EC:2.7.11.17 - FACTA Search

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)

The epidermal growth factor receptor (EGFR) is a member of the tyrosine kinase receptor family involved in signal transduction and the regulation of cellular proliferation and differentiation. It is also a calmodulin-binding protein. To examine the role of calmodulin in the regulation of EGFR, the effect of calmodulin antagonist, W-13, on the intracellular trafficking of EGFR and the MAPK signaling pathway was analyzed. W-13 did not alter the internalization of EGFR but inhibited its recycling and degradation, thus causing the accumulation of EGF and EGFR in enlarged early endosomal structures. In addition, we demonstrated that W-13 stimulated the tyrosine phosphorylation of EGFR and consequent recruitment of Shc adaptor protein with EGFR, presumably through inhibition of the calmodulin-dependent protein kinase II (CaM kinase II). W-13-mediated EGFR phosphorylation was blocked by metalloprotease inhibitor, BB94, indicating a possible involvement of shedding in this process. However, MAPK activity was decreased by W-13; dissection of this signaling pathway showed that W-13 specifically interferes with Raf-1 activity. These data are consistent with the regulation of EGFR by calmodulin at several steps of the receptor signaling and trafficking pathways.
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PMID:Calmodulin regulates intracellular trafficking of epidermal growth factor receptor and the MAPK signaling pathway. 1205 69

T3 is required for normal early development, but relatively few T3-responsive target genes have been identified. In general, in vitro stem cell differentiation techniques stimulate a wide range of developmental programs, including thyroid hormone receptor (TR) pathways. We developed several in vitro stem cell models to more specifically identify TR-mediated gene expression in early development. We found that embryonic carcinoma (EC) cells have reduced T3 nuclear binding capacity and only modestly express the known T3 target genes, neurogranin (RC3) and Ca2+/calmodulin-dependent protein kinase IV (CaMKIV), in response to T3. Full T3 induction in transient transfection of EC cells was restored with cotransfection of a TR expression vector. We, therefore, performed gene expression profiles in wild-type embryonic stem (ES) cells compared with expression in cells with deficient (EC) or mutant TR (TRalpha P398H mutant ES cells), to identify T3 target genes. T3 stimulation of wild-type ES cells altered mRNA expression of 610 known genes (26% of those studied), although only approximately 60 genes (1%) met criteria for direct T3 stimulation based on the magnitude of induction and requirement for the presence of TR. We selected five candidate T3 target genes, neurexophilin 2, spermatid perinuclear RNA-binding protein (SPNR), kallikrein-binding protein (KBP), prostate-specific membrane antigen (PSMA), and synaptotagmin II, for more detailed study. T3 responsiveness of these genes was evaluated in both in vitro endogenous gene expression and in vivo mouse model systems. These genes identified in a novel stem cell system, including those induced and repressed in response to T3, may mediate thyroid hormone actions in early development.
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PMID:Thyroid hormone-dependent gene expression in differentiated embryonic stem cells and embryonal carcinoma cells: identification of novel thyroid hormone target genes by deoxyribonucleic acid microarray analysis. 1555 May 3

Hypothyroidism impairs synaptic plasticity as well as learning and memory. Clinical reports are conflicting about the ability of thyroid hormone replacement therapy to fully restore the hypothyroidism-induced learning and memory impairment. Recently, we have shown that hypothyroidism impairs LTP and cognition in adult rats. We have studied the effect of thyroxin replacement therapy on hypothyroidism-induced LTP impairment using electrophysiological and molecular approaches. Recording from CA1 region of the hippocampus in anesthetized adult rat indicated that 6 weeks of thyroxin replacement therapy (20 microg/kg/day) fully restored LTP impaired by hypothyroidism. Western blotting showed reduction in phosphorylated (P)-CAMKII, total-CaMKII, neurogranin, and calmodulin basal levels in the CA1 region of the hippocampus of hypothyroid rats. The levels of these molecules were normalized by thyroxin replacement therapy. The hypothyroid-induced elevation of basal calcineurin levels and activity was also normalized by thyroxin treatment. However, thyroxin replacement therapy did not restore hypothyroidism-induced reduction in PKCgamma basal protein levels. Additionally, real-time PCR, showed a reduction in basal neurogranin mRNA level that was normalized by thyroxin replacement therapy. In the sham (control) rats, induction of LTP by high-frequency stimulation increases P-CaMKII, and total CaMKII levels as well as CaMKII phosphotransferase activity. However, in hypothyroid rats, the same stimulation protocol induced an increase only in total-CaMKII. Thyroxin treatment normalized the levels and activity of these molecules. The results demonstrated that thyroxin therapy normalized the electrophysiological and molecular effects of hypothyroidism on the CA1 region and emphasized the critical role P-CaMKII plays in hypothyroidism-induced LTP impairment.
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PMID:Levothyroxin restores hypothyroidism-induced impairment of LTP of hippocampal CA1: electrophysiological and molecular studies. 1600 82

RC3/neurogranin is a neuron-specific calpacitin located in the cytoplasm and, especially, in dendrites and dendritic spines of cortical neurons, involved in many aspects of excitatory transmission and long-term potentiation. We investigated RC3 expression in pyramidal cortical neurons and interneurons of the motor and somatosensory cortex of normal Macaca fascicularis by means of double immunofluorescence and with techniques that combine immunohistochemistry and radioactive in situ hybridization. We show that RC3 is expressed in virtually all pyramidal neurons and spiny stellate neurons of neocortical areas 4, 3b, 1, 2, 5, 7, and SII, but not in the majority of cortical interneurons. RC3 protein and mRNA are tightly colocalized with the alpha subunit of CaM kinase II and the 200-kD, nonphosphorylated neurofilament, whereas they are absent from cells expressing the 27-kD, vitamin D-dependent calbindin and parvalbumin. In order to investigate possible activity-dependent regulation of the expression of RC3, we compared these results with those obtained from monkeys subjected to chronic peripheral cutaneous denervation of the first finger. We found that the pattern of distribution of RC3 in motor and somatosensory cortices after nerve cut did not differ from normal.
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PMID:RC3/neurogranin is expressed in pyramidal neurons of motor and somatosensory cortex in normal and denervated monkeys. 1630 27

Environmental enrichment is known to enhance hippocampal neurogenesis and cognitive functions. Neurogranin (Ng), a specific substrate of protein kinase C (PKC), is abundantly expressed in brain regions important for cognitive functions. Deletion of Ng in mice causes severe deficits in spatial learning and long-term potentiation (LTP) in the hippocampal CA1 region. These Ng-/- mice, as compared with Ng+/+, respond poorly after treatment of their hippocampal slices with agents that activate signaling molecules important for learning and memory, including Ca2+/calmodulin-dependent protein kinase II (alphaCaMKII), PKC, protein kinase A (PKA), extracellular signal-regulated kinase (ERK), and cAMP response element-binding protein (CREB). In the present study, adult mice were housed in either regular home cages (control group) or more spacious cages with an exercise wheel and change of toys twice per week (enriched group) for at least 3 weeks. Enriched Ng+/+ and Ng+/- mice showed enhanced LTP in the hippocampal CA1 after high-frequency stimulation, but Ng-/- mice were affected only minimally. Behaviorally, the enriched Ng+/+ and Ng+/-, but not Ng-/- mice, performed significantly better than their respective control cohorts in Morris water maze and in step-down fear conditioning. Enriched Ng+/- mice also showed improvement in the radial arm maze. Quantitative immunoblot analyses showed that the enriched groups of all three genotypes exhibited elevated hippocampal levels of alphaCaMKII and CREB, but not ERK. Interestingly, enrichment caused a significant increase in hippocampal Ng levels both in Ng+/+ and Ng+/- mice that seemed to contribute to their improved LTP and behavioral performances. These results suggest that Ng gates the neuronal signaling reactions involved in learning and memory. During environmental enrichment, these Ng-regulated reactions are also critical for the enhancement of synaptic plasticity and cognitive functions.
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PMID:Environmental enrichment enhances neurogranin expression and hippocampal learning and memory but fails to rescue the impairments of neurogranin null mutant mice. 1676 30

Neurogranin is capable of regulating protein kinase C and Ca2+/calmodulin-dependent protein kinase II. In this study, we examined the role of neurogranin in opioid tolerance. Increased phosphorylation of neurogranin was found in opioid tolerance. Opioid tolerance was absent in morphine (100 mg/kg)-treated mice that were also pretreated with neurogranin antisense oligodeoxynucleotides (2 microg/day, i.c.v. for 3 days). The behavioral effect correlated with the decreased expression of neurogranin. These data suggest that neurogranin may be critical in the development of opioid tolerance.
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PMID:Attenuation of opioid tolerance by antisense oligodeoxynucleotides targeting neurogranin. 1679 3

Synaptic plasticity in CA1 hippocampal neurons depends on Ca2+ elevation and the resulting activation of calmodulin-dependent enzymes. Induction of long-term depression (LTD) depends on calcineurin, whereas long-term potentiation (LTP) depends on Ca2+/calmodulin-dependent protein kinase II (CaMKII). The concentration of calmodulin in neurons is considerably less than the total concentration of the apocalmodulin-binding proteins neurogranin and GAP-43, resulting in a low level of free calmodulin in the resting state. Neurogranin is highly concentrated in dendritic spines. To elucidate the role of neurogranin in synaptic plasticity, we constructed a computational model with emphasis on the interaction of calmodulin with neurogranin, calcineurin, and CaMKII. The model shows how the Ca2+ transients that occur during LTD or LTP induction affect calmodulin and how the resulting activation of calcineurin and CaMKII affects AMPA receptor-mediated transmission. In the model, knockout of neurogranin strongly diminishes the LTP induced by a single 100 Hz, 1 s tetanus and slightly enhances LTD, in accord with experimental data. Our simulations show that exchange of calmodulin between a spine and its parent dendrite is limited. Therefore, inducing LTP with a short tetanus requires calmodulin stored in spines in the form of rapidly dissociating calmodulin-neurogranin complexes.
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PMID:Role of the neurogranin concentrated in spines in the induction of long-term potentiation. 1683 80

Neurogranin has been suggested to serve as a common regulator synchronizing the activities of PKC and CaMKII in acute opioid tolerance. To examine if a similar mechanism exists in acute opioid dependence, we directly targeted neurogranin using antisense oligodeoxynucleotides. Male ICR mice were pretreated with neurogranin antisense or mismatch oligodeoxynucleotides (2 microg/day, i.c.v.) for 3 consecutive days. On Day 4, morphine (100 mg/kg, s.c.) was used to induce dependence, as revealed by naloxone-precipitated withdrawal in saline or mismatch-pretreated mice. Antisense-pretreated mice showed decreased neurogranin expression, lack of morphine-induced phosphorylation of neurogranin and activation of CaMKII and CREB, and absence of naloxone-induced withdrawal jumping. Taken together, these data suggest that neurogranin plays an essential role in acute opioid dependence, possibly by affecting the CaMKII and CREB signaling pathway.
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PMID:Disruption of acute opioid dependence by antisense oligodeoxynucleotides targeting neurogranin. 1730 31

Adult-onset hypothyroidism is associated with neurological changes such as cognitive dysfunction and impaired learning, which may be related to alterations of synaptic plasticity. We investigate the consequence of adult-onset hypothyroidism on thyroid-mediated transcription events in striatal synaptic plasticity, and the effect of triiodothyronine (T3) replacement. We used hypothyroid mice, treated with propylthiouracil (PTU) and methimazole (MMI), with or without subsequent administration of T3. We evaluated the amount of T3 nuclear receptors (TRalpha1, TRbeta) and striatal plasticity indicators: neurogranin (RC3), Ras homolog enriched in striatum (Rhes), Ca2+/calmodulin-dependent protein kinase (CaMKII), and dopamine- and cAMP-regulated phosphoprotein (DARPP-32). In addition, we assessed hypothyroid mice motor behavior as related to striatum synaptic functions. Hypothyroid mice exhibited significantly reduced TRbeta, RC3 and Rhes expression. T3 administration reversed the expression of TRbeta, RC3, and up-regulated CaMKII levels as well as motor behavior, and decreased DARPP-32 protein phosphorylation. We suggest that thyroid hormone modulation had a major impact on striatal synaptic plasticity of adult mice which produced in turn motor behavior modifications.
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PMID:T3 administration in adult hypothyroid mice modulates expression of proteins involved in striatal synaptic plasticity and improves motor behavior. 1858 60

We describe a MALDI-TOF mass-spectrometry-based method that is rapid and versatile for the characterization of protein kinases and their inhibitors. We have designed new kinase substrates by the modification of common synthetic peptides, such as kemptide (LRRALSG), CaMKII substrate (KRQQSFDLF), erktide (ATGPLSPGPFGRR), abltide (EAIYAAPFAKKK), srctide (AEEEIYGEFEAKKKK), neurogranin (AAAKIQASFRGHMARKK), and casein kinase I (CKI) substrate (RRKDLHDDEEDEAMSITA). There are two fundamental points on which the proposed method is based to improve the mass-spectrometric response: 1) mass tag technology by N-derivatization through stable isotope labeling and 2) C-terminal conjugation with tryptophanylarginine (WR). It was suggested that C-terminal conjugation with the WR moiety enhances the ionization potency of these new substrates 1.5-13.7 times as much as those of the original peptides. We demonstrated, by using modified abltide (Ac-EAIYAAPFAKKKWR-NH(2)), that WR conjugation at the C-terminus in combination with stable-isotope labeling at the N-terminus allowed the quantitative assay of recombinant c-Abl kinase in the presence of adenosine 5'-triphosphate (ATP; K(M,ATP)=18.6 microM and V(max)=642 pmol min(-1) microg(-1)). The present protocol made a simple and reliable inhibition assay of recombinant c-Abl kinase by imatinib possible (IC(50(recombinant))=291 nM; STI571, Gleevec; Novartis Pharma). Moreover, it was also demonstrated that this ATP noncompetitive inhibitor differentiates between two conformers of c-Abl kinases: the phosphorylated active and dephosphorylated inactive forms (IC(50(active form))=1049 nM and IC(50(inactive form))=54 nM). The merit of this approach is evident because the present protocol can be applied to the direct monitoring of the activities of living cell kinases by using cancer-cell lines, such as mouse B16 melanoma cells and human lung cancer K562 cells. A multiple-kinase assay that uses K562 cell lysate in the presence of seven new synthetic substrates made high-throughput inhibitor profiling possible. It should be emphasized that this radioactive isotope-free quantitative kinase assay will greatly accelerate the discovery of a new generation of potential kinase inhibitors that exhibit highly selective or unique inhibitory profiles.
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PMID:MALDI-TOF mass-spectrometry-based versatile method for the characterization of protein kinases. 1911 9

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