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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 in vitro phosphorylation of the guanine nucleotide exchange factor (
eIF-2B
) by
casein kinase 2
(
CK-2
) was previously shown to stimulate the binding of GTP to
eIF-2B
and increase nucleotide exchange [Singh, L. P., Aroor, A. R., & Wahba, A. J. (1994) Biochemistry 33, 9152-9157]. The present study examines the in vitro phosphorylation of the 82-kDa subunit of
eIF-2B
by CK-1 and glycogen synthase kinase 3 (GSK-3) and the effects of this covalent modification on nucleotide exchange. Phosphorylation with CK-1 adds approximately 0.27 mol of phosphate/mol of
eIF-2B
and doubles guanine nucleotide exchange activity. Treatment of the phosphorylated
eIF-2B
with alkaline phosphatase reduces its activity by a factor of 4, and rephosphorylation with CK-1 (0.49 mol of phosphate/mol of
eIF-2B
) restores its specific activity to that of the phosphorylated protein. GSK-3 phosphorylates the 82-kDa subunit of both isolated and alkaline phosphatase-treated
eIF-2B
; however, the stoichiometry of phosphorylation is much less (approximately 0. 12 mol/mol of
eIF-2B
in both preparations) than that obtained with CK-1 or
CK-2
. Phosphorylation of
eIF-2B
with GSK-3 neither stimulates nor inhibits GDP/GTP exchange. The results of this study indicate that phosphorylation of
eIF-2B
with CK-1 and/or
CK-2
is required for GTP binding to the protein. Evidence is also presented for a mechanism of regulation of
eIF-2B
activity whereby phosphorylation by GSK-3 influences the activity of the protein and partially suppresses phosphorylation by CK-1 or
CK-2
.
...
PMID:Modulation of rabbit reticulocyte guanine nucleotide exchange factor activity by casein kinases 1 and 2 and glycogen synthase kinase 3. 860 55
In eukaryotes, the guanine nucleotide exchange factor (
eIF-2B
) is a key protein in the control of polypeptide chain initiation. It catalyzes the exchange of chain initiation factor (eIF)-2-bound GDP for GTP and facilitates the formation of a ternary complex (eIF-2.GTP.Met-tRNAf). The activity of
eIF-2B
is inhibited indirectly by phosphorylation of the smallest subunit of eIF-2 which sequesters
eIF-2B
into an inactive eIF-2(alpha P).
eIF-2B
complex. On the other hand,
eIF-2B
activity may be regulated directly by covalent modification of its largest subunit with different kinases, such as
casein kinase
(CK)-I, CK-II and
glycogen synthase kinase
(
GSK
)-3. After stimulation of mammalian cells by insulin or growth factors, the allosteric activation of
eIF-2B
activity by sugar phosphates and inositol phosphates may also provide an important parameter in the regulation of protein synthesis.
...
PMID:Regulation of protein synthesis in eukaryotic cells by the guanine nucleotide exchange factor and chain initiation factor 2. 865 27
Treatment of
eIF-2B
and eIF-2 with NEM abolishes nucleotide exchange and GTP-binding activities of the proteins. Incubation of
eIF-2B
with [14C]NEM results in strong labeling of the 82- and 55-kDa subunits and with less labeling of the other subunits. Preincubation of
eIF-2B
with eIF-2 interferes with [14C]NEM labeling of the 82- and 55-kDa subunits. All three (alpha, beta, and gamma) subunits of eIF-2 are labeled strongly by [14C]NEM. Limited digestion of
eIF-2B
with trypsin inhibits nucleotide exchange activity but does not interfere with GTP binding. Under these conditions, the 65-kDa subunit is degraded completely while the other subunits remain intact. Treatment of eIF-2 with trypsin results in the generation of eIF-2 lacking the beta-subunit (eIF-2 alpha gamma). eIF-2(alpha gamma) binds [3H]GDP equally well as intact elf-2. In the presence of elf-2B, the exchange of [3H]GDP for GTP from elf-2. [3H]GDP prepared with eIF-2(alpha gamma) is diminished considerably. [3H]GTP binding to eIF-2(alpha gamma) is also four- to five-fold less than to intact eIF-2. In addition, the association of
eIF-2B
with intact eIF-2, but not with eIF-2(alpha gamma), reduces by two-fold the rate and extent of removal of 32P by alkaline phosphatase from
CK-2
-phosphorylated 82-kDa subunit.
...
PMID:The interaction of rabbit reticulocyte guanine nucleotide exchange factor eIF-2B with chain initiation factor 2: studies with N-ethylmaleimide and trypsin. 868 43
To study the effect of prolonged diabetes on protein synthesis and on the activities of initiation factors eIF-2 and
eIF-2B
in the liver, female rats were treated with streptozotocin. Some animals were mated and studied on day 20 of pregnancy, whereas others were kept virgin and studied in parallel. The protein synthesis rate was measured with an "in vitro' cellfree system, and was lower in diabetic pregnant and virgin animals than in pregnant and virgin controls (30-60%). The fetuses of diabetic rats had a lower protein synthesis rate than those from controls, although they always showed a higher protein synthesis rate than their mothers or virgin rats. Protein synthesis rate, RNA concentration, and initiation factor 2 activity were higher in pregnant than in virgin rats. Both activity and level of eIF-2 factor changed in parallel to the protein synthesis rate, although no differences could be detected between control and diabetic animals. The
eIF-2B
activity in tissue extracts from diabetic virgin rats and fetuses was lower than in extracts from their controls, whereas no differences could be detected between pregnant and virgin control rats nor between pregnant control and pregnant diabetic animals. The percentage of the phosphorylated form of eIF-2 factor, eIF-2(alpha P), was slightly lower in virgin than in pregnant rats but was unaffected by the diabetic condition, while in diabetic fetuses this parameter was lower than in their corresponding controls. The cyclic adenosine monophosphate dependent
protein kinase
level was lower in diabetic rats than in controls, whereas no changes in the activity of
casein kinase II
were found. The isoelectric forms of the beta subunit of eIF-2 factor, eIF-2 beta, were different in the diabetic and the control animals, indicating that insulin deficiency modifies the phosphorylation of specific substrates. Since no differences were detected in RNA or eIF-2 content between control and diabetic rats, translation may, at least partly, be inhibited in the liver by an impairment of peptide chain initiation caused by the decreased
eIF-2B
activity which nevertheless is independent of eIF-2 alpha phosphorylation.
...
PMID:Effect of diabetes on protein synthesis rate and eukaryotic initiation factor activities in the liver of virgin and pregnant rats. 877 48
In response to different cellular stresses, a family of protein kinases regulates translation by phosphorylation of the alpha subunit of eukaryotic initiation factor-2 (eIF-2alpha). Recently, we identified a new family member, pancreatic eIF-2alpha kinase (PEK) from rat pancreas. PEK, also referred to as RNA-dependent
protein kinase
(PKR)-like endoplasmic reticulum (ER) kinase (PERK) is a transmembrane protein implicated in translational control in response to stresses that impair protein folding in the ER. In this study, we identified and characterized PEK homologues from humans, Drosophila melanogaster and Caenorhabditis elegans. Expression of human PEK mRNA was found in over 50 different tissues examined, with highest levels in secretory tissues. In mammalian cells subjected to ER stress, we found that elevated eIF-2alpha phosphorylation was coincident with increased PEK autophosphorylation and eIF-2alpha kinase activity. Activation of PEK was abolished by deletion of PEK N-terminal sequences located in the ER lumen. To address the role of C. elegans PEK in translational control, we expressed this kinase in yeast and found that it inhibits growth by hyperphosphorylation of eIF-2alpha and inhibition of
eIF-2B
. Furthermore, we found that vaccinia virus K3L protein, an inhibitor of the eIF-2alpha kinase PKR involved in an anti-viral defence pathway, also reduced PEK activity. These results suggest that decreased translation initiation by PEK during ER stress may provide the cell with an opportunity to remedy the folding problem prior to introducing newly synthesized proteins into the secretory pathway.
...
PMID:Pancreatic eukaryotic initiation factor-2alpha kinase (PEK) homologues in humans, Drosophila melanogaster and Caenorhabditis elegans that mediate translational control in response to endoplasmic reticulum stress. 1067 45
Eukaryotic initiation factor
eIF-2B
plays an important role in translation regulation and has been suggested to be implicated in the increased protein synthesis promoted in response to growth factors. We have used primary cultured neurons to delineate the signaling pathways by which insulin-like growth factor-1 (IGF-1), which plays a critical role in the survival of neuronal cells, promotes
eIF-2B
and protein synthesis activation. Treatment of cortical neurons with IGF-1 (100 ng/ml) for 30 min stimulates [(3)H]methionine incorporation, and a parallel increase in
eIF-2B
activity was observed. Wortmannin and LY294002 reversed both effects, indicating that phosphatidylinositol 3-kinase mediates IGF-1-induced protein synthesis and
eIF-2B
activation. IGF-1 induced
glycogen synthase kinase
-3 (GSK-3) inactivation in a phosphatidylinositol 3-kinase-dependent fashion because it is inhibited by wortmannin and LY294002. By using GSK-3 immunoprecipitated from untreated and IGF-1-treated cells, we demonstrate the phosphorylation of
eIF-2B
coincident with its inactivation. The treatment of cortical neurons with IGF-1 also promoted the activation of mitogen-activated protein kinase (MAPK). The MAPK-activating kinase (MEK) inhibitor PD98059 inhibited MAPK activation and reversed IGF-1-induced protein synthesis and
eIF-2B
activation. These findings suggest that IGF-1-induced
eIF-2B
activation on neurons is promoted through phosphatidylinositol 3-kinase and GSK-3 kinase, and we report an IGF-1-induced MEK/MAPK activation pathway implicated in
eIF-2B
activation.
...
PMID:Two different signal transduction pathways are implicated in the regulation of initiation factor 2B activity in insulin-like growth factor-1-stimulated neuronal cells. 1076 40
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