EC:3.1.3.16 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.16 (calcineurin)
17,112 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Many activity-dependent changes in synaptic efficacy occur through elevations in postsynaptic calcium triggered by glutamate receptor activation. Here, the postsynaptic, neuron-specific microtubule-associated protein MAP2 is identified as a target of bidirectional calcium-dependent signaling pathways activated by glutamate. Glutamate produced a biphasic change in MAP2: a rapid, transient increase in phosphorylation mediated by metabotropic receptors and attenuated by inhibitors of calcium/calmodulin-dependent protein kinases and protein kinase C, followed by a persistent dephosphorylation of MAP2 mediated by NMDA receptors and activation of the calcium/calmodulin-dependent protein phosphatase 2B (calcineurin). Thus, a single transmembrane signal, glutamate, and the increased intracellular calcium it evokes can have opposing actions on a postsynaptic target phosphoprotein. The phosphorylation state of MAP2 determines its interaction with microtubules and actin filaments, suggesting that glutamatergic regulation of MAP2 phosphorylation may transduce neural activity into modifications in dendritic structure.
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PMID:Postsynaptic mechanisms for bidirectional control of MAP2 phosphorylation by glutamate receptors. 878 50

We have previously reported that glutamate can trigger a succession of necrosis and apoptosis in cerebellar granule cells (CGC). Since specific blockers of the N-methyl-D-aspartate (NMDA) receptor channel prevented both types of cell death, the role of Ca2+-dependent processes in the initiation of glutamate toxicity was further investigated. We examined the possible involvement of mitochondria and the role of the Ca2+/calmodulin-regulated protein phosphatase, calcineurin, in the development of either type of cell death. Cyclosporin A and the more selective calcineurin inhibitor, FK-506, prevented the development of both early necrosis and delayed apoptosis. In addition, cyclosporin A prevented the collapse of mitochondrial membrane potential observed during the exposure to glutamate and the concomitant necrotic phase. When CsA was added immediately after glutamate removal, it also prevented delayed apoptosis of neurons that had survived the necrotic phase. Altogether, these results suggest the involvement of calcineurin and a role for mitochondrial deenergization as early signals in neuronal apoptosis induced by glutamate.
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PMID:Calcineurin and mitochondrial function in glutamate-induced neuronal cell death. 883 Jun 66

The effect of the immunosuppressant FK506 on ischaemic neuronal damage was studied in a rat model of transient cerebral ischemia induced by occlusion of both common carotid arteries in combination with hypotension for 10 min. Neuronal damage was assessed morphologically after 4 days of recovery. Treatment with FK506, given at a dose of 2 mg kg-1 by intraperitoneal injections 30 min prior to ischemia and once daily during recovery, decreased neuronal damage by 52% in the hippocampal CA1 region and by 48% in the temporal cortex. The protection was not due to diminished body temperature or a marked reduction of ischaemia-induced synaptic overflow of glutamate. We propose that FK506 decreases neuronal damage either by inhibiting calcineurin-mediated events or by preserving mitochondrial function.
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PMID:The immunosuppressant FK506 ameliorates ischaemic damage in the rat brain. 889 62

Pronounced changes in neuronal morphology occur as synapses mature; however, little is known about how synaptic transmission regulates the developing neuronal cytoskeleton. The postsynaptic, microtubule-associated protein MAP2 is a target of multiple, calcium-dependent signaling pathways activated by synaptic transmission. Here we demonstrate that MAP2 phosphorylation is differentially regulated across development. In 32P-labeled hippocampal slices prepared from adult rats, depolarization stimulated a bidirectional change in the phosphorylation of immunoprecipitated MAP2. A transient increase was mediated by metabotropic glutamate receptors (mGluRs) and stimulation of mitogen-activated protein kinases (MAPKs), Ca2+/calmodulin-dependent protein kinases (CaMKs), and protein kinase C (PKC). This increase was followed by a persistent dephosphorylation mediated by NMDA receptors and activation of protein phosphatase 2B (PP2B or calcineurin). In contrast, depolarization of neonatal hippocampal slices stimulated exclusively a net increase in MAP2 phosphorylation, which was attenuated by inhibitors of MAPKs, but not CaMKs or PKC. Furthermore, although incubation in NMDA induced a time-dependent decrease in MAP2 phosphorylation in both adults and neonates, this effect was both less robust and less sensitive to calcineurin inhibitors in neonates than in adults. These data indicate that the mechanisms coupling glutamate release to MAP2 dephosphorylation are relatively lacking in the neonatal hippocampus. Highly phosphorylated MAP2 is impaired in its ability to stabilize microtubules and actin filament bundles in vitro. The neonatal propensity toward glutamate-stimulated MAP2 phosphorylation may serve to reduce cytoskeletal stability and permit dendritic arborization early in postnatal development. In mature neurons, the bidirectional control of MAP2 phosphorylation may participate in activity-dependent synaptic remodeling.
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PMID:Emergence of activity-dependent, bidirectional control of microtubule-associated protein MAP2 phosphorylation during postnatal development. 892 19

The function of the GABAA receptor has been studied using the whole cell voltage clamp recording technique in rat cerebellum granule cells in culture. Activation of NMDA-type glutamate receptors causes a reduction in the effect of GABA. Full GABAA receptor activity was recovered after washing out NMDA and NMDA action was prevented in a Mg+2 containing medium. The NMDA effect was also absent when extracellular Ca+2 was replaced by Ba+2 and when 10 mM Bapta was present in the intracellular solution. Charge accumulations via voltage activated Ca+2 channels greater than the ones via NMDA receptors do not cause any reduction in GABAA receptor function, suggesting that Ca+2 influx through NMDA receptor channels is critical for the effect. The NMDA effect was reduced by including adenosine-5'-O-3-thiophosphate (ATP-gamma-S) in the internal solution and there was a reduction in the NMDA effect caused by deltamethrin, a calcineurin inhibitor. Part of the NMDA induced GABAA receptor impairment was prevented by prior treatment with L-arginine. Analogously, part of the NMDA effect was prevented by blockage of NO-synthase activity by N omega-nitro-L-arginine. A combination of NO-synthase and calcineurin inhibitors completely eliminated the NMDA action. An analogous result was obtained by combining the NO-synthase inhibitor with the addition of ATP-gamma-S to the pipette medium. The additivity of the prevention of the NMDA impairment of GABAA receptor by blocking the L-arginine/NO pathway and inhibiting calcineurin activity suggests an independent involvement of these two pathways in the interaction between NMDA and the GABAA receptor. On the one hand Ca+2 influx across NMDA channels activates calcineurin and dephosphorylates the GABAA receptor complex directly or dephosphorylates proteins critical for the function of the receptor. On the other hand, Ca+2 influx activates NO-synthase and induces nitric oxide production, which regulates such receptors via protein kinase G activity.
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PMID:A dual mechanism for impairment of GABAA receptor activity by NMDA receptor activation in rat cerebellum granule cells. 903 53

Hexokinase 2 from Saccharomyces cerevisiae is phosphorylated in vivo at serine-15 [Kriegel et al. (1994) Biochemistry 33, 148-152] and undergoes ATP-dependent autophosphorylation-inactivation in vitro when incubated in the presence of D-xylose [Fernandez et al. (1988) J. Gen. Microbiol. 134, 2493-2498]. This study identifies the site of inactivation by autophosphorylation as serine-158 by observation of a single tryptic peptide difference, peptide sequencing, and size determination by mass spectrometry. Mutation of serine-158 to alanine and cysteine, respectively, prevents autophosphorylation and causes a drastic decrease of the catalytic activity while mutational change to glutamate results in a complete loss of enzyme activity. The catalytically active mutant enzymes display an increased affinity for glucose and exhibit higher K(M) with respect to MgATP. Phosphoserine/phosphothreonine-specific protein phosphatase-2A completely reverses the autophosphorylative inactivation of the wild-type enzyme.
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PMID:Autophosphorylation-inactivation site of hexokinase 2 in Saccharomyces cerevisiae. 904 92

Calcineurin is a calcium (Ca2+)/calmodulin (CaM)-dependent protein phosphatase that has been shown to regulate the activity of ion channels, neurotransmitter and hormone release, synaptic plasticity and gene transcription. At glutamatergic synapses, the inhibition of calcineurin with immunosuppressant drugs has been reported to enhance both the presynaptic release of glutamate and postsynaptic responsiveness. Several other ligand- and voltage-gated ion channels are negatively regulated by calcineurin. Hormone release in insulin-secreting pancreatic beta cells and pituitary corticotrope tumour (AtT20) cells is also negatively regulated by calcineurin. In this article, Jerrel Yakel discusses the evidence that calcineurin plays a vital role in regulating neuronal excitability and hormone release.
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PMID:Calcineurin regulation of synaptic function: from ion channels to transmitter release and gene transcription. 914 41

The objective of this study was to asses the response of the microtubule-associated protein tau to acute rise in the concentration of free cytoplasmic calcium ([Ca2+]i) in rat cortical neurons and mouse cerebellar granule cells in culture. One-hour exposure to glutamate (100 microM), N-methyl-D-aspartate (100 microM), KCl (50 mM), and ionomycin (5 microM) led to tau protein dephosphorylation as indicated by an appearance of additional faster moving bands on Western immunoblots with a phosphorylation-independent antibody and an increase in the tau-1 immunoreactivity associated with the appearance of an additional faster moving band. Lowering the extracellular concentration of Ca2+ to less than 1 microM fully prevented the drug-induced tau protein dephosphorylation indicating a dependence on Ca2+ influx from the extracellular environment. Administration of okadaic acid (inhibitor of phosphatase 1/2A) simultaneously with the above mentioned drugs decreased the drug-mediated dephosphorylation. Pre-incubation with okadaic acid fully prevented the dephosphorylation. Treatment with cypermethrin (inhibitor of phosphatase 2B) was without effect when administered either alone, simultaneously with the drugs, or pre-incubated. These findings indicate that, independently of the influx pathway, [Ca2+]i elevation leads to dephosphorylation of the microtubule-associated protein tau and implicate phosphatase 1 and/or 2A in the process.
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PMID:Acute rise in the concentration of free cytoplasmic calcium leads to dephosphorylation of the microtubule-associated protein tau. 920 May 3

Two distinct forms of long-term depression (LTD), one dependent on the activation of NMDA receptors (NMDARs) and the other dependent on the activation of metabotropic glutamate receptors (mGluRs), are shown to coexist in CA1 hippocampal pyramidal cells of juvenile (11-35 day-old) rats. Both forms were pathway specific and required membrane depolarization and a rise in postsynaptic Ca2+. mGluR-LTD, but not NMDAR-LTD, required the activation of T-type Ca2+ channels, group 1 mGluRs, and protein kinase C, while NMDAR-LTD, but not mGluR-LTD, required protein phosphatase activity. NMDAR-LTD was associated with a decrease in the size of quantal excitatory postsynaptic currents, whereas for mGluR-LTD there was no change in quantal size, but a large decrease in the frequency of events. NMDAR-LTD, but not mGluR-LTD, reversed NMDAR-dependent long-term potentiation, and NMDAR-LTD was unaffected by prior saturation of mGluR-LTD. These findings indicate that NMDAR-LTD and mGluR-LTD are mechanistically distinct forms of synaptic plasticity.
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PMID:Two distinct forms of long-term depression coexist in CA1 hippocampal pyramidal cells. 920 64

We have cloned a novel cDNA from human skeletal muscle which encodes a protein phosphatase with a unique acidic domain. It is 34% identical to mammalian PP2C alpha and PP2C beta and we call it PP2C gamma. It more closely resembles PP2Cs from Paramecium tetraurelia and Schizosaccharomyces pombe than mammalian PP2Cs. Northern blot analysis shows that PP2C gamma is widely expressed, and is most abundant in testis, skeletal muscle, and heart. Like known PP2Cs, recombinant PP2C gamma requires Mg2+ or Mn2+ for activity. Unlike any other known phosphatase, PP2C gamma has a highly acidic domain: 75% of the 54 residues are glutamate or aspartate.
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PMID:PP2C gamma: a human protein phosphatase with a unique acidic domain. 927 38

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