Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Our laboratory has found that the 154aa RING finger protein 11 (RNF11), has modular domains and motifs including a RING-H2 finger domain, a PY motif, an ubiquitin interacting motif (UIM), a 14-3-3 binding sequence and an AKT phosphorylation site. RNF11 represents a unique protein with no other known immediate family members yet described. Comparative genetic analysis has shown that RNF11 is highly conserved throughout evolution. This may indicate a conserved and non-redundant role for the RNF11 protein. Molecular binding assays using RNF11 have shown that RNF11 has important roles in growth factor signalling, ubiquitination and transcriptional regulation. RNF11 has been shown to interact with HECT-type E3 ubiquitin ligases Nedd4, AIP4, Smurf1 and Smurf2, as well as with Cullin1, the core protein in the multi-subunit SCF E3 ubiquitin ligase complex. Work done in our laboratory has shown that RNF11 is capable of antagonizing Smurf2-mediated inhibition of TGFbeta signalling. Furthermore, RNF11 is capable of degrading AMSH, a positive regulator of both TGFbeta and EGFR signalling pathways. Recently, we have found that RNF11 can directly enhance TGFbeta signalling through a direct association with Smad4, the common signal transducer and transcription factor in the TGFbeta, BMP, and Activin pathways. Through its association with Smad4 and other transcription factors, RNF11 may have a role in direct transcriptional regulation. Our laboratory and others have found nearly 80 protein interactions for RNF11, placing RNF11 at the cross-roads of cell signalling and transcriptional regulation. RNF11 is highly expressed in breast tumours. Deregulation of RNF11 function may prove to be harmful to patient therapeutic outcomes. RNF11 may therefore provide a novel target for cancer therapeutics. The purpose of this review is to discuss the role of RNF11 in cell signalling and transcription factor modulation with special attention given to the ubiquitin-proteasomal pathway, TGFbeta pathway and EGFR pathway.
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PMID:RNF11 is a multifunctional modulator of growth factor receptor signalling and transcriptional regulation. 1622 59

Tumor cells with mutated PTEN proliferate in an EGFR-independent manner. Induction of PTEN sensitizes cells to EGFR inhibition, and the combination causes synergistic apoptosis. Synergy is due to inhibition of two parallel pathways that phosphorylate the proapoptotic protein BAD at distinct sites. Serine 112 phosphorylation is EGFR/MEK/MAPK dependent, whereas serine 136 phosphorylation is PI3K/Akt dependent. Either phosphorylation is sufficient to sequester BAD to 14-3-3. BAD is released and apoptosis is induced only if both serines are dephosphorylated in response to inhibition of both pathways. Reduction of BAD expression by RNA interference prevents apoptosis in response to pathway inhibition. Thus, BAD integrates the antiapoptotic effects of both pathways. Combined inhibition of EGFR and PI3K signaling may be a useful therapeutic strategy.
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PMID:The BAD protein integrates survival signaling by EGFR/MAPK and PI3K/Akt kinase pathways in PTEN-deficient tumor cells. 1622 4

Bim, the Bcl-2 interacting mediator of cell death, is a member of the BH3-only family of pro-apoptotic proteins. Recent studies have demonstrated that the apoptotic activity of Bim can be regulated through a post-translational mechanism whereby ERK phosphorylation serves as a signal for Bim ubiquitination and proteasomal degradation. In this report, we investigated the signaling pathways leading to Bim phosphorylation in Ba/F3 cells, an interleukin-3 (IL-3)-dependent B-cell line. IL-3 stimulation induced phosphorylation of Bim(EL), one of the predominant isoforms of Bim expressed in cells, at multiple sites, as evidenced by the formation of at least three to four bands by Western blotting that were sensitive to phosphatase digestion. The appearance of multiple, phosphorylated species of Bim(EL) correlated with Akt, and not ERK, activation. The PI3K inhibitor, LY294002, blocked IL-3-stimulated Akt activity and partially blocked Bim(EL) phosphorylation. In vitro kinase assays showed that recombinant Akt could directly phosphorylate a GST-Bim(EL) fusion protein and identified the Akt phosphorylation site in the Bim(EL) domain as Ser(87). Further, we demonstrated that cytokine stimulation promotes Bim(EL) binding to 14-3-3 proteins. Finally, we show that mutation of Ser(87) dramatically increases the apoptotic potency of Bim(EL). We propose that Ser(87) of Bim(EL) is an important regulatory site that is targeted by Akt to attenuate the pro-apoptotic function of Bim(EL), thereby promoting cell survival.
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PMID:Evidence that Ser87 of BimEL is phosphorylated by Akt and regulates BimEL apoptotic function. 1628 23

Prohibitin has been connected to diverse cellular functions including cell cycle control, senescence, apoptosis and stabilization of mitochondrial proteins. By employing a loss of function approach using siRNAs we have demonstrated an unexpected role of PHB in the activation of Raf/MEK/ERK pathway by active Ras and in modulating epithelial cell adhesion and migration. PHB directly interacts with C-Raf and is required for the displacement of 14-3-3 from C-Raf by active Ras to facilitate plasma membrane localization and activation. Further, the adherent complex proteins cadherin and beta-catenin were localized to plasma membrane suggesting stabilized adherent junctions in PHB silenced cells. Our findings demonstrated a function of PHB in the control of a central signaling pathway involved in cell growth and malignant transformation.
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PMID:Ras-Raf signaling needs prohibitin. 1629 14

The protein kinase B-RAF is mutated in approximately 7% of human cancers. Most mutations are activating, but, surprisingly, a small number have reduced kinase activity. However, the latter can still stimulate cellular signaling through the MEK-ERK pathway because they activate the related family member C-RAF. We examine the mechanism underlying C-RAF activation by B-RAF. We show that C-RAF is activated in the cytosol in a RAS-independent manner that requires activation segment phosphorylation and binding of 14-3-3 to C-RAF. We show that wild-type B-RAF forms a complex with C-RAF in a RAS-dependent manner, whereas the mutants bind independently of RAS. Importantly, we show that wild-type B-RAF can also activate C-RAF. Our data suggest that B-RAF activates C-RAF through a mechanism involving 14-3-3 mediated heterooligomerization and C-RAF transphosphorylation. Thus, we have identified a B-RAF-C-RAF-MEK-ERK cascade that signals not only in cancer but also in normal cells.
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PMID:Wild-type and mutant B-RAF activate C-RAF through distinct mechanisms involving heterodimerization. 1636 20

MAPK/ERK kinase kinase 3 (MEKK3) is a mitogen-activated protein kinase kinase kinase (MAP3K) that functions upstream of the MAP kinases and IkappaB kinase. Phosphorylation is believed to be a critical component for MEKK3-dependent signal transduction, but little is known about the phosphorylation sites of this MAP3K. To address this question, point mutations were introduced in the activation loop (T-loop), substituting alanine for serine or threonine, and the mutants were transfected into HEK293 Epstein-Barr virus nuclear antigen cells. MEKK3-dependent activation of an NF-kappaB reporter gene as well as ERK, JNK, and p38 MAP kinases correlated with a requirement for serine at position 526. Constitutively active mutants of MEKK3, consisting of S526D and S526E, were capable of activating a NF-kappaB luciferase reporter gene as well as ERK and MEK, suggesting that a negative charge at Ser526 was necessary for MEKK3 activity and implicating Ser526 as a phosphorylation site. An antibody was developed that specifically recognized phospho-Ser526 of MEKK3 but did not recognize the S526A point mutant. The catalytically inactive (K391M) mutant of MEKK3 was not phosphorylated at Ser526, indicating that phosphorylation of Ser526 occurs via autophosphorylation. Endogenous MEKK3 was phosphorylated on Ser526 in response to osmotic stress. In addition, phosphorylation of Ser526 was required for MKK6 phosphorylation in vitro, whereas dephosphorylation of Ser526 was mediated by protein phosphatase 2A and sensitive to okadaic acid and sodium fluoride. Finally, the association between MEKK3 and 14-3-3 was dependent on Ser526 and prevented dephosphorylation of Ser526. In summary, Ser526 of MEKK3 is an autophosphorylation site within the T-loop that is regulated by PP2A and 14-3-3 proteins.
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PMID:Phosphorylation of serine 526 is required for MEKK3 activity, and association with 14-3-3 blocks dephosphorylation. 1640 1

Stannin (Snn) was discovered using subtractive hybridization methodology designed to find gene products related to selective organotin toxicity and apoptosis. The cDNAs for Snn were first isolated from brain tissues sensitive to trimethyltin, and were subsequently used to localize, characterize, and identify genomic DNA, and other gene products of Snn. Snn is a highly conserved, 88 amino acid protein found primarily in vertebrates. There is a minor divergence in the C-terminal sequence between amphibians and primates, but a nearly complete conservation of the first 60 residues in all vertebrates sequenced to date. Snn is a membrane-bound protein and is localized, in part, to the mitochondria and other vesicular organelles, suggesting that both localization and conservation are significant for the overall function of the protein. The structure of Snn in a micellar environment and its architecture in lipid bilayers have been determined using a combination of solution and solid-state NMR, respectively. Snn structure comprised a single transmembrane domain (residues 10-33), a 28-residue linker region from residues 34-60 that contains a conserved CXC metal binding motif and a putative 14-3-3xi binding region, and a cytoplasmic helix (residues 61-79), which is partially embedded into the membrane. Of primary interest is understanding how this highly-conserved peptide with an interesting structure and cellular localization transmits both normal and potentially toxic signals within the cell. Evidence to date suggests that organotins such as trimethyltin interact with the CXC region of Snn, which is vicinal to the putative 14-3-3 binding site. In vitro transfection analyses and microarray experiments have inferred a possible role of Snn in several key signaling systems, including activation of the p38-ERK cascade, p53-dependent pathways, and 14-3-3xi protein-mediated processes. TNFalpha can induce Snn mRNA expression in endothelial cells in a PKC-epsilon dependent manner. Studies with Snn siRNA suggest that this protein may be involved in growth regulation, since inhibition of Snn expression alone leads to reduced endothelial cells growth and induction of COP-1, a negative regulator of p53 function. A key piece of the puzzle, however, is how and why such a highly-conserved protein, localized to mitochondria, interacts with other regulatory proteins to alter growth and apoptosis. By knowing the structure, location, and possible signaling pathways involved, we propose that Snn constitutes an important sensor of mitochondrial damage, and plays a key role in the mediation of cross-talk between mitochondrial and nuclear compartments in specific cell types.
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PMID:Functional and structural properties of stannin: roles in cellular growth, selective toxicity, and mitochondrial responses to injury. 1645 79

The Cdc25C phosphatase is a key regulator of mitotic entry which activity is tightly regulated by phosphorylation. In response to DNA damage, phosphorylation at serine 216 induces the cytosolic retention of Cdc25C through 14-3-3 binding. We previously reported the ability of the p14ARF tumor suppressor to induce the accumulation of inactive phospho-Cdc25C(Ser216) protein as well as a decrease of Cdc25C steady state level and correlated these events with a p53-independent G2 arrest. The aim of this study was to investigate the cellular signaling pathways involved in this process. By using specific pharmacological inhibitors, we demonstrate that activation of the ERK1/2 MAP kinases pathway is involved in the p53-independent G2 checkpoint induced by p14ARF Moreover, we show that activated P-ERK1/2 bind and phosphorylate Cdc25C on its ser216 residue following p14ARF expression, thereby identifying Cdc25C as a new ERK1/2 target. Importantly, we further show that phosphorylation at Ser216 by phospho-ERK1/2 promotes Cdc25C ubiquitination and proteasomal degradation, suggesting that Cdc25C proteolysis is required for a sustained G2 arrest in response to p14ARF. Taken together, these results demonstrate that the MAPK ERK signaling pathway contributes to the p53-independent antiproliferative functions of p14ARF. Furthermore, they identify a new mechanism by which phosphorylation at serine 216 participates to Cdc25C inactivation.
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PMID:p14ARF triggers G2 arrest through ERK-mediated Cdc25C phosphorylation, ubiquitination and proteasomal degradation. 1658 26

Activation of the epidermal growth factor receptor (EGFR) and/or its family member(s) stimulates many processes of carcinogenesis, including cell invasion and the formation of new blood vessels, events that are critically involved in angiogenesis. Interference with the activation of EGFRs, therefore, represents a promising strategy for the development of novel and selective anticancer therapies. Previously, we reported that EGFR-related protein (ERRP), which we have isolated and characterized as a pan-erbB inhibitor, is a potential therapeutic agent for colorectal and other epithelial cancers. The present investigation was undertaken to determine whether ERRP would affect the invasion of colon cancer cells and formation of tubules, and the regulation of these processes. ERRP inhibited tubule formation by aortic endothelial cells and invasion of HCT-116 colon cancer cells through matrigel. These changes were associated with marked reductions in the synthesis and secretion of bFGF, VEGF and TGF-alpha by HCT-116 cells. Secretion of bFGF and VEGF by aortic endothelial cells was also inhibited by ERRP. Microarray analysis of ERRP-treated HCT-116 cells showed reduced levels of several growth regulatory proteins such as p21Rac1, Stratifin (14-3-3 Sigma), focal adhesion kinase (FAK) and mediators of the Ras-Raf-ERK pathway. ERRP treatments resulted in reduced expression of p21Rac1 and inhibited the constitutive activation of FAK and MEK2 in HCT-116 cells. Transfection of constitutively activate p21Rac1 or MEK2 into HCT-116 cells abrogated ERRP-induced inhibition of growth. In summary, it was demonstrated that ERRP not only inhibits cell growth, but also the processes of cell invasion and blood vessel formation that are critical for the development and progression of carcinogenesis.
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PMID:EGF receptor-related protein (ERRP) inhibits invasion of colon cancer cells and tubule formation by endothelial cells in vitro. 1661 3

Estradiol prevents neuronal cell death through the activation of cell survival signals and the inhibition of apoptotic signals. This study investigated whether estradiol modulates the anti-apoptotic signal through the activation of Raf-MEK-ERK and its downstream targets, including 90 ribosomal S6 kinase (p90RSK) and Bad. Adult female rats were ovariectomied and treated with estradiol prior to middle cerebral artery occlusion (MCAO). Brains were collected 24h after MCAO and infarct volumes were analyzed. We confirmed that estradiol significantly reduces infarct volume and decreases the positive cells of TUNEL staining in the cerebral cortex. Estradiol prevents the injury-induced decrease of Raf-1, MEK1/2, and ERK1/2 phosphorylation. Also, it inhibits the injury-induced decrease of p90RSK and Bad phosphorylation. Further, in the presence of estradiol, the interaction of phospho-Bad and 14-3-3 increased, compared with that of oil-treated animals. Our findings suggest that estradiol prevents cell death due to brain injury and that Raf-MEK-ERK cascade activation and its downstream targets, p90RSK, Bad phosphorylation by estradiol mediated these protective effects.
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PMID:Estradiol prevents the injury-induced decrease of 90 ribosomal S6 kinase (p90RSK) and Bad phosphorylation. 1719 35


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