EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We describe a versatile intracellular reporter of ERK/MAP kinase activity: a cDNA construct, pGFP.MBP, encoding amino acids 85-144 of the human myelin basic protein fused to the C-terminus of an enhanced green fluorescent protein (GFP). The fused fragment of myelin basic protein contains a single consensus ERK/MAP kinase phosphorylation motif (PRTP, where the threonine is phosphorylated). Phosphorylation of the specific motif can be detected via immunoblotting or immunofluorescence with a commercially available phospho-specific monoclonal antibody. When expressed in mammalian cells by either transient or stable transfection, the fusion protein acts as a bona fide kinase substrate, as demonstrated by rapid serum-induced phosphorylation that is blocked by a specific MEK inhibitor. Moreover, the localization of the total substrate pool is easily visualized by GFP autofluorescence and the extent of its phosphorylation simultaneously detected within intact fixed cells by immunofluorescence using the commercially available phospho-specific antibody. The approach described should be generally applicable to the intracellular analysis of many specific protein kinase substrates for which phospho-specific antibodies have been produced.
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PMID:A green fluorescent protein kinase substrate allowing detection and localization of intracellular ERK/MAP kinase activity. 1139 42

Hypertrophy is an adaptive response of the heart to myocardial injury or hemodynamic overload that may progress and contribute to cardiac decompensation and eventually to heart failure. The signaling pathways controlling this response in the cardiac myocyte are poorly understood. A data mining effort of a human failed heart cDNA library was undertaken in an effort to identify novel signaling molecules involved in cardiac hypertrophy. This effort identified a novel kinase (MLK7) homologous to the mixed lineage kinase family of proteins. The mixed lineage kinases are mitogen-activated protein kinase kinase kinases (MAPKKKs) which activate stress activated protein kinase/c-Jun N-terminal kinase (SAPK/JNK) and p38 kinase pathways. They contain a catalytic domain with homology to both serine/threonine and tyrosine-specific kinases and a dual leucine zipper. MLK7 is identical to leucine zipper and sterile-alpha motif protein kinase (ZAK) through the leucine zipper domain but has a completely divergent COOH-terminus and shares approximately 40% homology with the other MLKs overall. Expression of MLK7 mRNA is most abundant in skeletal muscle and heart, with expression restricted to the cardiac myocyte. The recombinant histidine tagged MLK7 expressed and purified from insect cells exhibited serine/threonine kinase activity in vitro with myelin basic protein as substrate. When expressed in cardiac myocytes, MLK7 activated SAPK/JNK1, and ERK and p38 to a lesser extent. Additionally, MLK7 altered fetal gene expression and increased protein synthesis in cardiac myocytes. These data suggest that MLK7 is a new member of the mixed lineage kinase family that modulates cardiac SAPK/JNK pathway and may play a role in cardiac hypertrophy and progression to heart failure.
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PMID:Tissue distribution and functional expression of a cDNA encoding a novel mixed lineage kinase. 1154 52

In this study, we report the cloning and characterization of a novel human Ste20-related kinase that we designated MST4. The 416 amino acid full-length MST4 contains an amino-terminal kinase domain, which is highly homologous to MST3 and SOK, and a unique carboxy-terminal domain. Northern blot analysis indicated that MST4 is highly expressed in placenta, thymus, and peripheral blood leukocytes. Wild-type but not kinase-dead MST4 can phosphorylate myelin basic protein in an in vitro kinase assay. MST4 specifically activates ERK but not JNK or p38 MAPK in transient transfected cells or in stable cell lines. Overexpression of dominant negative MEK1 or treatment with PD98059 abolishes MST4-induced ERK activity, whereas dominant-negative Ras or c-Raf-1 mutants failed to do so, indicating MST4 activates MEK1/ERK via a Ras/Raf-1 independent pathway. HeLa and Phoenix cell lines overexpressing wild-type, but not kinase-dead, MST4 exhibit increased growth rate and form aggressive soft-agar colonies. These phenotypes can be inhibited by PD98059. These results provide the first evidence that MST4 is biologically active in the activation of MEK/ERK pathway and in mediating cell growth and transformation.
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PMID:MST4, a new Ste20-related kinase that mediates cell growth and transformation via modulating ERK pathway. 1164 81

The mitogen-activated protein kinases (MAP kinases) play a central role in signaling pathways initiated by extracellular stimuli such as growth factors, cytokines, and various forms of environmental stress. Full activation of the MAP kinases requires dual phosphorylation of the Thr and Tyr residues in the TXY motif of the activation loop by MAP kinase kinases. Interestingly, down-regulation of MAP kinase activity can be initiated by multiple Ser/Thr phosphatases, Tyr-specific phosphatases, and dual-specificity phosphatases. This would inevitable lead to the formation of monophosphorylated MAP kinases. However, in much of the literature investigating MAP kinase signaling, there has been the implicit assumption that the monophosphorylated forms are inactive. Thus, the significance for the need of multiple phosphatases in regulating MAP kinase activity is not clear, and the biological functions of these monophosphorylated MAP kinases are currently unknown. We have prepared extracellular signal-regulated protein kinase 2 (ERK2) in all phosphorylated forms and kinetically characterized them using two proteins (the myelin basic protein and Elk-1) and ATP as substrates. Our results revealed that a single phosphorylation in the activation loop of ERK2 produces an intermediate activity state. Thus, the catalytic efficiencies of the monophosphorylated ERK2/pY and ERK2/pT (ERK2 phosphorylated on Tyr-185 and Thr-183, respectively) are approximately 2-3 orders of magnitude higher than that of the unphosphorylated ERK2 and are only 1-2 orders of magnitude lower than that of the fully active bisphosphorylated ERK2/pTpY. This raises the possibility that the monophosphorylated ERK2s may have distinct biological roles in vivo. Different phosphorylation states in the activation loop could be linked to graded effects on a single ERK2 function. Alternatively, they could be linked to distinct ERK2 functions. Although less active than the bisphosphorylated species, the monophosphorylated ERK2s may differentially phosphorylate pathway components.
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PMID:The activity of the extracellular signal-regulated kinase 2 is regulated by differential phosphorylation in the activation loop. 1183 61

The staphylococcal enterotoxin superantigens are among the most potent T cell stimulators known. They have been shown to alter the course of disease in experimental allergic encephalomyelitis, an animal model for multiple sclerosis (MS). We have previously demonstrated that two of the staphylococcal enterotoxins, SEA and SEB, are able to reactivate paralysis in PL/J mice which had been immunized with myelin basic protein (MBP) and resolved an initial episode of paralysis. In PL/J mice, Ac1-11 is the dominant encephalitogenic determinant of MBP. We hypothesized that superantigen reactivation of experimental allergic encephalomyelitis (EAE) may result in the spreading of T cell specificities for other epitopes of MBP. PL/J mice which had resolved an initial episode of EAE were treated with SEA and developed a second episode of paralysis. At the onset of symptoms, mice were sacrificed and splenocytes were stimulated in vitro with a panel of MBP peptides. EAE reactivation by SEA resulted in the spreading of T cell specificites to residues 100 to 120 of MBP. While intramolecular spreading did occur, spreading to other antigens did not, as evidenced by the lack of response to a proteolipid protein (PLP) peptide and heat shock protein 60 (hsp 60). To further characterize the epitope MBP 100-120, PL/J mice were immunized with MBP 100-120. No initial development of disease was observed. However, administration of SEA 2 weeks after MBP 100-120 immunization resulted in the onset of paralysis. In addition to a proliferative response to MBP 100-120, these mice also exhibited a proliferative response to the flanking MBP peptides 81-100 and 120-140. Thus, SEA is able to induce intramolecular epitope spreading in PL/J mice after reactivation of EAE.
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PMID:Intramolecular epitope spreading induced by staphylococcal enterotoxin superantigen reactivation of experimental allergic encephalomyelitis. 1188 Jan 46

We have identified a novel dual-specificity phosphatase (DSP), called LDP-2 (low-molecular-mass DSP-2), composed of 220 amino acid residues showing high sequence homology to VHR and LDP-1/TMDP, which belong to a family of DSPs with low molecular masses. The LDP-2 gene is ubiquitously expressed, and LDP-2 is localized in the cytoplasm. The main structural feature of LDP-2 is that the serine-156 residue located in the common active site sequence motif, HCXXGXXRS, for DSP is naturally substituted with an alanine residue. The recombinant LDP-2 protein showed extremely low phosphatase activity towards p-nitrophenyl phosphate (pNPP). Back-mutation of Ala-156 in LDP-2 to a serine (A156S mutation) conferred significant phosphatase activity towards pNPP. However, both LDP-2 and LDP-2 (A156S) exhibited substantial phosphatase activities towards both phospho-seryl/threonyl and -tyrosyl residues of myelin basic protein, with similar specific activities. Ala-156 of LDP-2 might be crucially involved in the recognition of a physiological substrate. We analyzed the effect of VHR and LDP-2 on mitogen-activated protein kinases (MAPKs) in vivo. We first found that VHR inhibits the activation of p38 as well as ERK and JNK, with similar efficiency. Under the conditions used, LDP-2 specifically suppressed JNK activation.
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PMID:A novel low-molecular-mass dual-specificity phosphatase, LDP-2, with a naturally occurring substitution that affects substrate specificity. 1220 17

The selective RNA-binding protein QKI is essential for myelination in the central nervous system (CNS). QKI belongs to the family of signal transduction activators of RNA (STARs), characteristic of binding RNA and signaling molecules, therefore is postulated to regulate RNA homeostasis in response to developmental signals. Here we report that QKI acts downstream of the Src family protein tyrosine kinases (Src-PTKs) during CNS myelination. QKI selectively interacted with the mRNA encoding the myelin basic protein (MBP). Such interaction stabilized MBP mRNA and was required for the rapid accumulation of MBP mRNA during active myelinogenesis. We found that the interaction between QKI and MBP mRNA was negatively regulated by Src-PTK-dependent phosphorylation of QKI. During early myelin development, tyrosine phosphorylation of QKI in the developing myelin drastically declined, presumably leading to enhanced interactions between QKI and MBP mRNA, which was associated with the rapid accumulation of MBP mRNA and accelerated myelin production. Therefore, developmental regulation of Src-PTK-dependent tyrosine phosphorylation of QKI suggests a novel mechanism for accelerating CNS myelinogenesis via regulating mRNA metabolism.
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PMID:Tyrosine phosphorylation of QKI mediates developmental signals to regulate mRNA metabolism. 1268 13

The receptor for advanced glycation end-products (RAGE)-mediated cellular activation through the mitogen-activated protein kinase (MAPK) cascade, activation of NF-kappaB and Rho family small G-proteins, cdc42/Rac, is implicated in the pathogenesis of inflammatory disorders and tumor growth/metastasis. However, the precise molecular mechanisms for the initiation of cell signaling by RAGE remain to be elucidated. In this study, proteins which directly bind to the cytoplasmic C-terminus of RAGE were purified from rat lung extracts using an affinity chromatography technique and identified to be extracellular signal-regulated protein kinase-1 and -2 (ERK-1/2). Their interactions were confirmed by immunoprecipitation of ERK-1/2 from RAGE-expressing HT1080 cell extracts with anti-RAGE antibody. Furthermore, the augmentation of kinase activity of RAGE-bound ERK upon the stimulation of cells with amphoterin was demonstrated by determining the phosphorylation level of myelin basic protein, an ERK substrate. In vitro binding studies using a series of C-terminal deletion mutants of human RAGE revealed the importance of the membrane-proximal cytoplasmic region of RAGE for the direct ERK-RAGE interaction. This region contained a sequence similar to the D-domain, a ERK docking site which is conserved in some ERK substrates including MAPK-interacting kinase-1/2, mitogen- and stress-activated protein kinase-1, and ribosomal S6 kinase. These data suggest that ERK may play a role in RAGE signaling through direct interaction with RAGE.
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PMID:The receptor for advanced glycation end-products (RAGE) directly binds to ERK by a D-domain-like docking site. 1293 95

Preconditioning (PC) exhibits earlier and delayed protection. But the mechanism of cellular signaling in delayed protection of PC remains unclear. We explored the roles of ERK(1/2) and p38 MAPK(alpha/beta) (p38(alpha/beta)) in delayed protection of anoxia preconditioning (APC). The anoxia/reoxygenation (A/R) injury and APC models were established in cultured neonatal rat cardiomyocytes. An ERK(1/2) inhibitor (PD98059) and a p38(alpha/beta) blocker (SB203580) were applied and their effects on A/R and APC models were observed. The cellular contents of MDA, SOD, cell viability and LDH release was measured at the end of the study. ERK(1/2) and p38 MAPK total activity was measured by in-gel myelin basic protein phosphorylation assay at different points during sustained anoxia. The results obtained are as follows: (1) PD98059 (but not SB203580), administered in preconditioning anoxia phase in APC group, abolished completely the delayed protection of APC; (2) SB203580 administered in sustained anoxia phase in A/R group could relieve cell injury induced by anoxia, but not by PD98059; (3) the highest activity of ERK(1/2) and p38 MAPK induced by anoxia appeared at 4 h after the beginning of sustained anoxia. APC inhibited the over activation of both ERK(1/2) and p38 during the following sustained anoxia. These results suggest that ERK(1/2) activation during preconditioning may be an important link of cell signal transduction in the mechanism of APC delayed protection. p38(alpha/beta) activation at the preconditioning stage dose not participate in signaling of APC delayed protection. The excessive activation of p38(alpha/beta) is possibly a key factor in mediating cell injury induced by sustained anoxia. The inhibition of p38(alpha/beta) excessive activation during subsequent sustained anoxia might play a role in delayed protection mechanism of APC.
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PMID:[Different roles of ERK(1/2) and p38 MAPK(alpha/beta) in cellular signaling during cardiomyocyte anoxia preconditioning]. 1293 27

The catalytic and signaling activities of RET, a receptor-type tyrosine kinase, are regulated by the autophosphorylation of several tyrosine residues in the cytoplasmic region of RET. Some studies have revealed a few possible autophosphorylation sites of RET by [(32)P]phosphopeptide mapping or by using specific anti-phosphotyrosine antibodies. To ultimately identify these and other autophosphorylation sites of RET, we performed mass spectrometry analysis of an originally prepared RET recombinant protein. Both the autophosphorylation and kinase activity of myelin basic protein as an external substrate of the recombinant RET protein were substantially elevated in the presence of ATP without stimulation by a glial cell line-derived neurotrophic factor, a natural ligand for RET. Mass spectrometric analysis revealed that RET Tyr(806), Tyr(809), Tyr(900), Tyr(905), Tyr(981), Tyr(1062), Tyr(1090), and Tyr(1096) were autophosphorylation sites. Levels of autophosphorylation and kinase activity of RET-MEN2A (multiple endocrine neoplasia 2A), a constitutively active form of RET with substitution of Tyr(900) by phenylalanine (Y900F), were comparable with those of original RET-MEN2A, whereas those of the mutant Y905F were greatly decreased. Interestingly, those of a double mutant, Y900F/Y905F, were completely abolished. Both the kinase activity and transforming activity were impaired in the mutants Y806F and Y809F. These results provide convincing evidence for both previously suggested and new tyrosine autophosphorylation sites of RET as well as for novel functions of Tyr(806), Tyr(809), and Tyr(900) phosphorylation in both catalytic kinase activities and cell growth. The significance of the identified autophosphorylation sites in various protein-tyrosine kinases registered in a data base is discussed in this paper.
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PMID:Identification of RET autophosphorylation sites by mass spectrometry. 1471 13

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