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 have previously identified C1 domain-containing phosphatase and TENsin homologue (C1-TEN) as being an intracellular binding partner for Axl receptor tyrosine kinase (RTK). C1-TEN is a tensin-related protein that houses an N-terminal region with predicted structural similarity to PTEN. Here, we report our observations on the effects of ectopic expression of C1-TEN in HEK293 cells, which resulted in profound molecular and phenotypic changes. Stable expression of C1-TEN altered cellular morphology, with less cell spreading and weaker filamentous actin staining. Cells overexpressing C1-TEN were inhibited greatly in their proliferation and migration rates as compared with mock-transfected cells. Furthermore, serum starvation-induced apoptosis caused a twofold increase in caspase 3 activity in C1-TEN-overexpressing cells vs. mock cells. In addition, C1-TEN-overexpressing cells showed a markedly reduced phosphorylation of Akt/PKB kinase and its substrate GSK3, as well as reduced Akt enzymatic activity. No such effects on JNK were observed. Also, serum-stimulated activation of Akt was delayed in C1-TEN-overexpressing cells, while no difference in profile of ERK activation was observed. Furthermore, cells expressing a C1-TEN mutant where the putative phosphatase active site cysteine at position 231 was substituted for a serine displayed full restoration of both cell proliferation and Akt activation. In conclusion, C1-TEN appears to be a novel intracellular phosphatase that negatively regulates the Akt/PKB signaling cascade, and is similar to its relative PTEN in this respect. However, the particular domain organization of C1-TEN may enable it to regulate RTK and other signaling complexes that are linked to Akt/PKB signaling in a unique manner.
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PMID:C1-TEN is a negative regulator of the Akt/PKB signal transduction pathway and inhibits cell survival, proliferation, and migration. 1581 39

As experimental evidence suggests that leptin may have direct effects on peripheral tissues, we investigated some of the transductional molecules induced by leptin in C2C12 cells. In immunoprecipitation experiments using anti-p85 antibodies (a regulatory subunit of phosphatidylinositol-3-kinase; PI3K), we observed a significant increase in PI3K activity. Immunoblot analyses showed that Akt, GSK3, ERK1, ERK2, and p38 mitogen-activated protein kinase (p38 MAPK) phosphorylation significantly increased after leptin treatment. Protein kinase C (PKC)-zeta was also activated by leptin, as documented by an immunocomplex kinase assay and immunoblotting experiments. The treatment of C2C12 cells with Wortmannin before leptin administration inhibited induction of the phosphorylation of ERKs (extracellular signal-regulated kinases) but not that of p38 MAPK, whereas pre-treatment with a PKC-zeta inhibitor partially decreased ERK phosphorylation. Taken together, our in vitro results further support the hypothesis that leptin acts acutely on skeletal muscle tissue through some of the components of insulin signalling, including PKC-zeta.
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PMID:Intracellular signal transduction pathways induced by leptin in C2C12 cells. 1597 10

Complications of diabetes mellitus within the nervous system are peripheral and central neuropathy. In peripheral neuropathy, defects in neurofilament and microtubules have been demonstrated. In this study, we examined the effects of insulin deficiency within the brain in insulin knockout mice (I-/-). The I-/- exhibited hyperphosphorylation of tau, at threonine 231, and neurofilament. In addition, we showed hyperphosphorylation of c-Jun N-terminal kinase (JNK) and glycogen synthase kinase 3 beta (GSK-3 beta) at serine 9. Extracellular signal-regulated kinase 1 (ERK 1) showed decrease in phosphorylation, whereas ERK 2 showed no changes. Ultrastructural examination demonstrated swollen mitochondria, endoplasmic reticulum, and Golgi apparatus, and dispersion of the nuclear chromatin. Microtubules showed decrease in the number of intermicrotubule bridges and neurofilament presented as bunches. Thus, lack of insulin brain stimulation induces JNK hyperphosphorylation followed by hyperphosphorylation of tau and neurofilament, and ultrastructural cellular damage, that over time may induce decrease in cognition and learning disabilities.
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PMID:The effect of insulin deficiency on tau and neurofilament in the insulin knockout mouse. 1603 5

Viruses have been known to subvert the anti-apoptotic pathways of the host cell in order to delay apoptosis. However, the mechanisms utilized by enterovirus 71 (EV71) to mediate anti-apoptotic activity remained undetermined. We observed that EV71 infection induced an early activation of both phosphatidylinositol 3-kinase (PI3K)/Akt and MAPK/ERK signaling pathways. The activity of GSK3beta, a downstream target of these pathways, was negatively regulated by the activation of both MAPK/ERK and PI3K/Akt. The phosphorylation of GSK3 could be inhibited by treatment with the specific inhibitors of MAPK/ERK and PI3K/Akt. Other Akt downstream targets, BAD, caspase-9 and the Forkhead transcription factor (FKHR), were not phosphorylated during the course of infection by EV71. We further demonstrated that infection by UV-irradiated, inactivated virus triggered early Akt activation but was insufficient to trigger late Akt activation. These data suggest that with the phosphorylation of MAPK/ERK and PI3K/Akt the subsequent inactivation of GSK3beta is utilized by EV71 as a potential mechanism to delay host cell apoptosis.
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PMID:Phosphorylation of PI3K/Akt and MAPK/ERK in an early entry step of enterovirus 71. 1615 Apr 62

Inappropriate activation of MET, the receptor tyrosine kinase for hepatocyte growth factor (HGF), has been implicated in tumorigenesis. Although we have previously shown that HGF/MET signaling controls survival and proliferation of multiple myeloma (MM), its role in the pathogenesis of other B-cell malignancies has remained largely unexplored. Here, we have examined a panel of 110 B-cell malignancies for MET expression, which, apart from MM (48%), was found to be largely confined to diffuse large B-cell lymphomas (DLBCLs) (30%). No amplification of the MET gene was found; however, mutational analysis revealed 2 germ-line missense mutations: R1166Q in the tyrosine kinase domain in 1 patient, and R988C in the juxtamembrane domain in 4 patients. The R988C mutation has recently been shown to enhance tumorigenesis. In MET-positive DLBCL cells, HGF induces MEK-dependent activation of ERK and PI3K-dependent phosphorylation of PKB, GSK3, and FOXO3a. Furthermore, HGF induces PI3K-dependent alpha4beta1 integrin-mediated adhesion to VCAM-1 and fibronectin. Within the tumor microenvironment of DLBCL, HGF is provided by macrophages, whereas DLBCL cells themselves produce the serine protease HGF activator (HGFA), which autocatalyzes HGF activation. Taken together, these data indicate that HGF/MET signaling, and secretion of HGFA by DLBCL cells, contributes to lymphomagenesis in DLBCL.
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PMID:Functional analysis of HGF/MET signaling and aberrant HGF-activator expression in diffuse large B-cell lymphoma. 1618 74

Glycogen synthase kinase (GSK)-3 was identified initially as an enzyme that regulates glycogen synthesis in response to insulin, but more recent studies indicate that it is also involved in numerous cellular processes, including cell survival, cell cycle regulation, proliferation, and differentiation. Because extracellular ATP exerts trophic actions on astrocytes, we investigated a possible signaling linkage from P2 purinergic receptors to GSK3beta. Addition of ATP to primary cultures of rat cortical astrocytes resulted in phosphorylation of Ser9 on GSK3beta and a concomitant decrease in GSK3 activity. UTP and 2',3'-O-(4-benzoyl)-benzoyl ATP (BzATP) increased phosphorylation of Ser9 on GSK3beta indicating that metabotropic P2Y and ionotropic P2X receptors are coupled to GSK3beta. Signaling studies showed that phosphorylation of Ser9-GSK3beta in response to ATP was inhibited by downregulation of protein kinase C (PKC) but not by blockade of Akt or p70 S6 kinase pathways. PKC also links P2 receptors to ERK in astrocytes, but inhibition of ERK signaling did not block phosphorylation of Ser9-GSK3beta stimulated by P2 receptors. Mechanical strain, which releases ATP, also stimulated Ser9 phosphorylation and this was attenuated by hydrolysis of extracellular ATP with apyrase or by blockade of P2 receptors. We conclude that P2 receptors are coupled to GSK3beta by a PKC-dependent pathway that is independent of Akt, p70 S6 kinase, and ERK pathways. These findings suggest that purinergic signaling contributes to the regulation of GSK3beta functions, one of which may be the response of astrocytes to CNS injury on release of ATP.
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PMID:P2 purinergic receptors signal to glycogen synthase kinase-3beta in astrocytes. 1681 Jun 87

Protein phosphatase-1 (PP1) is an essential protein Ser/Thr phosphatase that is extraordinarily conserved from yeast to human, and Inhibitor-2 (I-2) is the most ancient of the heat-stable proteins specific for PP1. We identified novel I-2 homologues in Caenorhabditis elegans (Ce) and Xenopus laevis (Xe) and compared them to the I-2 proteins from Homo sapiens (Hs), Saccharomyces cerevisiae (GLC8), and Drosophila melanogaster (Dm). The Ce I-2 and Dm I-2 showed the highest potency inhibition of rabbit PP1 with IC50 near 5 nM compared to Hs I-2 and Xe I-2 with IC50 between 10 and 50 nM and GLC8 with >100-fold lower activity. Inhibition of PP1 bound to Nek2 kinase activated the kinase to phosphorylate a C-Nap1 domain substrate. All the species of I-2 except GLC8 activated the Nek2::PP1 to the same extent as microcystin-LR. Only Hs I-2 and Xe I-2, not the I-2 proteins more divergent in sequence, directly activated human Aurora-A kinase. Various species of I-2 have a common PxTP phosphorylation site that showed a wide range of reactivity with GSK3, ERK, or CDC2/cyclinB1 kinases. The Suc1 subunit of CDC2/cyclinB1 enhanced reactivity with I-2, consistent with this being a site of mitotic phosphorylation. The results show species specificity among the I-2 family within the context of conserved PP1 inhibitory activity and variable phosphorylation by Pro-directed kinases.
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PMID:Phosphorylation and functions of inhibitor-2 family of proteins. 1728 90

Valproic acid (2-propyl pentanoic acid) is a drug used for the treatment of epilepsy and bipolar disorder. Although very rare, side effects such as spina bifida and other defects of neural tube closure indicate that valproic acid interferes with developmental regulatory pathways. Recently obtained data show that valproic acid affects cell growth, differentiation, apoptosis and immunogenicity of cultured cancer cells and tumours. Focused studies uncovered the potential of valproic acid to interfere with multiple regulatory mechanisms including histone deacetylases, GSK3 alpha and beta, Akt, the ERK pathway, the phosphoinositol pathway, the tricarboxylic acid cycle, GABA, and the OXPHOS system. Valproic acid is emerging as a potential anticancer drug and may also serve as a molecular lead that can help design drugs with more specific and more potent effects on the one side and drugs with wide additive but weaker effects on the other. Valproic acid is thus a powerful molecular tool for better understanding and therapeutic targeting of pathways that regulate the behaviour of cancer cells.
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PMID:Valproic acid, a molecular lead to multiple regulatory pathways. 1744 93

Constitutive activation of MEK-ERK signaling is often found in melanomas. Here, we identify a mechanism that links ERK with JNK signaling in human melanoma. Constitutively active ERK increases c-Jun transcription and stability, which are mediated by CREB and GSK3, respectively. Subsequently, c-Jun increases transcription of target genes, including RACK1, an adaptor protein that enables PKC to phosphorylate and enhance JNK activity, enforcing a feed-forward mechanism of the JNK-Jun pathway. Activated c-Jun is also responsible for elevated cyclin D1 expression, which is frequently overexpressed in human melanoma. Our data reveal that, in human melanoma, the rewired ERK signaling pathway upregulates JNK and activates the c-Jun oncogene and its downstream targets, including RACK1 and cyclin D1.
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PMID:Rewired ERK-JNK signaling pathways in melanoma. 1748 34

The antiapoptotic BCL2 family member MCL1 is normally up- and down-modulated in response to environmental signals and conditions, but is constitutively expressed in cancer where it promotes cell survival and drug resistance. A post-translational modification identified here, truncation at the N terminus, was found to act along with previously described ERK- and GSK3-induced phosphorylation events to regulate the turnover of the MCL1 protein and thus its availability for antiapoptotic effects. Although both N-terminally truncated and full-length MCL1 contain sequences enriched in proline, glutamic acid, serine, and threonine and were susceptible to proteasomal degradation, the truncated form decayed less rapidly and was maintained for an extended period in the presence of ERK activation. This was associated with extended cell survival because the truncated form of MCL1 (unlike those of BCL2 and BCLX) retained antiapoptotic activity. N-terminal truncation slightly increased the electrophoretic mobility of MCL1 and differed from the phosphorylation/band shift to decreased mobility, which occurs in the G2/M phase and was not found to affect MCL1 turnover. The N-terminally truncated form of MCL1 was expressed to varying extents in normal lymphoid tissues and was the predominant form present in lymphomas from transgenic mice and human tumor lines of B-lymphoid origin. The degradation versus stabilized expression of antiapoptotic MCL1 is thus controlled by N-terminal truncation as well as by ERK- and GSK3 (but not G2/M)-induced phosphorylation. These modifications may contribute to dysregulated MCL1 expression in cancer and represent targets for promoting its degradation to enhance tumor cell death.
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PMID:N-terminal truncation of antiapoptotic MCL1, but not G2/M-induced phosphorylation, is associated with stabilization and abundant expression in tumor cells. 1756 13

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