Gene/Protein
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Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UMLS:C0038187 (
starvation
)
24,951
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The regulation of protein synthesis was studied in KRC-7 cells (rat hepatoma) grown in complete medium, during serum
starvation
, and mitogen activation. Upon serum
starvation
, the cells lost almost completely
p67
mRNA,
p67
protein, and protein synthesis activity. After phorbol 12-myristate 13-acetate addition, the same serum-starved cells regained
p67
mRNA,
p67
protein, and protein synthesis activity. Also, the extracts from the serum-starved cells phosphorylated the eukaryotic initiation factor-2 (eIF-2) alpha-subunit. This eIF-2 alpha-subunit phosphorylation was not observed when the extracts from either the cells grown in complete medium or mitogen-activated cells were used (Gupta, S., Wu, S., Chatterjee, N., Ilan, J., Ilan, J., Osterman, J. C., and Gupta, N. K. (1995) Gene Expr. 5, 113-122). We now report the following. 1) The eIF-2 kinase activity was the same in the cells grown in complete medium, after serum
starvation
, and subsequent mitogen stimulation. However, the eIF-2 kinase in the cells grown in complete medium and also after mitogen activation of the serum-starved cells cannot phosphorylate eIF-2 alpha-subunit as these cells contain
p67
. After removal of endogenous
p67
by
p67
antibodies, the extracts from all these cells similarly phosphorylated exogenously added eIF-2. 2) None of the cell extracts showed
p67
deglycosylase activity. 3) The
p67
mRNA was synthesized in serum-starved cells by expression of a
p67
cDNA. The appearance of
p67
mRNA in the serum-starved cells was accompanied by the appearance of
p67
protein. Also, the rates of protein synthesis in the serum-starved cells were restored nearly to the level observed in the confluent cells. The expression of
p67
cDNA also significantly increased protein synthesis rates in the cells grown in complete medium and in mitogen-activated cells. These results show that the loss of protein synthesis activity in serum-starved cells was due to loss of
p67
mRNA. The expressed
p67
mRNA was stable in serum-starved cells. These results, therefore, suggest that the loss of
p67
mRNA in serum-starved cells is due to loss of
p67
transcription. The
p67
transcription regulates translation.
...
PMID:p67 transcription regulates translation in serum-starved and mitogen-activated KRC-7 cells. 913 27
Regulation of vaccinia viral infection was studied using three animal cell lines: KRC-7 (rat hepatoma), L929 (mouse fibroblast), and CV-1 (African green monkey kidney). KRC-7 is highly enriched in
p67
, a glycoprotein which protects eIF-2 alpha-subunit from phosphorylation by eIF-2 kinases. We report: (i) At 5 pfu per cell of the virus, KRC-7 is resistant to the virus. Other cells are sensitive. At 25 pfu per cell of the virus, KRC-7 is also sensitive to the virus. After productive viral infection, the cell extracts showed strong
p67
-DG activity and actively deglycosylated exogenous
p67
. After
p67
-deglycosylation, the cell extracts also phosphorylated eIF-2. (ii) The rate of synthesis of a major host protein (approximately 45 kDa) in infected L929 cells measured after 2 h of viral infection declined more than 50%. The rate declined thereafter. The rate of synthesis of host proteins in viral-resistant KRC-7 cells (infected with 5 pfu per cell of the virus) remained unchanged. The mechanism of resistance of KRC7 cells to vacinia virus at 5 pfu per cell of the virus was investigated. The
p67
level in these cells was varied by growing the cells under different physiological conditions such as serum
starvation
and expression of
p67
-sense and
p67
-antisense DNA. At low
p67
level in the cells,
p67
-DG is activated. This deglycosylates
p67
and inactivates
p67
. This accompanies eIF-2 phosphorylation and shutoff of host protein synthesis. At high
p67
level in the cells, activation of
p67
-DG is prevented. This prevents shut-off of host protein synthesis and viral growth.
...
PMID:Viral infection. I. Regulation of protein synthesis during vaccinia viral infection of animal cells. 918 99
Methionine aminopeptidases (MAPs) play important roles in protein processing. MAPs from various organisms, for example E. coli, S. typhimurium, P. furiosus, Saccharomyces cerevisiae, and porcine have been purified to homogeneity and their MAP activities have been tested in vitro and in vivo. The DNA sequence analyses of MAP genes from the above organisms reveal sequence homologies with other prokaryotic MAPs as well as with various eukaryotic homologues of rat
p67
. The cellular glycoprotein,
p67
protects the alpha-subunit of eukaryotic initiation factor 2 (eIF2) from phosphorylation by its kinases. We call this POEP (protection of eIF2alpha phosphorylation) activity of
p67
. The POEP activity of
p67
is observed in different stress-related situations such as during heme-deficiency of reticulocytes, serum
starvation
and heat-shock of mammalian cells, vaccinia virus infection of mammalian cells, baculovirus infection of insect cells, mitosis, apoptosis, and possibly during normal cell growth. The POEP activity of
p67
is regulated by an enzyme, called
p67
-deglycosylase (p67-DG). When active,
p67
-DG inactivates
p67
by removing its carbohydrate moieties. Remarkable amino acid sequence similarities at the C-terminus of rat
p67
with its eukaryotic and prokaryotic homologues which have MAP activities, raise several important questions: i) does rat
p67
have MAP activity?; and ii) if it does have MAP activity, how the two activities (POEP and MAP) of
p67
are used by mammalian cells during their growth and differentiation. In this review, discussions have been made to evaluate both POEP and MAP activities of
p67
and their possible involvement during normal growth and cancerous growth of mammalian cells.
...
PMID:MAPs and POEP of the roads from prokaryotic to eukaryotic kingdoms. 1072 64
Phosphorylation of the alpha-subunit of eukaryotic initiation factor 2 is the major regulatory step in the initiation of protein synthesis in mammals. P67, a cellular glycoprotein, protects phosphorylation of eIF2alpha from kinases. P67 has five conserved amino acid residues at the D251, D262, H331, E364, and E459 positions. To determine the roles of these conserved amino acid residues in eIF2alpha phosphorylation during serum-starved conditions, we constitutively expressed D251A, D262A, H331A, E364A, and E459A mutants in rat tumor hepatoma cells. We find that the point mutants D251A, H331A, and E364A lower the levels of eIF2alpha phosphorylation. These low levels of phosphorylation decrease when serum-starved cells are grown in medium containing serum. To understand the mechanism of action of the
p67
mutants in eIF2alpha phosphorylation during serum-
starvation
, we performed detailed biochemical analyses with the D251A mutant. We find that neither the O-GlcNAc modification on the D251A mutant nor the binding of D251A mutant with eIF2gamma has significant effects on eIF2alpha phosphorylation during serum-starved conditions. However, the D251A mutant inhibits
p67
's activity to suppress the activity of ERK1/2. Our data suggest that both
p67
and the D251A mutant bind to ERK1, thus strengthening the idea that
p67
regulates the activity of ERK1. During serum-
starvation
conditions, both PKR and PERK are phosphorylated and the D251A mutant shows increased stability of PERK as well as a slight decrease in its activity. Altogether, our data provide evidence to suggest that
p67
modulates the expression and activity of certain eIF2alpha-specific kinases.
...
PMID:Eukaryotic initiation factor 2-associated glycoprotein, p67, shows differential effects on the activity of certain kinases during serum-starved conditions. 1517 89
Membrane-associated NADPH oxidase complexes catalyse the production of the superoxide anion radical from oxygen and NADPH. In mammalian systems, NADPH oxidases form a family of at least seven isoforms that participate in host defence and signalling pathways. We report here the cloning and the characterisation of slime mould Dictyostelium discoideum homologs of the mammalian heme-containing subunit of flavocytochrome b (gp91(phox)) (NoxA, NoxB and NoxC), of the small subunit of flavocytochrome b (p22(phox)) and of the cytosolic factor
p67
(phox). Null-mutants of either noxA, noxB, noxC or p22(phox) show aberrant
starvation
-induced development and are unable to produce spores. The overexpression of NoxA(myc2) in noxA null strain restores spore formation. Remarkably, the gene alg-2B, coding for one of the two penta EF-hand proteins in Dictyostelium, acts as a suppressor in noxA, noxB, and p22(phox) null-mutant strains. Knockout of alg-2B allows noxA, noxB or p22(phox) null-mutants to return to normal development. However, the knockout of gene encoding NoxC, which contains two penta EF-hands, is not rescued by the invalidation of alg-2B. These data are consistent with a hypothesis connecting superoxide and calcium signalling during Dictyostelium development.
...
PMID:NADPH oxidase homologs are required for normal cell differentiation and morphogenesis in Dictyostelium discoideum. 1595 Jul 52
Phosphorylation of the alpha-subunit of eukaryotic initiation factor 2 is the major regulatory step in the initiation of protein synthesis in mammals. P67, a cellular glycoprotein, protects phosphorylation of eIF2alpha from kinases. Previously, we reported that the D6/2 mutant of
p67
has higher levels of protection of eIF2alpha phosphorylation (POEP) activity. In this study, we report that the D6/2 mutant and its double mutants containing second-site alanine substitutions at the five conserved amino acid residues (D251, D262, H331, E364, and E459) show increased POEP activity in serum-starved rat tumor hepatoma cells. Serum-restoration to those cells did not abolish their increased POEP activity except the D6/2+H331A double mutant. The latter mutant shows slight inhibition of POEP activity during serum
starvation
and this inhibition increased significantly during serum restoration. KRC-7 cells constitutively expressing the D6/2 mutant showed slightly decreased levels of PKR phosphorylation and significantly low level of phosphorylation of ERKs 1 and 2. The D6/2 mutant also showed increased binding with eIF2alpha and eIF2gamma and almost similar binding with ERKs 1 and 2 as compared to wild type
p67
. Altogether, our data demonstrate that the increased binding of the D6/2 mutant with the subunits of eIF2 may be in part the cause for its high POEP activity.
...
PMID:The binding between p67 and eukaryotic initiation factor 2 plays important roles in the protection of eIF2alpha from phosphorylation by kinases. 1684 28
