EC:2.7.11.17 - FACTA Search

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Query: EC:2.7.11.17 (CaMKII)
4,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Alterations in glutamatergic transmission are thought to contribute to secondary neuronal damage following traumatic brain injury. Using an in vitro cell injury model, we previously demonstrated an apparent reduction in AMPA receptor desensitization and resultant potentiation of AMPA-evoked currents after stretch injury of cultured neonatal rat cortical neurons. In the present study, we sought to further characterize injury-induced enhancement of AMPA current and elucidate the mechanisms responsible for this pathological process. Using the patch-clamp technique, agonist-activated currents were recorded from control and injured neurons. Potentiation of AMPA-mediated currents occurred quickly, within 15-30 min following injury, and persisted for at least 24 h. Stretch-injury slowed the activation and desensitization of AMPA mediated currents recorded from excised outside-out patches. The co-application of 100 microM AMPA and 20 microM thiocyanate enhanced AMPA receptor desensitization in control neurons and restored desensitization in injured neurons. The potentiation of AMPA-elicited current was prevented by the NMDA receptor antagonist D-APV (20 microM) or the CaMKII inhibitor KN93 (10 microM). These results suggest that mechanical injury initiates a biochemical cascade that involves NMDA receptor and CaMKII activation and produces a long-lasting reduction of AMPA receptor desensitization, which may contribute to the pathophysiology of traumatic brain injury.
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PMID:Mechanical injury modulates AMPA receptor kinetics via an NMDA receptor-dependent pathway. 1525

To study the glutamatergic mechanisms underlying changes in excitability in the brain stem pain modulatory circuitry after injury, we examined GluR1 serine 831 phosphorylation in the rostral ventromedial medulla (RVM) after complete Freund's adjuvant-induced hindpaw inflammation. Western blots indicated a rapid and prolonged (30 min and 7 days post-inflammation) increase in phosphoserine 831 GluR1 protein levels in the RVM. The upregulated GluR1 phosphorylation was blocked by pretreatment, but not by post-treatment, with the local anesthetic, lidocaine, at the site of inflammation. The upregulation of phosphoserine 831 GluR1 was attenuated by pretreatment with chelerythrine, a selective PKC inhibitor, KN-93, a selective CaMKII inhibitor, and two NMDA receptor antagonists, MK-801 and APV. These findings provide new evidence linking in vivo AMPA receptor phosphorylation in the RVM pain modulatory circuitry to the enhanced descending pain modulation after inflammation.
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PMID:Changes in AMPA receptor phosphorylation in the rostral ventromedial medulla after inflammatory hyperalgesia in rats. 1527 47

The synapse contains densely localized and interacting proteins that enable it to adapt to changing inputs. We describe a Ca2+-sensitive protein complex involved in the regulation of AMPA receptor synaptic plasticity. The complex is comprised of MUPPI, a multi-PDZ domain-containing protein; SynGAP, a synaptic GTPase-activating protein; and the Ca2+/calmodulin-dependent kinase CaMKII. In synapses of hippocampal neurons, SynGAP and CaMKII are brought together by direct physical interaction with the PDZ domains of MUPP1, and in this complex, SynGAP is phosphorylated. Ca2+CaM binding to CaMKII dissociates it from the MUPP1 complex, and Ca2+ entering via the NMDAR drives the dephosphorylation of SynGAP. Specific peptide-induced SynGAP dissociation from the MUPP1-CaMKII complex results in SynGAP dephosphorylation accompanied by P38 MAPK inactivation, potentiation of synaptic AMPA responses, and an increase in the number of AMPAR-containing clusters in hippocampal neuron synapses. siRNA-mediated SynGAP knockdown confirmed these results. These data implicate SynGAP in NMDAR- and CaMKII-dependent regulation of AMPAR trafficking.
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PMID:SynGAP-MUPP1-CaMKII synaptic complexes regulate p38 MAP kinase activity and NMDA receptor-dependent synaptic AMPA receptor potentiation. 1531 54

It is thought that activity-dependent changes in synaptic efficacy driven by biochemical pathways responsive to the action of the excitatory neurotransmitter glutamate are critical components of the mechanisms responsible for memory formation. In particular, the early activation of the NMDA (rNMDA) and AMPA (rAMPA) subtypes of ionotropic glutamate receptors has been demonstrated to be a necessary event for the acquisition of several types of memory. In the rat, consolidation of the long-term memory for a one-trial, step-down inhibitory avoidance task is blocked by antagonists of the rNMDA and rAMPA infused into the CA1 region of the dorsal hippocampus early after training and is associated with a rapid and reversible increase in the total number of [3H]AMPA binding sites. The learning-induced increase in [[3H]AMPA is accompanied by translocation of the GluR1 subunit of the rAMPA to the post-synaptic terminal together with its phosphorylation at Ser831. In addition, learning of the mentioned fear-motivated task induces the activation and rNMDA-dependent translocation of CaMKII to the post-synaptic density. Inhibition of this protein kinase as well as blockade of the rNMDA abolishes both the learning-induced translocation of GluR1 and its phosphorylation. Our data suggest that learning of an avoidance task enhances hippocampal rAMPA signaling through rNMDA and CaMKII-dependent mechanisms.
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PMID:Hippocampal glutamate receptors in fear memory consolidation. 1532 59

The persistent increase in pain sensitivity observed after injury, known as hyperalgesia, depends on synaptic plasticity in the pain pathway, particularly in the spinal cord. Several potential mechanisms have been proposed, including post-synaptic exocytosis of the AMPA subclass of glutamate receptors (AMPA-R), which is known to play a critical role in synaptic plasticity in the hippocampus. AMPA-R trafficking has been described in spinal neurons in culture but it is unknown if it can also occur in spinal neurons in vivo, or if it can be induced by natural painful stimulation. Here we have induced referred mechanical hyperalgesia in vivo by intracolonic instillation of capsaicin in mice and have observed a recruitment of GluR1 AMPA-R subunits to neuronal plasma membranes in the lumbar spinal cord. Intracolonic capsaicin induced a rapid (10 min) increase in GluR1, but not GluR2/3 in the synaptosomal membrane fraction which lasted at least 3 h and a decrease in GluR1 subunit in the cytosolic fraction. Capsaicin treatment also provoked CaMKII activation and pre-treatment with a specific CaMKII inhibitor prevented the GluR1 trafficking. Brefeldin-A, an antibiotic that inhibits exocytosis of proteins, not only prevented GluR1 trafficking to the membrane but also inhibited referred hyperalgesia in capsaicin-treated mice. Our results show that delivery of GluR1 AMPA receptor subunits to the cell membrane through a CaMKII activity-dependent exocytotic regulated pathway contributes to the development of hyperalgesia after a painful stimulus. We conclude that AMPA-R trafficking contributes to the synaptic strengthening induced in the pain pathway by natural stimulation.
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PMID:In vivo recruitment by painful stimuli of AMPA receptor subunits to the plasma membrane of spinal cord neurons. 1556 87

The acute hippocampal slice preparation has been widely used to study the cellular mechanisms underlying activity-dependent forms of synaptic plasticity such as long-term potentiation (LTP) and long-term depression (LTD). Although protein phosphorylation has a key role in LTP and LTD, little is known about how protein phosphorylation might be altered in hippocampal slices maintained in vitro. To begin to address this issue, we examined the effects of slicing and in vitro maintenance on phosphorylation of six proteins involved in LTP and/or LTD. We found that AMPA receptor (AMPAR) glutamate receptor 1 (GluR1) subunits are persistently dephosphorylated in slices maintained in vitro for up to 8 h. alpha calcium/calmodulin-dependent kinase II (alphaCamKII) was also strongly dephosphorylated during the first 3 h in vitro but thereafter recovered to near control levels. In contrast, phosphorylation of the extracellular signal-regulated kinase ERK2, the ERK kinase MEK, proline-rich tyrosine kinase 2 (Pyk2), and Src family kinases was significantly, but transiently, increased. Electrophysiological experiments revealed that the induction of LTD by low-frequency synaptic stimulation was sensitive to time in vitro. These findings indicate that phosphorylation of proteins involved in N-methyl-D-aspartate (NMDA) receptor-dependent forms of synaptic plasticity is altered in hippocampal slices and suggest that some of these changes can significantly influence the induction of LTD.
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PMID:Phosphorylation of proteins involved in activity-dependent forms of synaptic plasticity is altered in hippocampal slices maintained in vitro. 1558 11

Synaptic plasticity involves protein phosphorylation cascades that alter the density of AMPA-type glutamate receptors at excitatory synapses; however, the crucial phosphorylated substrates remain uncertain. Here, we show that the AMPA receptor-associated protein stargazin is quantitatively phosphorylated and that stargazin phosphorylation promotes synaptic trafficking of AMPA receptors. Synaptic NMDA receptor activity can induce both stargazin phosphorylation, via activation of CaMKII and PKC, and stargazin dephosphorylation, by activation of PP1 downstream of PP2B. At hippocampal synapses, long-term potentiation and long-term depression require stargazin phosphorylation and dephosphorylation, respectively. These results establish stargazin as a critical substrate in the bidirectional control of synaptic strength, which is thought to underlie aspects of learning and memory.
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PMID:Bidirectional synaptic plasticity regulated by phosphorylation of stargazin-like TARPs. 1566 78

We cloned from the rat brain a novel gene, tanc (GenBank Accession No. AB098072), which encoded a protein containing three tetratricopeptide repeats (TPRs), ten ankyrin repeats and a coiled-coil region, and is possibly a rat homolog of Drosophila rolling pebbles (rols). The tanc gene was expressed widely in the adult rat brain. Subcellular distribution, immunohistochemical study of the brain and immunocytochemical studies of cultured neuronal cells indicated the postsynaptic localization of TANC protein of 200 kDa. Pull-down experiments showed that TANC protein bound PSD-95, SAP97, and Homer via its C-terminal PDZ-binding motif, -ESNV, and fodrin via both its ankyrin repeats and the TPRs together with the coiled-coil domain. TANC also bound the alpha subunit of Ca2+/calmodulin-dependent protein kinase II. An immunoprecipitation study showed TANC association with various postsynaptic proteins, including guanylate kinase-associated protein (GKAP), alpha-internexin, and N-methyl-D-aspartate (NMDA)-type glutamate receptor 2B and AMPA-type glutamate receptor (GluR1) subunits. These results suggest that TANC protein may work as a postsynaptic scaffold component by forming a multiprotein complex with various postsynaptic density proteins.
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PMID:A novel scaffold protein, TANC, possibly a rat homolog of Drosophila rolling pebbles (rols), forms a multiprotein complex with various postsynaptic density proteins. 1567 34

Calcium-calmodulin protein kinase IIalpha (CaMKIIalpha) is mainly found in brain cells, and the mRNA concentrates highly in the postsynaptic density. CaMKIIalpha is an effector of calcium and calmodulin mediated functions, and the phosphorylated CaMKIIalpha (pCaMKIIalpha) activates glutamate receptors, such as the AMPA receptor, and enhances its function. In the present study, we examined whether CaMKIIalpha in trigeminal brainstem neurons contributed to the neuropathic pain induced by inferior alveolar nerve (IAN) transection. Using immunohistochemistry and in situ hybridization, we found that the expression of CaMKIIalpha and pCaMKIIalpha increased in the trigeminal subnucleus caudalis (Vc) after IAN transection. The significant increase in the protein of CaMKIIalpha peaked at 30 min after IAN transection, and the mRNA of CaMKIIalpha increased from 2 to 14 days. Double immunofluorescent staining for CaMKIIalpha and MAP2, a marker of dendrite, revealed a significant increase in the overlapping area at 30 min after injury. This suggests that CaMKIIalpha protein is synthesized from the local mRNA pool in the dendrite 30 min after IAN transection and may quickly transmit information after nerve injury. In the behavioral test in which the escape threshold from mechanical stimulation to the lateral face was measured, intrathecal administration of KN-93, a CaMKII inhibitor, for 7 days significantly inhibited mechano-allodynia induced by IAN transection, as compared with administration of a control peptide. These data suggest that CaMKIIalpha in the trigeminal subnucleus caudalis may be involved in neuropathic pain caused by IAN transection.
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PMID:Ca(2+)/calmodulin-protein kinase IIalpha in the trigeminal subnucleus caudalis contributes to neuropathic pain following inferior alveolar nerve transection. 1575 48

In glutamatergic synapses, glutamate receptors (GluRs) associate with many other proteins involved in scaffolding and signal transduction. The ontogeny of these postsynaptic density (PSD) proteins involves changes in their composition during development, paralleling changes in GluR type and function. In the CA1 region of the hippocampus, at postnatal day 2 (P2), many synapses already have a distinct PSD. We used immunoblot analysis, subcellular fractionation, and quantitative immunogold electron microscopy to examine the distribution of PSD proteins during development of the hippocampus. Synapses at P2 contained substantial levels of NR1 and NR2B and most GluR-associated proteins, including SAP102, SynGAP, the chain of proteins from GluRs/SAP102 through GKAP/Shank/Homer and metabotropic glutamate receptors, and the adhesion factors, cadherin, catenin, neuroligin, and Nr-CAM. Development was marked by substantial decreases in NR2B and SAP102 and increases in NR2A, PSD-95, AMPA receptors, and CaMKII. Other components showed more moderate changes.
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PMID:Ontogeny of postsynaptic density proteins at glutamatergic synapses. 1589 89

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