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Query: EC:2.7.11.1 (
protein kinase
)
81,284
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The phosphoprotein B-50 (
GAP-43
) was purified from adult rat brain cortex and phosphorylated by
casein kinase II
. Phosphorylation of B-50 by
casein kinase II
approached 1.2 mol phosphate/mol B-50. The apparent Km of
casein kinase II
for B-50 was 4 microM with an apparent Vmax of 13 nmol.min-1.mg-1. A tryptic phosphopeptide map on reversed phase HPLC and phosphoamino acid analysis of [32P]B-50 showed that
casein kinase II
phosphorylated in serine residue(s) which were located in a single tryptic peptide. Phosphorylation of B-50 by
casein kinase II
was inhibited more than 90% by 5 micrograms heparin/ml or 2.4 mM peptide substrate specific for
casein kinase II
(RRREEETEEE). The initial phosphorylation rate was increased about 2-fold by 1 mM spermine.
...
PMID:Phosphorylation of protein B-50 (GAP-43) from adult rat brain cortex by casein kinase II. 317 3
Certain forms of neuronal plasticity have been found to be expressed through alterations in brain protein phosphorylation, and its regulation by
protein kinase
activity. Of interest in this regard is the possibility that the decline in neuronal plasticity and cognitive function that occurs in advanced age may result in part from altered phosphorylation of specific proteins. As a first attempt to identify age-related changes in phosphoproteins, we assayed in vitro phosphorylation of proteins in hippocampus, cerebellum, entorhinal cortex, and frontal cortex from Fischer-344 rats of 5 months, 11 months, and 25 months of age. Compared to the middle-aged animals, the aged rats showed a selective 46% decline in phosphorylation of the 47 kDa protein (F1) in hippocampus, with no change in the phosphorylation of other proteins measured in this structure. Aged animals also showed decreased phosphorylation relative to young animals. No age-related change was observed in any protein band for the other brain areas examined. Since
protein F1
is phosphorylated by protein kinase C (PKC), the cytosolic and membrane distribution of this enzyme was compared across age groups. The activity of PKC in hippocampus did not change across age. The explanation of this age-related decline in
protein F1
phosphorylation is likely to be a decline in the substrate protein itself. The results are discussed in terms of
protein F1
's possible role in age-related decline of hippocampal synaptic plasticity.
...
PMID:Selective decline in protein F1 phosphorylation in hippocampus of senescent rats. 318 58
The
protein kinase
activities endogenous to synaptic membranes prepared by an identical procedure from avian (chick) and mammalian (rat) brains were compared. Both species showed similar responses towards both
protein kinase
effector molecules cyclic adenosine monophosphate and Ca2+. Kapp for cyclic adenosine monophosphate-dependent
protein kinase
activity occurred at 0.4-0.8 microM cAMP and Kapp for Ca2+-dependent, calmodulin-requiring
protein kinase
activity occurred at 1-2 microM Ca2+ (free ion concentration) both in the absence or presence of calmodulin added to the reaction mixture. This suggests that endogenous calmodulin in these membranes was able to modulate the Ca2+-dependent, calmodulin requiring
protein kinase
activity. After EGTA-treatment of the membranes to remove endogenous Ca2+ and calmodulin, no significant response towards Ca2+ on the phosphorylation of the membrane polypeptides was measured unless exogenous calmodulin was added after which the Kapp for Ca2+ was increased to 15 microM Ca2+ (free ion concentration). There was a difference in the maximal levels of kinase activity in these membranes with chick membranes containing 57% less cyclic adenosine monophosphate-dependent
protein kinase
activity, but 65% more Ca2+-dependent, calmodulin-requiring
protein kinase
activity than the rat membranes. Similar results were determined when either low (5 microM) or high (5.8 microM) concentrations of adenosine 5'-triphosphate were added to the reaction mixtures. Besides certain species differences in the molecular weights of the resulting phosphoproteins, we observed several major differences with respect to the absence or presence of some of the phosphoproteins. Chick synaptic membranes may lack the cyclic adenosine monophosphate-requiring, microtubule-associated phosphoprotein, MAP2, one of the 2 neurospecific, cyclic adenosine monophosphate-requiring and Ca2+, calmodulin-requiring phosphoproteins (Protein Ib, although Protein Ia apparently is present), and the Ca2+-requiring, calmodulin-independent, ACTH-sensitive phosphoprotein,
B50
. The phenothiazines, trifluoperazine, fluphenazine and chlorpromazine were found to inhibit the Ca2+-dependent, calmodulin-requiring
protein kinase
activities of both the chick and rat synaptic membranes. This inhibition appeared to be specific for calmodulin because at the same concentrations the phenothiazine analogue, chlorpromazine-sulfoxide, had no effect on this activity. Also found to inhibit Ca2+-dependent calmodulin-requiring
protein kinase
activity were dibucaine and adrenocorticotropin. These data suggest that rat forebrain synaptic plasma membranes are activated by cyclic adenosine monophosphate
...
PMID:Endogenous protein phosphorylation in chick and rat brain synaptic membranes. 666 99
The effect of the glial-derived protein, S100 beta, on the in vitro phosphorylation of the
growth-associated protein GAP-43
was investigated. S100 beta inhibited in a dose dependent manner the phosphorylation of
GAP-43
by protein kinase C (PKC) or by
casein kinase II
(
CKII
). S100 beta appeared to slow down the rate and the degree to which
GAP-43
can be phosphorylated by either kinase. The specificity of the inhibition was demonstrated by the observation that the phosphorylation of two other
CKII
substrates, casein and a selective peptide substrate, was not inhibited by S100 beta. The marked inhibitory effect of S100 beta required the presence of calcium in the phosphorylation reactions. In addition, S100 beta inhibition of
GAP-43
phosphorylation was seen with
GAP-43
purified under a variety of conditions that alter acylation, suggesting that the acylation state of
GAP-43
does not affect the ability of S100 beta to modulate
CKII
- or PKC-mediated phosphorylation of
GAP-43
.
...
PMID:Inhibition of protein kinase C- and casein kinase II-mediated phosphorylation of GAP-43 by S100 beta. 780 29
Protein phosphorylation represents a key process by which neuronal function is regulated by first messengers interacting with extracellular membrane receptors. Protein kinases transfer the phosphate group from ATP to neuron specific proteins and phosphatases, catalyzing the removal of the phosphate group, shut off the signal by restoring the reactive form of the protein. These phosphorylation processes seem to be particularly important in long-term changes which follow sustained activation of neurons. Particular importance has been given to the Calcium/phospholipid-dependent
protein kinase
(PKC) as the molecular mechanism in synaptic plasticity associated with learning and memory. We have studied the changes of PKC activity in an animal model of impaired cognitive functions as a consequence of an exposure during embryonic life to an antimitotic agent, methylazoxy-methanol acetate (MAM). Treatment at gestational day (GD) 15 results in offspring showing a dose-dependent reduction in the size of cortex and hippocampus. When adult, these animals show impairments in several tests for learning and memory. In hippocampal slice preparations from MAM-treated rats, Long-Term Potentiation could not be induced in the CA1 region, the area affected by the treatment. However, in the hippocampal dentate gyrus, an area not affected by the treatment, LTP could be induced. Moreover, these animals show area-specific changes in the phosphorylation state of the protein B-50/
GAP-43
, a well characterized neuron specific substrate for PKC. By changing the time of MAM exposure, i.e. at GD19, a different pattern of brain damage occurs and this results both in a different pattern in behavior and B-50 phosphorylation.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Synaptic protein phosphorylation changes in animals exposed to neurotoxicants during development. 785 86
GAP-43
isolated from calf brain was analyzed by the electrospray mass spectrometry. The mass spectrum of the intact protein showed two species with a mass difference of 80 Da, suggesting that the isolated
GAP-43
contains phosphorylated species. To establish the in vivo phosphorylation sites, the protein was digested with trypsin, and analyzed by the liquid chromatography/mass spectrometry technique, in which a capillary reversed-phase chromatography column was connected on line to an electrospray mass spectrometer. Two pairs of peptides with a mass difference of 80 Da were observed. From the tandem mass spectrometry, two novel phosphorylation sites (Thr-87 and Ser-152) were identified. The novel phosphorylation sites contain proline immediately after the phosphorylated serines. No phosphorylated peptide was detected corresponding to the protein kinase C or
casein kinase II
phosphorylation sites. A peptide corresponding to the acetylated N-terminal peptide was also identified. The mass of the peptide suggests that the 2 cysteinyl residues are not palmitoylated but form a disulfide bridge.
...
PMID:A mass spectrometric study on the in vivo posttranslational modification of GAP-43. 807 93
RC3 is a brain-specific mRNA expressed in discrete neuronal groups of the forebrain that encodes a 78-amino acid protein, also called neurogranin, a calmodulin-binding,
protein kinase
-C substrate. Expression of RC3 mRNA was studied in normal and hypothyroid animals during the first month of life. Hypothyroid rats were produced by administration of methyl-mercapto-imidazol to the pregnant dams and subsequent surgical thyroidectomy on postnatal day 5 of the neonates. As studied by slot-blotting of total cerebrum poly(A)+ RNA, RC3 mRNA accumulates in normal brain from the fifth to seventh postnatal day, reaching maximal levels around days 10-12. RC3 mRNA accumulation in hypothyroid animals was blunted, and the maximal levels attained were about 30-50% of normal values. The effect of hypothyroidism on steady state mRNA levels was also observed by Northern blotting of RNA from cerebral cortex and striatum. As studied by immunoblotting using a polyclonal antibody, hypothyroidism also led to clear decreases in the amount of the RC3 protein in extracts from cerebral cortex, striatum, and hippocampus. A single administration of 10 micrograms T4 to hypothyroid rats on postnatal day 12 led to a steady increase in striatal RC3 mRNA from levels that were about 40% of normal to about 70% of normal at 16 h and 115% of normal at 48 h. In contrast to the effect on RC3, hypothyroidism did not affect developmental expression of the mRNA encoding
GAP-43
, another brain protein kinase-C substrate of axonal localization. RC3 is, thus, one of the few known neuronal genes whose expression is influenced by thyroid hormone in the brain. Thyroid hormone is required for an appropriate level of expression, not for the developmentally programmed timing of expression of the RC3 gene.
...
PMID:Thyroid hormone regulation of RC3, a brain-specific gene encoding a protein kinase-C substrate. 834 93
The myristoylated aline-rich protein kinase C substrate (MARCKS) is a peripheral membrane protein that undergoes phosphorylation-dependent translocation between membrane and cytosol. MARCKS binds to acidic phospholipids with high affinity (Kd less than 0.5 microM) but binds poorly to neutral phospholipids. Although interaction of MARCKS with acidic phospholipids lacks specificity when determined by binding assay, these phospholipids exert distinctive effects on the phosphorylation of this protein by protein kinase C (PKC). Preincubation of MARCKS with phosphatidylserine (PS) or phosphatidylglycerol enhanced the phosphorylation; whereas with phosphatidic acid, phosphatidylinositol (PI), phosphatidylinositol-4-phosphate, or phosphatidylinositol-4,5-biphosphate inhibited the phosphorylation of this substrate by PKC. Phosphoinositide inhibition of MARCKS phosphorylation was apparently directed at the substrate rather than at the kinase as the phosphorylation of two other phospholipid-binding PKC substrates,
neuromodulin
and neurogranin, exhibited different responses from those of MARCKS. Furthermore, the inhibition of phosphoinositides on MARCKS phosphorylation was seen with PKC isozymes alpha, beta, gamma, and delta and with the catalytic fragment of PKC,
protein kinase
M. A 25-amino-acid synthetic peptide corresponding to the phosphorylation site domain (PSD) of MARCKS, but not to the myristoylated N-terminal peptide, competed equally effectively with MARCKS in binding to either PS- or PI-containing vesicles, suggesting that both phospholipids bind to the PSD of MARCKS. Binding of PI to MARCKS inhibited PKC phosphorylation of all three phosphorylation sites. These results suggest that phosphoinositides and PS bind at different residues within the MARCKS PSD, so that the resulting phospholipid/MARCKS complexes are differentially phosphorylated by PKC.
...
PMID:Binding of myristoylated alanine-rich protein kinase C substrate to phosphoinositides attenuates the phosphorylation by protein kinase C. 861 Oct 23
The aim of the present study was to characterize the second messenger activated
protein kinase
and phosphatase systems in chick ciliary ganglion using biochemical and immunochemical techniques. Using synthetic peptide substrates cyclic-AMP-, cyclic-GMP-, Ca2+/calmodulin- and Ca2+/phospholipid-dependent
protein kinase
activities were detected in homogenates of ciliary ganglion dissected from 15-16-day-old embryos. Autophosphorylation of the alpha and beta subunits of Ca2+/calmodulin-dependent protein kinase II in the presence of Ca2+/calmodulin or 5 mM ZnSO4 was detected by sodium dodecyl sulphate-polyacrylamide gel electrophoresis and autoradiography. Protein kinase C was shown to be present using a monoclonal antibody. Two cyclic-AMP binding proteins whose molecular weights corresponded to the regulatory subunits of
cyclic AMP-dependent protein kinase
(RI and RII) were detected in ciliary ganglia using 8-azido-cyclic-AMP. The most heavily labelled band following incubation with [gamma-32P]ATP under most conditions had an apparent molecular weight of 65,000 which corresponds to the chicken form of myristoylated alanine-rich C kinase substrate, a known substrate of protein kinase C. Another substrate for protein kinase C was a 45,000 molecular weight protein which was tentatively identified as
neuromodulin
(B-50/
GAP-43
). Although no endogenous substrate proteins for cyclic-GMP-dependent
protein kinase
were detected,
protein kinase A
strongly labelled a 40,000 molecular weight protein. Using 32P(i)-labelled glycogen phosphorylase, protein phosphatases 1 and 2A were identified in ciliary ganglia homogenates at levels which were indistinguishable from forebrain at the same age. The major endogenous protein substrates in ciliary ganglion homogenates from 15-16-day-old embryos were also labelled to a similar extent in homogenates of ciliary ganglia from newly hatched chickens. Intact ciliary ganglia remained viable for several hours after dissection and, after incubation with 32P(i), responded to phorbol ester stimulation by an increased endogenous phosphorylation of several proteins, but especially myristoylated alanine-rich C kinase substrate. These results represent the first systematic characterization of the protein phosphorylation systems in chicken ciliary ganglion and provide a basis for future studies on the biochemical mechanisms responsible for regulating synaptic transmission in this tissue.
...
PMID:Characterization of protein kinase and phosphatase systems in chick ciliary ganglion. 884 61
B-50/
GAP-43
is a growth-associated phosphoprotein enriched in growth cones and in the presynaptic terminal. The expression of the protein is restricted to the nervous system and is highest in the first week after birth. In adult brain, B-50 is enriched in areas with high plasticity. The regulation of expression of the B-50 gene occurs both at the transcriptional and post-transcriptional level by unknown mechanisms. The gene contains 2 regions displaying promoter activity, the most 3' of which (P2) is the active on in vivo. Expression of B-50 in non-neuronal cells results in filopodial extensions whereas antibodies or antisense oligo's to B-50 prevent neurite outgrowth. The protein is important for neuronal pathfinding. Several post-translational modifications have been described, ADP-ribosylation and palmitoylation in the membrane binding domain, phosphorylation by PKC,
casein kinase II
and phosphorylase kinase, and dephosphorylation by several phosphatases, among which is calcineurin. Interactions of B-50 have been described with calmodulin, PIP kinase, F-actin, and phospholipids. Recent studies indicate that the phosphorylation state and amount of calmodulin bound to B-50 regulate the rate of transmitter release. Induction of long-term potentiation by high frequency stimulation of hippocampal slices results in an increased state of B-50 phosphorylation. This will increase the amount of free calmodulin in the presynaptic terminal and increase the amount of transmitter released. Although B-50 is involved in seemingly unrelated forms of neuronal plasticity, neurite outgrowth and transmitter release, our unifying hypothesis is that the protein plays an (unknown) essential, modulatory role in membrane expansion.
...
PMID:Presynaptic phosphoprotein B-50/GAP-43 in neuronal and synaptic plasticity. 886 78
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