-induced phosphoinositide hydrolysis. The protein kinase C inhibitor, staurosporine (1 and 10 microM) reduced PLD activation induced by 1 microM PDBu but not by 100 microM (1S,3R)-ACPD. 6. Our results suggest that PLD-linked mGluRs in rat hippocampus may be distinct from any known mGluR subtype coupled to PLC or adenylyl cyclase. Moreover, they indicate that independent mGluRs coupled to the PLC and PLD pathways exist and that mGluR agonists can stimulate PLD through a PKC-independent mechanism.
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PMID:Pharmacological characterization of metabotropic glutamate receptors coupled to phospholipase D in the rat hippocampus. 879 79

The effects on neuronal nitric oxide synthase (NOS) of protein kinase C (PKC) activation in rat cerebellar slices and of in vitro phosphorylation by PKC were compared. Incubation of slices with 1-aminocyclopentane-1,3-trans-dicarboxylic acid (trans-ACPD) or phorbol myristate acetate (PMA) in the presence of okadaic acid (OA) shifted the calcium sensitivity of neuronal NOS in the homogenate or in the cytosolic fraction. trans-ACPD promoted translocation of PKC activity to the particulate fraction in the slices. PMA in the presence of OA enhanced phosphorylation of GAP43 protein in the slices. These results ensured that both treatments activated PKC in the slice. However, when neuronal NOS in the slice treated with PMA and OA, in which GAP43 phosphorylation was detected, was immunoprecipitated by a specific antibody, no indication of neuronal NOS phosphorylation was obtained. Nevertheless, PKC phosphorylated partially purified neuronal NOS in vitro. Phosphorylated neuronal NOS showed greater activity than unphosphorylated NOS, but their calcium sensitivity was identical. These data indicated that neuronal NOS is not susceptible to PKC-dependent phosphorylation in cerebellar slices and that the calcium-sensitivity shift of neuronal NOS takes place without direct phosphorylation of neuronal NOS, suggesting the involvement of unknown proteins whose phosphorylation would regulate the calcium sensitivity of neuronal NOS in the cerebellum.
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PMID:Differential effects of protein kinase C on neuronal nitric oxide synthase activity in rat cerebellar slices and in vitro. 881 26

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