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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 phosphorylation state of three identified neural-specific
protein kinase C
substrates (RC3, GAP-43/
B-50
, and MARCKS) was monitored in hippocampal slices of mice lacking the gamma-subtype of
protein kinase C
and wild-type controls by quantitative immunoprecipitation following 32Pi labeling. Depolarization with potassium, activation of glutamate receptors with glutamate, or direct stimulation of
protein kinase C
with a phorbol ester increased RC3 phosphorylation in wild-type animals but failed to affect RC3 phosphorylation in mice lacking the gamma-subtype of
protein kinase C
. Our results suggests the following biochemical pathway: activation of a postsynaptic (metabotropic) glutamate receptor stimulates the gamma-subtype of
protein kinase C
, which in turn phosphorylates RC3. The inability to increase RC3 phosphorylation in mice lacking the gamma-subtype of
protein kinase C
by membrane depolarization or glutamate receptor activation may contribute to the spatial learning deficits and impaired hippocampal LTP observed in these mice.
...
PMID:Substrate phosphorylation in the protein kinase Cgamma knockout mouse. 989 Sep 37
We evaluated the in vitro phosphorylation of the presynaptic substrate of
protein kinase C
(
PKC
), GAP-43/
B-50
and the
PKC
activity in the striatum of rats submitted to a circling training (CT) test during postnatal development. Motor activity at 30 days of age, but not at other ages, produced a unilateral reduction (-29.5%; p<0.001) in the level of GAP-43/
B-50
endogenous phosphorylation in the contralateral striatum with respect to the ipsilateral side, while non-trained control animals did not show asymmetric differences. Compared to controls, the contralateral striatum of trained animals also showed a significant reduction (-29.3%; p<0. 001) in the incorporation of 32P-phosphate into GAP-43. This decreased in vitro GAP-43 phosphorylation was seen at 30 min, but not immediately after circling motor behavior. This contralateral change in GAP-43 phosphorylation correlated with the running speed developed by the animals [(r=0.9443, p=0.0046, n=6, relative to control group) and (r=0.8813, p=0.0203, n=6, with respect to the ipsilateral side of the exercised animals)]. On the contrary, GAP-43/
B-50
immunoblots did not show changes in the amount of this phosphoprotein among the different experimental groups. Back phosphorylation assays, performed in the presence of bovine purified
PKC
, increased the level of GAP-43/
B-50
phosphorylation in the striatum contralateral to the sense of turning [(+22%; p<0.05, with respect to ipsilateral side of the same trained group) and (+21%; p<0.05, relative to control group)]. Taken together, these results demonstrate that the activity developed in the CT test induces a reduction in the phosphorylation state of GAP-43/
B-50
in the specific site for
PKC
. We conclude that general markers of activity-dependent neuronal plasticity are also altered in the same period that long-lasting changes in striatal neuroreceptors are triggered by circling motor behavior.
...
PMID:Decreased GAP-43/B-50 phosphorylation in striatal synaptic plasma membranes after circling motor behavior during development. 1003 5
The neuron-specific protein
B-50
(GAP-43) is a major presynaptic substrate for
protein kinase C
(
PKC
). Phosphorylation of
B-50
by
PKC
at serine-41 is functionally related to signal transduction in association with process outgrowth and neurotransmitter release. Thus, it is important to characterize the factors which modulate phosphorylation of
B-50
by
PKC
. Phosphoinositide (PI)-coupled muscarinic acetylcholine receptor (mAchR) activation would be expected to increase
PKC
activity through production of the second messenger, diacylglycerol. To test the hypothesis that activation of mAchR also increases phosphorylation of
B-50
, protein phosphorylation has been examined in cerebral cortical slices in response to the cholinergic agonist, carbachol (Cch) in comparison to the phorbol ester, 4beta-phorbol 12, 13-dibutyrate (PDB), a known activator of
PKC
. At short times of incubation with 1 mM Cch, a concentration which maximally activates PI metabolism, increased phosphorylation of a group of synaptosomal proteins, including
B-50
and myristoylated, alanine-rich C kinase substrate (MARCKS), was observed. This increase was approximately half of that obtained in response to 1 microM PDB. Differing patterns of protein phosphorylation were observed in neonatal and adult slices: neonatal samples contained more MARCKS and a
PKC
substrate with a Mr of 46 kDa. Phosphorylation of
B-50
and MARCKS was sensitive to Cch in both cases. Immunoblotting demonstrated less m1 acetylcholine receptor (the predominant mAchR subtype coupled to PI metabolism in the cortex) in neonatal, as compared to adult, synaptosomal fractions. These results are consistent with a coupling between mAchR-stimulated PI metabolism and
PKC
-mediated protein phosphorylation that is developmentally regulated.
...
PMID:Muscarinic receptor- and phorbol ester-stimulated phosphorylation of protein kinase C substrates in adult and neonatal cortical slices. 1020 46
Activation of
protein kinase C
(
PKC
) is one of the biochemical pathways thought to be activated during activity-dependent synaptic plasticity in the brain, and long-term potentiation (LTP) and long-term depression (LTD) are two of the most extensively studied models of synaptic plasticity. Here we have examined changes in the in situ phosphorylation level of two major
PKC
substrates, myristoylated alanine-rich C kinase substrate (MARCKS) and growth-associated protein (GAP)-43/
B-50
, after pharmacological stimulation or induction of LTP or LTD in the CA1 field of the hippocampus. We find that direct
PKC
activation with phorbol esters, K+-induced depolarization, and activation of metabotropic glutamate receptors increase the in situ phosphorylation of both MARCKS and GAP-43/
B-50
. The induction of LTP increased the in situ phosphorylation of both MARCKS and GAP-43/
B-50
at 10 min following high-frequency stimulation, but only GAP-43/
B-50
phosphorylation remained elevated 60 min after LTP induction. Furthermore, blockade of LTP induction with the NMDA receptor antagonist D-2-amino-5-phosphonopentanoic acid prevented elevations in GAP-43/
B-50
phosphorylation but did not prevent the elevation in MARCKS phosphorylation 10 min following LTP induction. The induction of LTD resulted in a reduction in GAP-43/
B-50
phosphorylation but did not affect MARCKS phosphorylation. Together these findings show that activity-dependent synaptic plasticity elicits
PKC
-mediated phosphorylation of substrate proteins in a highly selective and coordinated manner and demonstrate the compartmentalization of
PKC
-substrate interactions. Key Words: Protein kinase C-Myristoylated alanine-rich C kinase substrate-Growth-associated protein-43-Long-term potentiation-Long-term depression-(RS)-alpha-Methyl-4-carboxyphenylglycine-D-2-Amino-5-ph osphonopentanoic acid-Glutamate.
...
PMID:Differential changes in the phosphorylation of the protein kinase C substrates myristoylated alanine-rich C kinase substrate and growth-associated protein-43/B-50 following Schaffer collateral long-term potentiation and long-term depression. 1053 78
Several evidences demonstrate that
protein kinase C
(
PKC
) is involved in hippocampal long-term potentiation (LTP) and in different forms of learning, including inhibitory avoidance training in rats. Here, we evaluated the levels of conventional
PKC
isozymes (alpha, betaI, betaII, gamma) in synaptic plasma membrane (SPM) fractions isolated from hippocampus of rats subjected to a one-trial inhibitory avoidance paradigm. At 0, 30 and 120 min after training, there was a significant increase in the total amount of PKCbetaI. Densitometric analysis of the immunoblots showed an increase of 142+/-11% at 0 min, 193+/-16% at 30 min and 156+/-6% at 120 min after training relative to shocked control values. No changes were found in PKCbetaI levels in SPM fractions of the shocked animals relative to naive control values. No training-specific increments in the levels of
PKCalpha
, betaII and gamma were observed at any time point tested. However, an increase in
PKCgamma
levels was found in trained and shocked animals sacrificed 120 min after each experimental procedure. In addition, bilateral microinjections of a fairly selective inhibitor of PKCbetaI isozyme into the CA1 of the dorsal hippocampus produced amnesia when given 10 min before training, or 50, 110, but not 170 min, after training. Thus, the present findings demonstrate the participation of PKCbetaI in the early synaptic events responsible for the acquisition and consolidation of an inhibitory avoidance learning, and suggest a putative role of this presynaptic isozyme on the enhanced
PKC
-dependent
B-50
/GAP-43 phosphorylation previously detected by us during this associative learning.
...
PMID:Involvement of hippocampal PKCbetaI isoform in the early phase of memory formation of an inhibitory avoidance learning. 1067 91
Tetraethylammonium (TEA) induces a form of long-term potentiation (LTP) that is independent on N-methyl-D-aspartate (NMDA) receptor activation (LTP(K)). LTP(K) may be a suitable chemical model to study molecular mechanisms underlying LTP. We monitored the phosphorylation state of two identified neural-specific
protein kinase C
(
PKC
) substrates (the presynaptic protein GAP-43/
B-50
and postsynaptic protein RC3) after different chemical depolarisations. TEA induced a long-lasting increase in synaptic efficacy in the CA1 field of the hippocampus and increased the phosphorylation of both GAP-43/
B-50
and RC3 (51 and 56.1%, respectively). These effects were blocked by the voltage-dependent calcium channel antagonist nifedipine, but not by the NMDA receptor antagonist AP5. These data show that in LTP(K) the in situ phosphorylation of pre-and postsynaptic
PKC
substrates is increased, indicating that NMDA receptor-dependent and NMDA receptor-independent LTP share common Ca(2+)-dependent expression mechanisms, including activation of pre- and postsynaptic
PKC
.
...
PMID:Activation of pre- and postsynaptic protein kinase C during tetraethylammonium-induced long-term potentiation in the CA1 field of the hippocampus. 1082 51
GAP-43 protein of nerve terminals (
B-50
, F1, F57, pp46, neuromodulin) is thought to be one of key proteins involved in the control of outgrowth of neurites, release of neuromediators, synapse plasticity, etc. GAP-43 is usually considered as a whole protein. Along with the intact protein, nerve cells also contain two large native fragments of GAP-43 deprived of four or of about forty N-terminal amino acid residues (GAP-43-2 and GAP-43-3, respectively). The full-length GAP-43 is predominant in the mature brain. However, the ratio of the full-length protein and its fragments can vary under different physiological conditions. Changes in the GAP-43 proteins (the full-length protein and its fragments) were studied during embryonal and postnatal development of rat brain. The GAP-43 proteins were found to be expressed not later than on the 12-13th day of embryogenesis. Then their contents increased, and, until the 10th day after birth, GAP-43-3 dominated rather than the full-length protein. It is suggested that during this period the activity of a specific protease, which cleaves the N-terminal peptide of about 40 residues from the full-length GAP-43 molecule, is increased. The cleavage occurs in the region responsible for the interaction of GAP-43 with calmodulin. In the full-length molecule, this region is responsible also for the recognition of Ser41 residue by
protein kinase C
during phosphorylation. Another functionally important region that determines, in particular, the attachment of GAP-43 to the plasma membrane is cleaved from the main part of the molecule together with the N-terminal peptide. Thus, the specific fragmentation of GAP-43 that depends on developmental stage should be considered as a controlled structural rearrangement fundamentally affecting the functions of this protein.
...
PMID:Enhanced level of site-specific proteolysis of GAP-43 protein during early stages of brain development. 1109 58
1. The ability of several phorbol ester
protein kinase C
(
PKC
) activators (phorbol 12, 13-dibutyrate, PDB; phorbol 12, 13-diacetate, PDA; and 12-deoxyphorbol 13-acetate, dPA) to down-regulate
PKC
was studied by assessing their effects on electrical stimulation-induced (S-I) noradrenaline release from rat brain cortical slices and phosphorylation of the
PKC
neural substrate
B-50
in rat cortical synaptosomal membranes. 2. In cortical slices which were incubated for 20 h with vehicle, acute application of PDB, PDA and dPA (0.1 - 3.0 microM) enhanced the S-I noradrenaline release in a concentration-dependent manner to between 200 - 250% of control in each case. In slices incubated with PDB (1 microM for 20 h), subsequent acute application of PDB (0.1 - 3.0 microM) failed to enhance S-I release, indicating
PKC
down-regulation. However, in tissues incubated with PDA or dPA (3 microM) for 20 h, there was no reduction in the facilitatory effect of their respective phorbol esters or PDB (0.1 - 3.0 microM) when acutely applied, indicating that
PKC
was not down-regulated. This was confirmed using Western blot analysis which showed that PDB (1 microM for 20 h) but not PDA (3 microM for 20 h) caused a significant reduction in
PKCalpha
. 3. Incubation with PDB for 20 h, followed by acute application of PDB (3 microM) failed to increase phosphorylation of
B-50
in synaptosomal membranes, indicating down-regulation. In contrast, tissues incubated with PDA or dPA for 20 h, acute application of their respective phorbol ester (10 microM) or PDB (3 microM) induced a significant increase in
B-50
phosphorylation. 4. Acutely all three phorbol esters elevate noradrenaline release to about the same extent, yet PDA and dPA have lower affinities for
PKC
compared to PDB, suggesting unique neural effects for these agents. This inability to cause functional down-regulation of
PKC
extends their unusual neural properties. Their neural potency and lack of down-regulation may be related to their decreased lipophilicity compared to other phorbol esters. 5. We suggest that
PKC
down-regulation appears to be related to binding affinity, where agents with high affinity, irreversibly insert
PKC
into artificial membrane lipid and generate Ca(2+)-independent kinase activity which degrades and deplete
PKC
. We suggest that this mechanism may also underlie the ability of PDB to down-regulate
PKC
in nerve terminals, in contrast to PDA and dPA.
...
PMID:Differential abilities of phorbol esters in inducing protein kinase C (PKC) down-regulation in noradrenergic neurones. 1115 99
During the critical period of activity-dependent plasticity in rat striatum (30-37 days after birth) physiological circling behavior induces delayed modifications in GAP-43/
B-50
phosphorylation by
PKC
. Postexercise, ipsi- and contralateral striatum to the circling direction show a similar temporal pattern of GAP-43/
B-50
phosphorylation, with an initial decrease followed by a subsequent increase. However, there is a lag between initiation of the phosphorylation response in this asymmetrical task which does not occur when animals are subjected to exercise under conditions of symmetrical motor activity.
...
PMID:Delayed and bilateral changes of GAP-43/B-50 phosphorylation after circling training during a critical period in rat striatum. 1455 68
In vitro techniques are used increasingly to screen for and characterize neurotoxicants. In many cases, chemical-induced injury to developing neurons has been examined in vitro by assessing morphological changes in differentiation and neurite growth. This research evaluated the use of proteins associated with axonal growth and synaptogenesis as surrogates for morphological measurement of neuronal differentiation. PC12 cells, which differentiate upon nerve growth factor (NGF) stimulation, were used as the in vitro model. NGF-induced (50 ng/ml) differentiation (cells with at least one neurite with a length equal to the cell body diameter) and neurite growth (length of longest neurite) were determined using light microscopy and computer-based quantitative image analysis. PC12 cell differentiation and neurite growth reached a plateau after 6 days in culture. Expression of the axonal
growth associated protein 43
(
GAP-43
) and the synaptic protein synapsin I were assessed simultaneously by Western blot during cell differentiation. Expression of
GAP-43
was low on Culture Day 0 and increased progressively to maximum levels on Culture Day 5. Likewise, synapsin I expression increased slowly on Days 0-4, and then rapidly on Days 5-7 of culture. Pharmacologic inhibitors of NGF-induced signaling were used to test the sensitivity of the proteins to chemical disruption of differentiation. The MAP kinase inhibitor, U0126 (5-30 microM) and the
PKC
inhibitor, bisindolylmaleimide I (Bis I; 1.25-5 microM) inhibited differentiation and neurite outgrowth in a concentration-dependent manner. U0126 and Bis I significantly decreased
GAP-43
, but not synapsin I expression. Interestingly, the PI-PLC inhibitor edelfosine (ET-18; 5-30 microM) stimulated differentiation at early times of exposure followed by a significant decrease in neurite length at later time points. However, ET-18 did not alter the expression of
GAP-43
or synapsin I. These data suggest that
GAP-43
may be a useful indicator of the status of PC12 cell differentiation.
...
PMID:Assessment of PC12 cell differentiation and neurite growth: a comparison of morphological and neurochemical measures. 1511 1
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