Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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 plant plasma membrane H(+)-ATPase is activated by the binding of 14-3-3 protein to the C-terminal region of the enzyme, thus forming an H(+)-ATPase-14-3-3 complex that can be stabilized by the fungal toxin fusicoccin. A novel 14-3-3 binding motif, QQXYpT(948)V, at the C terminus of the H(+)-ATPase is identified and characterized, and the protein kinase activity in the plasma membrane fraction that phosphorylates this threonine residue in the H(+)-ATPase is identified. A synthetic peptide that corresponds to the C-terminal 16 amino acids of the H(+)-ATPase and that is phosphorylated on Thr-948 prevents the in vitro activation of the H(+)-ATPase that is obtained in the presence of recombinant 14-3-3 and fusicoccin. Furthermore, binding of 14-3-3 to the H(+)-ATPase in the absence of fusicoccin is absolutely dependent on the phosphorylation of Thr-948, whereas binding of 14-3-3 in the presence of fusicoccin occurs independently of phosphorylation but still involves the C-terminal motif YTV. Finally, by complementing yeast that lacks its endogenous H(+)-ATPase with wild-type and mutant forms of the Nicotiana plumbaginifolia H(+)-ATPase isoform PMA2, we provide physiological evidence for the importance of the phosphothreonine motif in 14-3-3 binding and, hence, in the activation of the H(+)-ATPase in vivo. Indeed, replacing Thr-948 in the plant H(+)-ATPase with alanine is lethal because this mutant fails to functionally replace the yeast H(+)-ATPase. Considering the importance of the motif QQXYpTV for 14-3-3 binding and yeast growth, this motif should be of vital importance for regulating H(+)-ATPase activity in the plant and thus for plant growth.
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PMID:Phosphorylation of Thr-948 at the C terminus of the plasma membrane H(+)-ATPase creates a binding site for the regulatory 14-3-3 protein. 1059 Jan 65

Persistent hepatitis C virus (HCV) infection is a major cause of chronic liver dysfunction in humans and is epidemiologically closely associated with the development of human hepatocellular carcinoma. Among HCV components, core protein has been reported to be implicated in cell growth regulation both in vitro and in vivo, although mechanisms explaining those effects are still unclear. In the present study, we identified that members of the 14-3-3 protein family associate with HCV core protein. 14-3-3 protein bound to HCV core protein in a phosphoserine-dependent manner. Introduction of HCV core protein caused a substantial increase in Raf-1 kinase activity in HepG2 cells and in a yeast genetic assay. Furthermore, the HCV core-14-3-3 interaction was essential for Raf-1 kinase activation by HCV core protein. These results suggest that HCV core protein may represent a novel type of Raf-1 kinase-activating protein through its interaction with 14-3-3 protein and may contribute to hepatocyte growth regulation.
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PMID:Hepatitis C virus core protein interacts with 14-3-3 protein and activates the kinase Raf-1. 1064 44

We have found that the expression of five 14-3-3 protein isoforms is induced during the retinoic acid (RA)-mediated differentiation of mouse embryonal carcinoma F9 cells. The induced expression of the 14-3-3 proteins is presumed to have a role in enhancing the mitogen-activated protein kinase (MAPK) activity during RA-mediated F9 cell differentiation, because using genetically engineered budding yeast we showed that these isoforms enhanced the signaling in the MAPK cascade mainly through the interaction with Raf-1. Then we assessed the role of increased MAPK activity in F9 cell differentiation by interfering with signaling in the MAPK cascade in F9 cells. The exogenous expression of dominant-negative MEK1 efficiently abrogated RA-mediated induction of the cytokeratins EndoA and EndoC in the F9 cells. These results suggest that the 14-3-3 proteins play a role in the efficient induction of the cytokeratins during F9 cell differentiation through their signal enhancing activity in the MAPK cascade.
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PMID:14-3-3 protein family members have a regulatory role in retinoic acid-mediated induction of cytokeratins in F9 cells. 1101 Aug 14

A continuing focus of our work has been an effort to understand the signal transduction pathways through which insulin achieves its cellular actions. In the mid-1970s, we and others observed that insulin promoted an increase in Ser/Thr phosphorylation of a subset of cellular proteins. This finding was unanticipated, inasmuch as nearly all of the actions of insulin then known appeared to result from protein dephosphorylation. In fact, nearly 15 years elapsed before any physiologic response to insulin attributable to stimulated (Ser/Thr) phosphorylation was established. Nevertheless, based on the hypothesis that insulin-stimulated Ser/Thr phosphorylation reflected the activation of protein (Ser/Thr) kinases downstream of the insulin receptor, we sought to detect and purify these putative, insulin-responsive protein (Ser/Thr) kinases. Our effort was based on the presumption that an understanding of the mechanism for their activation would provide an entry into the biochemical reactions through which the insulin receptor activated its downstream effectors. To a degree that, in retrospect, is surprising, this goal was accomplished, much in the way originally envisioned. It is now well known that receptor tyrosine kinases (RTKs) recruit a large network of protein (Ser/Thr) kinases to execute their cellular programs. The first of these insulin-activated protein kinase networks to be fully elucidated was the Ras-Raf-mitogen-activated protein kinase (MAPK) cascade. This pathway is a central effector of cellular differentiation in development; moreover, its inappropriate and continuous activation provides a potent promitogenic force and is a very common occurrence in human cancers. Conversely, this pathway contributes minimally, if at all, to insulin's program of metabolic regulation. Nevertheless, the importance of the Ras-MAPK pathway in metazoan biology and human malignancies has impelled us to an ongoing analysis of the functions and regulation of Ras and Raf. This chapter will summarize briefly the way in which work from this and other laboratories on insulin signaling led to the discovery of the mammalian MAP kinase cascade and, in turn, to the identification of unique role of the Raf kinases in RTK activation of this protein (Ser/Thr) kinase cascade. We will then review in more detail current understanding of the biochemical mechanism through which the Ras proto-oncogene, in collaboration with the 14-3-3 protein and other protein kinases, initiates activation of the Raf kinase.
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PMID:Ras activation of the Raf kinase: tyrosine kinase recruitment of the MAP kinase cascade. 1123 10

The transcription factor, forkhead in rhabdomyosarcoma (FKHR), is phosphorylated at three amino acid residues (Thr-24, Ser-256 and Ser-319) by protein kinase B (PKB)alpha. In the present study, mutagenesis has been used to study the roles of these phosphorylation events in regulating FKHR function in transfected HEK-293 cells. We find that the overexpression of FKHR[S256A] (where Ser-256-->Ala) blocks PKB activity in cells, preventing phosphorylation of the endogenous substrates FKHRL1 and glycogen synthase kinase-3. Thus some reported effects of overexpression of this and other mutants may be indirect, and result from suppression of the phosphorylation of other sites on FKHR and/or other PKB substrates. For example, we have shown that Thr-24 phosphorylation alone is critical for interaction with 14-3-3 proteins, and that the substitution of Ser-256 with an alanine residue indirectly blocks 14-3-3 protein binding by preventing the phosphorylation of Thr-24. We also found that insulin-like growth factor (IGF)-1 and serum-induced nuclear exclusion of FKHR[S256A] depends on the degree of overexpression of this mutant. Our results indicated that the interaction of FKHR with 14-3-3 proteins was not required for IGF-1-stimulated exclusion of FKHR from the nucleus. We present evidence in support of another mechanism, which depends on the phosphorylation of Ser-256 and may involve the masking of a nuclear localization signal. Finally, we have demonstrated that the failure of IGF-1 to suppress transactivation by FKHR[S256A] is not explained entirely by its failure to bind 14-3-3 proteins or to undergo nuclear exclusion. This result suggests that Ser-256 phosphorylation may also suppress transactivation by FKHR by yet another mechanism, perhaps by disrupting the interaction of FKHR with target DNA binding sites and/or the function of the transactivation domain.
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PMID:Roles of the forkhead in rhabdomyosarcoma (FKHR) phosphorylation sites in regulating 14-3-3 binding, transactivation and nuclear targetting. 1123 65

In higher plants, chloroplast-destined precursor proteins are thought to be phosphorylated. Mediated by a specific 14-3-3 protein, these phosphorylated proteins bind to the chloroplast surface and are subsequently imported into the chloroplast. We demonstrate that also in the green alga Chlamydomonas reinhardtii the precursor of the small subunit of ribulose-1,5-bisphosphate carboxylase becomes phosphorylated by a plant protein kinase and that the phosphorylation site is located in the transit peptide. The phosphorylation status of the precursor protein regulates its import into chloroplasts especially at an early step during this process. The possible physiological function is discussed.
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PMID:Effect of precursor protein phosphorylation on import into isolated chloroplasts from Chlamydomonas. 1171 9

Although Down Syndrome (DS, trisomy 21) is the most frequent isolated cause of mental retardation, information on brain protein expression and in particular protein expression of signaling-related proteins is limited. Impaired signaling in DS involving different signaling systems has been proposed and the availability of fetal brain along with recent proteome technologies unambiguously identifying individual brain proteins made us study individual signaling factors in the brain. We studied fetal brain cortex of controls (n = 7) and DS (n = 9) from early second trimester of gestation by two-dimensional gel electrophoresis with subsequent matrix-assisted laser/desorption ionization (MALDI) identification followed by quantification with specific software. Four 14-3-3 protein isoforms, mitogen-activated protein kinase 1, receptor for activited kinase 1 (RACK1), constitutive photomorphogenesis (COP9) complex subunit 4 and cAMP-dependent protein kinase type II have been identified. Quantification showed that protein 14-3-3 gamma (means +/- standard deviation of controls: 10.18+/-2.30 and of DS 4.20+/-1.19) and two spots assigned to RACK1 (controls spot 1: 4.15+/-2.45 and DS 1.95+/-0.93; controls spot 2: 5.08+/-2.4 vs. DS: 2.56+/-1.19) were significantly decreased in DS cortex. Reduced 14-3-3 gamma may represent impaired neuronal differentiation, synaptic plasticity and impaired signaling by PKC and Raf while decreased RACK1 (anchoring protein receptor for activated C-kinase) may reflect or generate deranged beta-II- protein kinease C (PKC) function with the putative biological meaning of aberrant migration and neuritic outgrowth in DS early in life.
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PMID:Aberrant expression of signaling-related proteins 14-3-3 gamma and RACK1 in fetal Down syndrome brain (trisomy 21). 1182 16

The protein kinase Raf is an important signaling protein. Raf activation is initiated by an interaction with GTP-bound Ras, and Raf functions in signal transmission by phosphorylating and activating a mitogen-activated protein (MAP) kinase kinase named MEK. We identified 13 mutations in the Caenorhabditis elegans lin-45 raf gene by screening for hermaphrodites with abnormal vulval formation or germline function. Weak, intermediate, and strong loss-of-function or null mutations were isolated. The phenotype caused by the most severe mutations demonstrates that lin-45 is essential for larval viability, fertility, and the induction of vulval cell fates. The lin-45(null) phenotype is similar to the mek-2(null) and mpk-1(null) phenotypes, indicating that LIN-45, MEK-2, and MPK-1 ERK MAP kinase function in a predominantly linear signaling pathway. The lin-45 alleles include three missense mutations that affect the Ras-binding domain, three missense mutations that affect the protein kinase domain, two missense mutations that affect the C-terminal 14-3-3 binding domain, three nonsense mutations, and one small deletion. The analysis of the missense mutations indicates that Ras binding, 14-3-3-binding, and protein kinase activity are necessary for full Raf function and suggests that a 14-3-3 protein positively regulates Raf-mediated signaling during C. elegans development.
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PMID:Caenorhabditis elegans lin-45 raf is essential for larval viability, fertility and the induction of vulval cell fates. 1186 55

A new member of the 14-3-3 protein family in Schistosoma mansoni has been identified. Sequence analysis demonstrated that this protein is a member of the epsilon sub-group and is the orthologue of Schistosoma japonicum 14-3-3epsilon. Since we had previously identified a 14-3-3epsilon protein from S. mansoni, we termed the original protein 14-3-3epsilon-1 and this second epsilon protein 14-3-3epsilon-2. Schistosoma mansoni encodes at least four different 14-3-3 isoforms: the two epsilon proteins and 14-3-3 protein 1 and protein 2, which are zeta-like isoforms. Phylogenetic analysis demonstrated the early divergence of the epsilon isoforms, and that schistosome proteins 1 and 2 are among the oldest non-epsilon 14-3-3 proteins yet identified. Schistosoma mansoni 14-3-3epsilon-1, 14-3-3epsilon-2, and protein 1 are stage specifically expressed in a similar manner, being absent in cercariae and schistosomula, and abundant in lung stage and adult male and female worms. Protein 2 transcript was not detected at any of the life cycle stages examined. All three detected 14-3-3 isoforms elicit an immune response during infection, with the greatest response directed against protein 1. Binding studies with S. mansoni receptor kinase-1 (SmRK1) and human Raf kinase revealed that the three 14-3-3epsilon isoforms exhibit a preference for target protein binding. Although all three isoforms do bind to both targets, 14-3-3 protein 1 interacts most strongly with Raf, whereas the 14-3-3-1 isoform binds SmRK1 preferentially. These results suggest that the individual 14-3-3 proteins may have evolved to play isoform-specific roles in the development and survival of S. mansoni within its host.
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PMID:14-3-3 proteins in Schistosoma mansoni; identification of a second epsilon isoform. 1206 87

Although it has been shown that leaf nitrate reductase (NR: EC 1.6.6.1) is phosphorylated by subjecting plants to darkness, there is no evidence for the existence of dark-activated or dark-induced NR kinase. This study was undertaken to investigate the occurrence of a protein kinase phosphorylating NR in response to dark treatments. Immediately after transferring Komatsuna (Brassica campestris L.) plants to darkness, we observed rapid increases in the phosphorylating activity of the synthetic peptide, which is designed for the amino acid sequence surrounding the regulatory serine residue of the hinge 1 region of Komatsuna NR, in crude extracts from leaves. The activity reached a maximum after 10 min of darkness. Inactivation states of NR estimated from relative activities with or without Mg2+ were correlated to activities of the putative dark-activated protein kinase. Using the synthetic peptide as a substrate, we purified a protein kinase from dark-treated leaves by means of successive chromatographies on Q-Sepharose, Blue Sepharose, FPLC Q-Sepharose, and ATP-gamma-Sepharose columns. The purified kinase had an apparent molecular mass of 150 kDa with a catalytic subunit of 55 kDa, and it was Ca2+-independent. The purified kinase phosphorylated a recombinant cytochrome c reductase protein, a partial protein of NR, and holo NR, and inactivated NR in the presence of both 14-3-3 protein and Mg2+. The kinase also phosphorylated synthetic peptide substrates designed for sucrose phosphate synthase and 3-hydroxy-3-methylglutaryl-Coenzyme A reductase. Among inhibitors tested, only K252a, a potent and specific serine/threonine kinase inhibitor, completely inhibited the activity of the dark-activated kinase. The activity of the purified kinase was also specifically inhibited by K252a. Taken together with these findings, results obtained suggest that the putative dark-activated protein kinase may be the purified kinase itself, and may be responsible for in vivo phosphorylation of NR and its inactivation during darkness.
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PMID:A protein kinase activated by darkness phosphorylates nitrate reductase in Komatsuna (Brassica campestris) leaves. 1212 55


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