Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Inhibition of cAMP-dependent protein kinase (PKA) with N-[2-methylamino)ethyl]-5-isoquinolinesulfonamide (H-8) almost completely antagonized the increase in 5-HTP accumulation and 5-HIAA/5-HT ratio in hypothalamus induced by NAS-181, a 5-HT(1B) receptor antagonist, but had no effect when the mice were treated with NAS-181 together with WAY-100,635, a selective 5-HT(1A) receptor antagonist. Inhibition of Ca(2+)-calmodulin-dependent protein kinase (CaM kinase II) with the calmodulin antagonist N-(4-aminobutyl)-5-chloro-2-naphtalenesulfonamide (W-13) did not antagonise the effect of NAS-181 alone, but counteracted that evoked by the combined treatment with NAS-181 and WAY-100,635. The results indicate that activation of tryptophan hydroxylase by reducing the tone from terminal 5-HT(1B) receptors involves PKA whereas the depolarisation-induced activation of tryptophan hydroxylase involves CaM kinase II. The increase in the 5-HIAA/5-HT ratio may under the experimental conditions used suggest CaM kinase II-induced phosphorylation of synapsin I resulting in increased 5-HT release.
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PMID:Evidence for involvement of protein kinases in the regulation of serotonin synthesis and turnover in the mouse brain in vivo. 1245 32

Doublecortin kinase-1 (DCK1) is a newly described multidomain protein kinase with a sequence significantly similar to those of both CaM kinases (CaMKs) and doublecortin, the product of the gene mutated in X-linked lissencephaly/double cortex syndrome, a severe developmental disorder of the nervous system. Functional studies have revealed microtubule binding and polymerization activities of the doublecortin domain, yet little is known regarding the enzymatic properties and regulation of the kinase catalytic domain. We have identified and report here notable similarities as well as differences between the catalytic and regulatory properties of DCK1 and those of the CaMKs. Using synthetic peptide substrates modeled on synapsin I, a substrate recognition motif for DCK1 of Hyd-Arg-Arg-X-X-Ser/Thr-Hyd was derived. The similarity of this motif to that of CaMKI [Lee, J. C., Kwon, Y.-G., Lawrence, D. S., and Edelman, A. M. (1994) Proc. Natl. Acad. Sci. U.S.A. 91, 6413-6417] is consistent with the 59% level of amino acid sequence similarity between their catalytic domains. DCK1 catalytic activity is enhanced by mutagenic introduction of negative charge at Thr-239, a residue in a position equivalent to that of Thr-177 of CaMKI, the activation loop site for regulation by CaM kinase kinase. Unlike CaMKs, DCK1 is not directly activated by Ca(2+)-bound CaM. However, truncation of a pseudosubstrate-like sequence in the C-terminus of DCK1 results in an approximately 6-fold enhancement of activity. Thus, DCK1 demonstrates the potential to be regulated by relief of autoinhibition in response to signal(s) distinct from Ca(2+)-bound CaM and potentially by activation loop phosphorylation and to phosphorylate intracellular targets at sites similar to those recognized by CaMK pathways.
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PMID:Catalytic and regulatory domains of doublecortin kinase-1. 1259 Jun 8

Nerve growth factor (NGF) was found to increase glutamate release in the developing visual cortex. We investigated the cellular mechanisms of this effect and its dependence on extracellular and intracellular Ca2+. The NGF-induced enhancement of glutamate release from superfused rat visual cortex synaptosomes required mild depolarization. Removal of external Ca2+ during depolarization with 15 mM K+ only halved the effect of NGF on glutamate release. NGF increased [Ca2+]i in K+-depolarized synaptosomes preloaded with fura-2AM both in the presence and in the absence of external Ca2+. The effects of NGF on glutamate release and [Ca2+]i elevation were prevented by an anti-TrkA receptor monoclonal antibody. NGF increased synaptosomal inositol (1,4,5)-triphosphate (InsP3) during depolarization and the InsP3 receptor antagonist heparin abolished the effect of NGF on evoked glutamate release both in the presence and in the absence of external Ca2+. The effect of NGF on the evoked glutamate release in Ca2+-free medium was abolished by dantrolene, a ryanodine receptor blocker, by CGP 37157, a blocker of the mitochondrial Na+/Ca2+ exchanger and by pretreatment of synaptosomes with caffeine. NGF significantly increased the depolarization-induced activation of Ca2+/calmodulin-dependent protein kinase II (CaMKII) and the subsequent phosphorylation of synapsin I in the absence of external Ca2+ and the NGF effect on evoked glutamate release was inhibited by the CaMKII inhibitors KN-93 and CaMKII 281-309 peptide but not by the MAP kinase inhibitor PD 98059. Thus, the effect of NGF on evoked glutamate release is linked to an increase in [Ca2+]i contributed by both Ca2+ entry and mobilization from InsP3-sensitive, ryanodine-sensitive and mitochondrial stores and to the subsequent activation of CaMKII.
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PMID:Cellular mechanisms of the acute increase of glutamate release induced by nerve growth factor in rat cerebral cortex. 1269 58

Ca2+/calmodulin-dependent protein kinase I (CaMKI), originally identified as a protein kinase phosphorylating synapsin I, has been shown to constitute a family of closely related isoforms (alpha, beta and gamma). Here, we have isolated and determined the complete primary structures of two alternatively splicing isoforms of CaMKI termed CaMKI gamma 1 and -gamma 2. CaMKI gamma 1 and -gamma 2 contain an identical N-terminal catalytic domain with different C-terminal regions due to the deletion of the 425-bp nucleotide sequence of CaMKI gamma 1 in CaMKI gamma 2. In vitro kinase assay has demonstrated the marked enhancement of the Ca2+/CaM-dependent activity of CaMKI gamma 1 by the preincubation with Ca2+/calmodulin-dependent protein kinase kinase (CaMKK), but no significant activation of CaMKI gamma 2. Northern blot analysis has demonstrated the predominant expression of CaMKI gamma in the brain. RT-PCR analysis has revealed similar expression patterns between CaMKI gamma 1 and CaMKI gamma 2 in various brain regions. In situ hybridization analysis has demonstrated that CaMKI gamma mRNA is expressed in a distinct pattern from other isoforms of CaMKI with predominant expression in some restricted brain regions such as the olfactory bulb, hippocampal pyramidal cell layer of CA3, central amygdaloid nuclei, ventromedial hypothalamic nucleus and pineal gland. In the primary hippocampal neurons and NG108-15 cells, transfected CaMKI gamma 1 and -gamma 2 are localized primarily in the cytoplasm and neurites but not in the nucleus. These findings suggest that both isoforms of CaMKI gamma may be involved in Ca2+ signal transduction in the cytoplasmic compartment of certain neuronal population.
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PMID:Cloning, characterization and expression of two alternatively splicing isoforms of Ca2+/calmodulin-dependent protein kinase I gamma in the rat brain. 1275 81

Alkaline-induced beta-elimination of phosphate from phosphoserine and phosphothreonine residues followed by addition of an affinity tag has recently been pursued as a strategy for enriching phosphorylated species from complex mixtures. Here we report the use of an introduced thiol tag as the ligand for affinity purification via disulfide exchange with an activated thiol resin and the development of a protocol to improve the sensitivity considerably over previous reports (i.e., to subpicomole levels.) During our experiments, we observed a side reaction in which water was eliminated from unmodified serine residues. This side reaction resulted in the introduction of the affinity tag into unphosphorylated proteins, confounding attempts to specifically purify phosphoproteins from mixtures. Unchecked, this side reaction will also prevent application of the beta-elimination strategy to phosphopeptide samples where the phosphorylated species are minor components (i.e., most current phosphoproteomics applications). Quantitation of the side reaction products using three synthetic unphosphorylated peptides showed varying conversion efficiencies; at maximum, 1.7% of unphosphorylated peptide was converted to the affinity-tagged form. Inclusion of EDTA into the reaction reduced the side reaction but also greatly reduced the conversion efficiency of one of the phosphoserine residues of ovalbumin, suggesting a role for trace metal ions in the beta-elimination chemistry. Despite the presence of the side reaction, the affinity strategy was shown to be effective at enriching phosphopeptides from fairly complex peptide mixtures. The strategy was applied to the analysis of in vitro phosphorylation of bovine synapsin I by Ca(2+)/calmodulin-dependent kinase II, resulting in the identification of four phosphorylation sites, two of which have not been previously reported.
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PMID:Improved beta-elimination-based affinity purification strategy for enrichment of phosphopeptides. 1467 42

Four subunits of Ca2+/calmodulin-dependent protein kinase II (CaM KII) have several isoforms, which differ in the variable domain. We previously reported that all subunits were highly expressed in rat striatal neurons. To examine intracellular distributions of CaM KII subunits in the rat striatal neurons, we performed immunoblot analysis with antibodies specific to each subunit in cell extracts from the rat striatum after continuous sucrose density gradient fractionation. The alpha subunit, but not the beta, gamma, or delta subunits, was colocalized with synapsin I, and each subunit showed a distinct distribution pattern in the fractions. To examine further the intracellular distributions of CaM KII isoforms in the same subunit, we established NG108-15 cells stably expressing delta1, delta3, and delta4 isoforms and examined distributions of the delta and gamma isoforms in these cell lines after fractionation. Each of the overexpressed exogenous delta isoforms showed a distinct distribution pattern. The endogenous delta2 was colocalized with the overexpressed delta1, delta3, and delta4 isoforms. However, the endogenous gammaB/gammaC isoforms were not colocalized with the overexpressed delta isoforms. Furthermore, the endogenous delta1 was concentrated in the microsomal fraction from the rat striatum. With the results taken together, it is suggested that CaM KII forms oligomers between isoforms in the same subunit but not in different subunits. The variable domain of CaM KII isoforms might possibly be responsible for targeting to certain intracellular compartments.
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PMID:Differential subcellular distribution of Ca2+/calmodulin-dependent protein kinase II isoforms in the striatum and NG108-15 cells. 1474 31

Low concentrations of inorganic lead ions (Pb2+) disrupt transmitter release by causing aberrant augmentation of spontaneous and suppression of evoked release. These effects result from high affinity interactions of Pb2+ with the voltage-gated calcium channels (VGCC) as well as Ca2+ binding proteins which regulate the synaptic vesicle mobilization, docking, and exocytosis processes. Augmentation of spontaneous release may involve stimulation of vesicle mobilization consequent to Pb2+ activation of CaMKII-dependent phosphorylation of synapsin I and/or stimulation of asynchronous exocytosis via direct Pb2+ activation of the putative exocytotic Ca2+-sensor protein synaptotagmin I. In addition, synergistic stimulation of PLC and DAG/Pb2+-dependent activation of PKC may enhance the secretagogue effects of Pb2+ by increasing metal sensitivity of exocytosis and/or modulating calcium channel activity. In contrast to intracellularly-mediated actions of Pb2+ resulting in augmentation of spontaneous release, the inhibition of evoked transmitter release by Pb2+ is largely attributable to extracellular block of the voltage-gated calcium channels.
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PMID:Presynaptic disruption of transmitter release by lead. 1518 13

Neurokinin 1 (NK-1) receptor knockout mice showed behavioral responses similar to animals chronically treated with antidepressants. The aim of this study was to analyse, in NK-1 receptor knockout, the molecular modifications of signaling pathways involved in the pathophysiology of depression and antidepressant mechanism. We found, in total cell cytosol from the prefrontal/frontal cortex, hippocampus and striatum, a marked up-regulation of Ca(2+)-independent enzymatic activity and Thr(286) autophosphorylation of Ca(2+)/calmodulin-dependent protein kinase (CaMK) II. Similar changes in CaMKII regulation were previously observed in rats chronically treated with antidepressants. In striatum, up-regulation of the activity and phosphorylation of CaMKII was also found in the homogenate and synaptosomes. No major changes were observed in the Ca(2+)-dependent kinase activity, with the exception of homogenate from the prefrontal/frontal cortex. We also analysed the expression and phosphorylation of presynaptic proteins, which modulate synaptic vesicle trafficking and exocytosis, and found a marked decrease in synapsin I total expression and basal phosphorylation of Ser(603) (the phosphorylation site for CaMKII) in the prefrontal/frontal cortex. Accordingly, the Ca(2+)/calmodulin-dependent posthoc endogenous phosphorylation of synapsin I in the same area was increased. The knockout of NK-1 receptor had no consequences on the expression or phosphorylation levels of the transcription factor cAMP-responsive element-binding protein and its regulating kinase CaMKIV. However, phosphorylation of ERK1/2-mitogen-activated protein kinases was reduced in the hippocampus and striatum, again resembling an effect previously observed in antidepressant-treated rats. These results show similarities between NK-1 knockouts and animals chronically treated with antidepressants and support the putative antidepressant activity of NK-1 receptor antagonists.
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PMID:Changes in signaling pathways regulating neuroplasticity induced by neurokinin 1 receptor knockout. 1581 46

The chymotryptic fragment of Ca2+/calmodulin-dependent protein kinase II (30K-CaMKII) is a constitutively active enzyme that phosphorylates a variety of protein substrates in vitro. Although 30K-CaMKII is an often used and powerful tool for protein phosphorylation, the efficient production of catalytically active 30K-CaMKII in Escherichia coli has not yet been successfully realized, probably due to its toxicity in host cells. In this study, we found that a high-level expression of 30K-CaMKII as an insoluble form was attained when the N-terminal 43 amino acid residues of Xenopus CaMKI were fused to the N-terminal end of 30K-CaMKII (CX-30K-CaMKII). The inactive CX-30K-CaMKII thus expressed in E. coli was reactivated by simple denaturation/renaturation processes and purified on a Ni2+-chelating column. The renatured CX-30K-CaMKII exhibited specific activity similar to that of rat brain CaMKII, and phosphorylated various proteins such as histones, myosin light chain, myelin basic protein, and synapsin I, as in case of 30K-CaMKII or purified CaMKII. Thus, CX-30K-CaMKII, an autonomous CaMKII, can be obtained with a simple procedure using E. coli expression system.
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PMID:High level expression and preparation of autonomous Ca2+/calmodulin-dependent protein kinase II in Escherichia coli. 1627 72

Changes in synaptic plasticity are involved in pathophysiology of depression and in the mechanism of antidepressants. Ca(2+)/calmodulin (CaM) kinase II, a protein kinase involved in synaptic plasticity, has been previously shown to be a target of antidepressants. We previously found that antidepressants activate the kinase in hippocampal neuronal cell bodies by increasing phosphorylation at Thr(286), reduce the kinase phosphorylation in synaptic membranes, and in turn its phosphorylation-dependent interaction with syntaxin-1 and the release of glutamate from hippocampal synaptosomes. Here, we investigated the chronic effect of different antidepressants (fluoxetine, desipramine, and reboxetine) on the expression and function of the kinase in distinct subcellular compartments in order to dissect the different kinase pools affected. Acute treatments did not induce any change in the kinase. In total tissue extracts chronic drug treatments induced activation of the kinase; in hippocampus (HC), but not in prefrontal/frontal cortex, this was partially accounted for by increased Thr(286) phosphorylation, suggesting the involvement of different mechanisms of activation. In synaptosomes, all drugs reduced the kinase phosphorylation, particularly in HC where, upon fractionation of the synaptosomal particulate into synaptic vesicles and membranes, we found that the drugs induced a redistribution and differential activation of the kinase between membranes and vesicles. Furthermore, a large decrease in the level and phosphorylation of synapsin I located at synaptic membranes was consistent with the observed decrease of CaM kinase II. Overall, antidepressants induce a complex pattern of modifications in distinct subcellular compartments; at presynaptic level, these changes are in line with a dampening of glutamate release.
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PMID:Chronic antidepressants induce redistribution and differential activation of alphaCaM kinase II between presynaptic compartments. 1735 71


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