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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)
We have isolated cDNA molecules encoding a protein with the characteristic sequence elements that are conserved between the catalytic domains of protein kinases. This protein is apparently a serine/threonine kinase and is most closely related to the amino-terminal half of the
ribosomal protein S6 kinase II
first characterized in Xenopus eggs (42% overall identity and 56% identity in the predicted catalytic domain). However, it clearly differs from S6 kinase II in that it has only one, rather than two predicted catalytic domains and a deduced molecular mass of 59,109 Da. We propose that is may be more related to, or identical, with, the mitogen-inducible S6 kinase of molecular mass 65-70 kDa described in mammalian liver, mouse 3T3 cells and chicken embryos. Remarkable structural features of the cDNA-encoded polypeptide are a section rich in proline, serine and threonine residues that resemble the multiphosphorylation domains of glycogen synthase and phosphorylase kinase alpha subunit, and a characteristic tyrosine residue in the putative nucleotide-binding glycine cluster which, by analogy to cdc2 kinase, is a potential tyrosine phosphorylation site.
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PMID:cDNA encoding a 59 kDa homolog of ribosomal protein S6 kinase from rabbit liver. 169 10
The intracellular concentration of the 27-kDa mammalian heat shock protein, HSP27, increases several-fold after heat and other metabolic stresses and is closely associated with the acquisition of thermotolerance. Posttranslational modifications may also affect the function of HSP27. Heat shock of HeLa cell cultures, or treatment with arsenite, phorbol ester, or tumor necrosis factor, caused a rapid phosphorylation of preexisting HSP27 and the appearance of three phosphorylated isoforms, HSP27 B, C, and D. Digestion with trypsin and fractionation of the peptides by reverse phase high performance liquid chromatography revealed three 32P-labeled phosphopeptides. Microsequence analysis identified peak I as Ala76-Leu77-Ser78-Arg79 and peak II as Gln80-Leu81-Ser82-Ser83-Gly84-Val85- Ser86-Glu87-Ile88-Arg89; peak III contained the undigested peptide pair Ala76-Arg89. Ser82 was the major site and Ser78 the minor site of phosphorylation. Mutant proteins with Ser78 or Ser82 altered to glycine or Ser78-Ser82 double mutants were phosphorylated to reduced extents in vivo after heat or arsenite treatment. Ser78 and Ser82 (and Ser15) occur in the sequence motif RXXS, which is recognized by
ribosomal protein S6 kinase II
. Mitogenic stimulation of serum-deprived, Go-arrested Chinese hamster cells with serum, thrombin, or fibroblast growth factor also stimulated phosphorylation of HSP27 Ser78 and Ser82, and mitogenic stimulation and heat shock activated
protein kinase
activities that phosphorylated HSP27 and protein S6 in vitro. These results suggest that HSP27 may exert phosphorylation-activated functions linked with growth signaling pathways in unstressed cells. A homeostatic function at this level could protect cells from adverse effects of signal transduction systems which may be activated inappropriately during stress.
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PMID:Human HSP27 is phosphorylated at serines 78 and 82 by heat shock and mitogen-activated kinases that recognize the same amino acid motif as S6 kinase II. 173 Jun 70
The control of cell proliferation involves both regulatory events initiated at the plasma membrane that control reentry into the cell cycle and intracellular biochemical changes that direct the process of cell division itself. Both of these aspects of cell growth control can be studied in Xenopus oocytes undergoing meiotic maturation in response to mitogenic stimulation. All mitogenic signaling pathways so far identified lead to the phosphorylation of ribosomal protein S6 on serine residues, and the biochemistry of this event has been investigated. Insulin and other mitogens activate
ribosomal protein S6 kinase II
, which has been cloned and sequences in oocytes and other cells. This enzyme is activated by phosphorylation on serine and threonine residues by an insulin-stimulated
protein kinase
known as MAP-2 kinase. MAP kinase itself is also activated by direct phosphorylation on threonine and tyrosine residues in vivo. These results reconstitute one step of the insulin signaling pathway evident shortly after insulin receptor binding at the membrane. Several hours after mitogenic stimulation, a cell cycle cytoplasmic control element is activated that is sufficient to cause entry into M phase. This control element, known as maturation-promoting factor or MPF, has been purified to near homogeneity and shown to consist of a complex between p34cdc2
protein kinase
and cyclin B2. In addition to apparent phosphorylation of cyclin, regulation of MPF activity involves synthesis of the cyclin subunit and its periodic degradation at the metaphase----anaphase transition. The p34cdc2 kinase subunit is regulated by phosphorylation/dephosphorylation on threonine and tyrosine residues, being inactive when phosphorylated and active when dephosphorylated. Analysis of phosphorylation sides in histone H1 for p34cdc2 has revealed a consensus sequence of (K/R)S/TP(X)K/R, where the elements in parentheses are present in some but not all sites. Sites with such a consensus are specifically phosphorylated in mitosis and by MPF in the protooncogene pp60c-src. These results provide a link between cell cycle control and cell growth control and suggest that changes in cell adhesion and the cytoskeleton in mitosis may be regulated indirectly by MPF via protooncogene activation. S6 kinase II is also activated upon expression of MPF in cells, indicating that MPF is upstream of S6 kinase on the mitogenic signaling pathway. Further study both of the signaling events that lead to MPF activation and of the substrates for phosphorylation by MPF should lead to a comprehensive understanding of the biochemistry of cell division.
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PMID:Xenopus oocytes and the biochemistry of cell division. 215 26
pp42, a low-abundance 42-kDa protein, becomes transiently phosphorylated on tyrosine after stimulation of fibroblasts by a variety of mitogens, including epidermal growth factor, platelet-derived growth factor, phorbol 12-myristate 13-acetate, thrombin, and insulin-like growth factor II. The induction of pp42 phosphorylation on tyrosine by such diverse mitogenic agents suggests an important role for pp42 in the cascade of events necessary for cell transition from G0 into the cell cycle. However, as with most proteins identified on the basis of their tyrosine phosphorylation, the function of pp42 in cellular regulation is unknown. In this manuscript we report evidence that suggests that pp42 is a serine/threonine-specific protein kinase. Stimulation of 3T3-L1 cells with insulin has been shown to activate a cytosolic serine/threonine kinase capable of phosphorylating microtubule-associated protein 2 (MAP-2) and
ribosomal protein S6 kinase II
. This cytosolic
serine/threonine protein kinase
, which itself is phosphorylated on tyrosine, has been termed "MAP kinase". We now report that pp42 phosphorylation and MAP kinase activation occur in fibroblasts in response to similar mitogens, that the two proteins comigrate on one- and two-dimensional polyacrylamide gels, and that the two proteins copurify chromatographically. The major peptides generated from purified MAP kinase by V8 protease digestion are present as a subset of the peptides in digests of pp42 excised from two-dimensional gels. Thus, the results suggest that MAP kinase is tyrosine-phosphorylated pp42.
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PMID:Evidence that pp42, a major tyrosine kinase target protein, is a mitogen-activated serine/threonine protein kinase. 255 Sep 26
Maturation-promoting factor (MPF) is a cell cycle control element able to cause metaphase when injected into amphibian oocytes or when incubated with nuclei in a cell-free system. Highly purified MPF consists of a complex between a 34K (K = 10(3) Mr)
serine/threonine protein kinase
, identified as a Xenopus homolog of the cdc2+ gene product, p34cdc2, and a 45K substrate, identified as a Xenopus B-type cyclin. p34cdc2 is also present in purified preparations of chromatin-derived growth-associated histone H1 kinase from Novikoff hepatoma cells. p34cdc2 is active when dephosphorylated and inactive when phosphorylated during oocyte meiotic cell cycles and in mitotic cell cycles following egg activation. Analysis of the substrate specificity of p34cdc2 indicates a consensus sequence for phosphorylation of (K/R)S/TP(X)K/R. Among substrates identified with this consensus are histone H1 and the pp60c-src proto-oncogene, which is known to be activated and phophorylated in mitosis. MPF injection into oocytes activates
ribosomal protein S6 kinase II
, which is also a lamin kinase. The mechanism of activation is indirect, possibly involving the c-src proto-oncogene. Continued analysis of regulation of MPF activation/inactivation and characterization of substrates for phosphorylation will have important implications for cell cycle and cell growth control.
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PMID:Maturation-promoting factor and the regulation of the cell cycle. 269 38
The substrate specificity of
ribosomal protein S6 kinase II
(S6 K II) from Xenopus eggs was evaluated using several protein substrates and a synthetic peptide corresponding to two phosphorylation sites in ribosomal protein S6. Previous studies had shown that S6 K II is unable to phosphorylate histones, casein, or phosvitin, proteins commonly used as substrates for protein kinases. In the present study S6 K II was found to phosphorylate with a significant stoichiometry rabbit skeletal muscle glycogen synthase, cardiac and skeletal muscle troponin I, and lamin C. In addition, the S6 peptide was phosphorylated by S6 K II to the same extent as observed with the catalytic subunit of
cAMP-dependent protein kinase
. Studies with oocytes undergoing progesterone-induced meiotic maturation and with activated or fertilized eggs revealed identical oscillations in both S6 and lamin C kinase activity. These results indicate that S6 K II does not have an absolute specificity for S6 in vitro. Therefore, since this enzyme is regulated during the cell cycle, it may phosphorylate several other proteins of interest during mitogenic stimulation.
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PMID:Substrate specificity of ribosomal protein S6 kinase II from Xenopus eggs. 324 15
We have previously shown that insulin causes inactivation of
glycogen synthase kinase
-3 (GSK-3) in Chinese hamster ovary cells over-expressing the human insulin receptor (CHO.T cells). We now show that serum and phorbol ester also cause rapid inactivation of GSK-3, both in CHO.T cells and in the nontransfected parental cell line, CHO.K1 cells. Rapamycin was without effect on the inactivation of GSK-3 by insulin, serum or phorbol ester, indicating that the p70 S6 kinase pathway is not involved. In contrast, wortmannin, a potent inhibitor of phosphatidylinositol 3-kinase, blocked the effects of both insulin and serum on GSK-3 activity, and also substantially reduced the activation of both
p90 S6 kinase
(by insulin) and mitogen-activated protein (MAP) kinase (by insulin and serum). These findings imply (i) that GSK-3 activity is regulated by a cascade involving MAP kinase and
p90 S6 kinase
and (ii) that wortmannin affects an early step in the MAP kinase pathway. One can infer from this that GSK-3 may be an important regulatory enzyme for the control of several biosynthetic pathways, key enzymes in which are regulated by GSK-3-mediated phosphorylation. Wortmannin had a smaller effect on the activation of MAP kinase by phorbol ester, indicating that phorbol esters may stimulate MAP kinase by a different or additional mechanism to that employed by insulin or serum. Wortmannin had very little effect on the inactivation of GSK-3 by phorbol ester: possible reasons for this are discussed.
...
PMID:Wortmannin inhibits the effects of insulin and serum on the activities of glycogen synthase kinase-3 and mitogen-activated protein kinase. 794 34
We identified 1-(5 chloronaphthalenesulfonyl)-1H-hexahydro-1, 4-diazepine, also known as ML-9, as a powerful inhibitor of PKB activity in different cells as well as of recombinant PKB. It also inhibits other downstream serine/threonine kinases, such as
PKA
and
p90 S6 kinase
, but not upstream tyrosine phosphorylation or PI3-kinase activation in response to insulin. We compared the effects of ML-9 and wortmannin on several insulin-stimulated effects in isolated rat fat cells. Both ML-9 and wortmannin inhibited glucose transport and GLUT4/IGF II receptor translocation to the plasma membrane. In contrast, only wortmannin inhibited the antilipolytic effect and PDE3B activation by insulin. Thus, ML-9 inhibits PKB but not PI3-kinase activation in response to insulin and is useful to differentiate between these effects. Both PI3-kinase and PKB are important for glucose transport and intracellular protein translocation while PKB does not appear to play an important role for the antilipolytic effect or activation of PDE3B in response to insulin.
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PMID:PKB inhibition prevents the stimulatory effect of insulin on glucose transport and protein translocation but not the antilipolytic effect in rat adipocytes. 1067 1
