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 rodent protein RC3 is expressed mainly by forebrain neurons during postnatal development and maturity. RC3 and its bovine homolog neurogranin/B-50 immunoreactive C-kinase substrate (BICKS) contain overlapping sites for protein kinase C phosphorylation and calmodulin binding that resemble those of the presynaptic 43-kDa growth-associated protein (GAP-43). However, morphological evidence suggests that RC3 has a postsynaptic localization. To test this hypothesis, we used two polyclonal antisera against synthetic peptides corresponding to nonoverlapping sequences within RC3 and compared cellular distributions of their binding in neostriatum of adult rats by immunohistochemistry, Golgi impregnation/gold toning, and correlative light/electron microscopy. Somatic and punctate patterns of RC3 immunoreactivity were observed. Somatic RC3 was found in cyto- and nucleoplasmic compartments of all neuronal phenotypes (medium spiny, medium aspiny, and large aspiny cells). Punctate RC3 was found mostly in dendritic spines. In contrast to the 43-kDa growth-associated protein, RC3 was seen infrequently in axons. We conclude that RC3 accumulates postsynaptically in dendritic spines of neostriatal neurons. We propose that RC3 acts as a "third messenger" substrate of protein kinase C-mediated molecular cascades during synaptic development and remodeling.
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PMID:Localization of the protein kinase C phosphorylation/calmodulin-binding substrate RC3 in dendritic spines of neostriatal neurons. 152 65

Human p68 RNA helicase is a nuclear RNA-dependent ATPase that belongs to a family of putative helicases known as the DEAD box proteins. These proteins have been implicated in aspects of RNA function including translation initiation, splicing, and ribosome assembly in a variety of organisms ranging from Escherichia coli to humans. While members of this family are believed to function in the manipulation of RNA secondary structure, little is known about the regulation of these enzymes. By immunological methods and sequence comparison, we have found that p68 possesses a region of sequence similarity to the conserved protein kinase C phosphorylation site and calmodulin binding domain (also known as the IQ domain) of the neural-specific proteins neuromodulin (GAP-43) and neurogranin (RC3). We report that p68 is phosphorylated by protein kinase C in vitro and binds calmodulin in a Ca(2+)-dependent manner. Both phosphorylation and calmodulin binding inhibited p68 ATPase activity, suggesting that the RNA unwinding activity of p68 may be regulated by dual Ca2+ signal transduction pathways through its IQ domain.
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PMID:Regulation of p68 RNA helicase by calmodulin and protein kinase C. 752 83

Both pre- and postsynaptic protein kinase C have been implicated in long-term potentiation. Neurogranin (also known as BICKs and RC3) is a neuronal postsynaptic protein kinase C substrate. In the present study we injected monoclonal IgGs that recognize the protein kinase C phosphorylation site in neurogranin and B-50 (GAP-43), and that have been shown to inhibit protein kinase C-mediated B-50 phosphorylation, through a whole-cell clamp pipette into CA1 pyramidal neurons in rat hippocampal slices. Injection of neurogranin IgGs, but not of control IgGs, prevented the induction of tetanus-induced long-term potentiation without affecting post-tetanic potentiation. Our results suggest that neurogranin is involved in mechanisms of activity-dependent synaptic plasticity.
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PMID:Antibodies to postsynaptic PKC substrate neurogranin prevent long-term potentiation in hippocampal CA1 neurons. 762 Jun 29

RC3/Neurogranin is a postnatal-onset, forebrain-specific, thyroid hormone-regulated, protein kinase C (PKC) substrate that binds calmodulin (CaM) and accumulates in dendritic spines. We bacterially expressed and purified RC3 and, for comparison, GAP-43/neuromodulin to near homogeneity using relatively simple procedures. We then raised antisera against recombinant RC3 that does not crossreact with GAP-43 and is suitable for immunohistochemical analysis of brain slices. We also constructed over 30 RC3 sequence variants by PCR-mediated, site-directed mutagenesis, and purified four of these to near homogeneity. The elution profiles displayed by RC3 and sequence variants during purification on CaM-Sepharose columns suggest that two different affinity forms of the RC3.CaM complex coexist when Ca2+ is absent and that GAP-43.CaM interactions are far more sensitive to salt than those that occur between recombinant RC3 and CaM. Variant proteins in which serine 36 was changed failed to serve as a substrate for PKC, implicating this as the target residue.
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PMID:Rapid purification, site-directed mutagenesis, and initial characterization of recombinant RC3/neurogranin. 765 17

A 13-kilobase pair genomic DNA encoding a 78-amino acid brain-specific calmodulin-binding protein kinase C (PKC) substrate, neurogranin (Ng/RC3; also known as RC3 or p17), has been sequenced. The Ng/RC3 gene is composed of four exons and three introns, with the protein-coding region located in the first and second exons. This gene was found to have multiple transcriptional start sites clustered within 20 base pairs (bp); it lacks the TATA, GC, and CCAAT boxes in the proximal upstream region of the start sites. The promoter activity was characterized by transfection of 293 cells with nested deletion mutants of the 5'-flanking region fused to the luciferase reporter gene. A minimal construct containing bp +11 to +256 was nearly as active as that covering bp -1508 to +256, whereas a shorter one covering bp +40 to +256 had a greatly reduced activity. Between bp +11 and +40 lies a 12-nucleotide sequence (CCCCGCCCACCC) containing overlapping binding sites for AP2 (CCGCCCACCC) and SP1 (CCCGCC); this region may be important for conferring the basal transcriptional activity of the Ng/RC3 gene. The expression of a Ng/RC3-luciferase fusion construct (-1508/+256) in transfected 293 cells was stimulated by phorbol 12-myristate 13-acetate (PMA), but not by cAMP, arachidonic acid, vitamin D, retinoic acid, or thyroxines T3 and T4. PMA caused a 2-4-fold stimulation of all the reporter gene constructs ranging from +11/+256 to -1508/+256. The stimulatory effects of PMA could be magnified by cotransfection with both Ca(2+)-dependent and -independent phorbol ester-binding PKC-alpha, -beta I, -beta II, -gamma, -delta, and -epsilon cDNAs, but not by non-phorbol ester-binding PKC-zeta cDNA. The Ng/RC3 and PKC-gamma genes have a similar expression pattern in the brain during development. These two genes share at least four conserved sequence segments 1.5 kilobase pair upstream from their transcriptional start sites and a gross similarity in that they possess several AT-rich segments within bp -550 to -950. A near homogeneous 20-kDa DNA-binding protein purified from rat brain was able to bind to these AT-rich regions of both Ng/RC3 and PKC-gamma genes with footprints containing ATTA, ATAA, and AATA sequences.
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PMID:Structure and regulation of the gene encoding the neuron-specific protein kinase C substrate neurogranin (RC3 protein). 773 Mar 37

Long-term potentiation (LTP) is a well known experimental model for studying the activity-dependent enhancement of synaptic plasticity, and because of its long duration and its associative properties, it has been proposed as a system to investigate the molecular mechanisms of memory formation. At present, there are several lines of evidence that indicate that pre- and postsynaptic kinases and their specific substrates are involved in molecular mechanisms underlying LTP. Many studies focus on the involvement of protein kinase C (PKC). One way to investigate the role of PKC in long-term potentiation is to determine the degree of phosphorylation of its substrates after in situ phosphorylation in hippocampal slices. Two possible targets are the presynaptic membrane-associated protein B-50 (a.k.a. GAP 43, neuromodulin and F1), which has been implicated in different forms of synaptical plasticity in the brain such as neurite outgrowth, hippocampal LTP and neurotransmitter release, and the postsynaptic protein neurogranin (a.k.a. RC3, BICKS and p17) which function remains to be determined. This review will focus on the protein kinase C activity in pre- and postsynaptic compartment during the early phase of LTP and the possible involvement of its substrates B-50 and neurogranin.
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PMID:Long-term potentiation and synaptic protein phosphorylation. 775 99

The unique structures of process-bearing cells in the central nervous system (CNS) present an ideal model with which to study the differential distribution of mRNA. We conducted a side-by-side examination of the intracellular distribution of nine neural mRNAs by in situ hybridization histochemistry in mammalian brain and observed four general types of mRNA distributions. (1) Some mRNA species were confined to cell somas and included those encoding the glial proteins, myelin proteolipid protein and 2'3'-cyclic nucleotide-3'-phosphodiesterase and the neuronal enzymes, neuron-specific enolase and glutamate decarboxylase-67. (2) Some mRNAs were found abundantly within the cell soma and were also located throughout cellular processes. These included myelin basic protein (MBP) mRNA, which was localized to the cell soma and myelin sheaths of oligodendrocytes, and glial fibrillary acidic protein (GFAP) mRNA, which was localized to the cell soma and processes of reactive and some non-reactive astrocytes in the adult brain and radial glia in embryonic brain. (3) Some mRNAs were found primarily in perinuclear cytoplasm but in some cells were also observed in cell processes. These included mRNAs encoding the protein kinase C/calmodulin-binding substrates, RC3 (neurogranin) and GAP-43, which were identified in the somas as well as within the proximal dendritic branches of specific forebrain neurons. (4) Some mRNAs were localized primarily within cell processes. These included MAP2 mRNA, which was identified by deep staining within dendritic fields but by only light staining within neuronal cell bodies. The data also indicated that the stage of cellular development and the regional location of a cell within the CNS had a profound influence on translocation events. MAP2 mRNA was found in the dendritic processes of most neurons but was confined to the soma of neurons in specific brainstem nuclei. MBP mRNA was confined to the perinuclear cytoplasm of immature oligodendrocytes and was then transported into the myelin sheath at a developmental stage corresponding to myelination. The distribution patterns of these mRNAs are likely to reflect the mechanism by which the protein products of these molecules are targeted within neurons and glia. In addition, mRNA movement may be influenced by cellular and regional factors not encoded solely within the structure of the translocated mRNA.
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PMID:Cellular influences on RNA sorting in neurons and glia: an in situ hybridization histochemical study. 787 39

Two neuronal protein kinase C substrates, RC3/neurogranin and GAP-43/neuromodulin, preferentially bind to calmodulin (CaM) when Ca2+ is absent. We examine RC3.CaM and GAP-43.CaM interactions by circular dichroism spectroscopy using purified, recombinant RC3 and GAP-43, sequence variants of RC3 displaying qualitative and quantitative differences in CaM binding affinities, and overlapping peptides that cumulatively span the entire amino acid sequence of RC3. We conclude that CaM stabilizes a basic, amphiphilic alpha-helix within RC3 and GAP-43 under physiological salt concentrations only when Ca2+ is absent. This provides structural confirmation for two binding modes and suggests that CaM regulates the biological activities of RC3 and GAP-43 through an allosteric, Ca(2+)-sensitive mechanism that can be uncoupled by protein kinase C-mediated phosphorylation. More generally, our observations imply an alternative allosteric regulatory role for the Ca(2+)-free form of CaM.
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PMID:Calmodulin stabilizes an amphiphilic alpha-helix within RC3/neurogranin and GAP-43/neuromodulin only when Ca2+ is absent. 789 19

Previous studies have shown that RC3 (neurogranin) is a postsynaptic, protein kinase C (PKC)/calmodulin-binding substrate that accumulates throughout the perikaryal and dendritic cytoplasm and is often closely associated with the postsynaptic density (PSD) in dendritic spines of neostriatal neurons. Here Western immunoblotting studies of rat brain subcellular fractions confirm that RC3 is predominantly a cytosolic protein but is found in lower amounts in membrane-enriched microsomes and synaptosomes. Solubilization of synaptosomes suggests that RC3 may only be loosely associated with the PSD.
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PMID:Localization of RC3 (neurogranin) in rat brain subcellular fractions. 789 18

A 7.5-kDa heat- and acid-stable rat brain protein kinase C (PKC) substrate was purified to near homogeneity by a two-step procedure using DEAE-cellulose and hydroxylapatite column chromatography. This 78-amino-acid protein has a sequence identical to that deduced from rat brain RC3 cDNA identified with a cortex-minus-cerebellum subtracted cDNA probe (J. B. Watson et al., J. Neurosci. Res. 26, 397-408, 1990) and exhibits extensive sequence identity to bovine brain neurogranin (J. Baudier et al., J. Biol. Chem. 266, 229-237, 1991). On sodium dodecyl sulfate-polyacrylamide gel electrophoresis this protein, RC3, migrated as a M(r) 15-18K species in the presence of reducing agent and as heterogeneous species of M(r) 13-28K in the absence of reducing agent. Phosphorylation of RC3 by PKC alpha, beta, or gamma was stimulated by Ca2+, phospholipid, and diacylglycerol. A single site, Ser36, which is adjacent to the predicted calmodulin (CaM)-binding domain, was phosphorylated by these enzymes. Phosphorylation of RC3 by PKC or PKM, a protease-degraded PKC, was inhibited by CaM. The effect of CaM apparently targets at RC3, as phosphorylation of protamine sulfate by PKM was not inhibited by CaM. In the absence of Ca2+, RC3 formed a stoichiometric complex with CaM as evidenced by an increase in the M(r) determined by gel filtration chromatography. In the presence of Ca2+, the affinity of RC3 toward CaM is greatly reduced and Ca2+/CaM becomes less inhibitory of the PKM-catalyzed phosphorylation of RC3. Phosphorylation of RC3 by PKM prevented the interaction of this protein with CaM even in the absence of Ca2+. A 20-amino-acid synthetic peptide (AS-20F-W) containing the PKC phosphorylation site and CaM-binding domain of RC3 (Ala29-Ser48) with a substitution of Phe37 with tryptophan was used to monitor the interaction of this peptide with CaM by spectrofluorometry. In the absence of Ca2+, CaM caused negligible change in tryptophan fluorescence of the peptide; however, an enhancement and blue-shift of the emission fluorescence was observed in the presence of Ca2+. It seems that this synthetic peptide, as well as RC3 holoprotein, interacts with CaM through electrostatic interaction in the absence of Ca2+ but through hydrophobic interaction in the presence of Ca2+. In rat brain homogenate, RC3 formed a stable complex with CaM in the presence of Ca2+, as demonstrated by immunoblot analysis following gel filtration chromatography.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Characterization of a 7.5-kDa protein kinase C substrate (RC3 protein, neurogranin) from rat brain. 808 Apr 73

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