EC:2.7.12.2 - FACTA Search

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Query: EC:2.7.12.2 (MEK)
18,161 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Activation of Jun N-kinase (JNK) and NF-kappaB transcription factor are the hallmarks of cellular response to stress. Phosphorylation of NF-kappaB inhibitor (IkappaB) by respective stress-inducible kinases (IKK) is a key event in NF-kappaB activation. beta-TrCP F-box protein mediates ubiquitination of phosphorylated IkappaB via recruitment of SCF(beta-TrCP)-Roc1 E3 ubiquitin ligase complex. Subsequent proteasome-dependent degradation of IkappaB results in activation of the NF-kappaB pathway. We found that a variety of cellular stress stimuli induce an increase in the steady state levels of beta-TrCP mRNA and protein levels in human cells. Activation of stress-activated protein kinases JNK (and, to a lesser extent, p38) by forced expression of constitutively active mutants of JNKK2 and MKK6 (but not MEK1 or IKKbeta) also leads to accumulation of beta-TrCP. Transcription of the beta-TrCP gene is not required for JNK-mediated induction of beta-TrCP. A synergistic effect of stimulation of IKK and JNK on the transcriptional activity of NF-kappaB was observed. The mechanisms of beta-TrCP induction via stress and its role in NF-kappaB activation are discussed.
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PMID:Induction of beta-transducin repeat-containing protein by JNK signaling and its role in the activation of NF-kappaB. 1137 88

The signal transduction cascade comprising Raf, mitogen-activated protein (MAP) kinase kinase (MEK) and MAP kinase is a Ras effector pathway that mediates diverse cellular responses to environmental cues and contributes to Ras-dependent oncogenic transformation. Here we report that the Ras effector protein Impedes Mitogenic signal Propagation (IMP) modulates sensitivity of the MAP kinase cascade to stimulus-dependent activation by limiting functional assembly of the core enzymatic components through the inactivation of KSR, a scaffold/adaptor protein that couples activated Raf to its substrate MEK. IMP is a Ras-responsive E3 ubiquitin ligase that, on activation of Ras, is modified by auto-polyubiquitination, which releases the inhibition of Raf-MEK complex formation. Thus, Ras activates the MAP kinase cascade through simultaneous dual effector interactions: induction of Raf kinase activity and derepression of Raf-MEK complex formation. IMP depletion results in increased stimulus-dependent MEK activation without alterations in the timing or duration of the response. These observations suggest that IMP functions as a threshold modulator, controlling sensitivity of the cascade to stimulus and providing a mechanism to allow adaptive behaviour of the cascade in chronic or complex signalling environments.
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PMID:Ras regulates assembly of mitogenic signalling complexes through the effector protein IMP. 1472 41

Synapses display a stereotyped ultrastructural organization, commonly containing a single electron-dense presynaptic density surrounded by a cluster of synaptic vesicles. The mechanism controlling subsynaptic proportion is not understood. Loss of function in the C. elegans rpm-1 gene, a putative RING finger/E3 ubiquitin ligase, causes disorganized presynaptic cytoarchitecture. RPM-1 is localized to the presynaptic periactive zone. We report that RPM-1 negatively regulates a p38 MAP kinase pathway composed of the dual leucine zipper-bearing MAPKKK DLK-1, the MAPKK MKK-4, and the p38 MAP kinase PMK-3. Inactivation of this pathway suppresses rpm-1 loss of function phenotypes, whereas overexpression or constitutive activation of this pathway causes synaptic defects resembling rpm-1(lf) mutants. DLK-1, like RPM-1, is localized to the periactive zone. DLK-1 protein levels are elevated in rpm-1 mutants. The RPM-1 RING finger can stimulate ubiquitination of DLK-1. Our data reveal a presynaptic role of a previously unknown p38 MAP kinase cascade.
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PMID:Regulation of a DLK-1 and p38 MAP kinase pathway by the ubiquitin ligase RPM-1 is required for presynaptic development. 1570 98

The E3 ubiquitin ligase IMP (impedes mitogenic signal propagation) was isolated as a novel Ras effector that negatively regulates ERK1/2 activation. Current evidence suggests that IMP limits the functional assembly of Raf/MEK complexes by inactivation of the KSR1 adaptor/scaffold protein. Interaction with Ras-GTP stimulates IMP autoubiquitination to relieve limitations on KSR function. The elevated sensitivity of IMP-depleted cells to ERK1/2 pathway activation suggests IMP acts as a signal threshold regulator by imposing reversible restrictions on the assembly of functional Raf/MEK/ERK kinase modules. These observations challenge commonly held concepts of signal transmission by Ras to the MAPK pathway and provide evidence for the role of amplitude modulation in tuning cellular responses to ERK1/2 pathway engagement. Here we describe details of the methods, including RNA interference, ubiquitin ligase assays, and protein complex analysis, that can be used to display the Ras-sensitive contribution of IMP to KSR-dependent modulation of the Raf/MEK/ERK pathway.
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PMID:Ras-sensitive IMP modulation of the Raf/MEK/ERK cascade through KSR1. 1675 28

Interferon alpha (IFNalpha) is widely used in treatment of malignant melanoma patients. This cytokine acts on cells by engaging Type I IFN receptor consisting of two subunits, (IFNAR1 and IFNAR2) followed by activation of Janus kinases (Jak). Levels of IFNAR1 (regulated via degradation mediated by the betaTrcp E3 ubiquitin ligase) and IFNalpha signaling were reduced in 1205Lu melanoma cell line that harbors activated BRAF and exhibits high levels of betaTrcp ubiquitin ligase. Expression of stabilized IFNAR1 in melanoma cells decreased their tumorigenicity. Furthermore, RNAi-mediated BRAF knockdown and pharmacologic inhibition of either Raf or MEK1 decreased levels of betaTrcp and stabilized IFNAR1. However, despite causing stabilization of IFNAR1, Raf inhibitor BAY 43-9006 interfered with cellular responses to IFNalpha most likely due to its ability to directly inhibit Jak activity. We discuss the implications of this result for combination therapy with BAY 43-9006 and IFNalpha in melanoma patients.
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PMID:Raf inhibitor stabilizes receptor for the type I interferon but inhibits its anti-proliferative effects in human malignant melanoma cells. 1787 16

Determining the underlying mechanisms of macrophage colony-stimulating factor (M-CSF)-mediated osteoclast survival may be important in identifying novel approaches for treating excessive bone loss. This study investigates M-CSF-mediated MEK/ERK activation and identifies a downstream effector of this pathway. M-CSF activates MEK/ERK and induces MEK-dependent expression of the immediate early gene Egr2. Inhibition of either MEK1/2 or inhibition of Egr2 increases osteoclast apoptosis. In contrast, wild-type Egr2 or an Egr2 point mutant unable to bind the endogenous repressors Nab1/2 (caEgr2) suppresses basal osteoclast apoptosis and rescues osteoclasts from apoptosis induced by MEK1/2 or Egr2 inhibition. Mechanistically, Egr2 induces pro-survival Blc2 family member Mcl1 while stimulating proteasome-mediated degradation of pro-apoptotic Bim. In addition, Egr2 increased the expression of c-Cbl, the E3 ubiquitin ligase that catalyzes Bim ubiquitination. M-CSF, therefore, promotes osteoclast survival through MEK/ERK-dependent induction of Egr2 to control the Mcl1/Bim ratio, documenting a novel function of Egr2 in promoting survival.
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PMID:Novel pro-survival functions of the Kruppel-like transcription factor Egr2 in promotion of macrophage colony-stimulating factor-mediated osteoclast survival downstream of the MEK/ERK pathway. 1819 76

Recent genetic studies have documented a pivotal growth-regulatory role played by the Cullin 7 (CUL7) E3 ubiquitin ligase complex containing the Fbw8-substrate-targeting subunit, Skp1, and the ROC1 RING finger protein. In this report, we identified insulin receptor substrate 1 (IRS-1), a critical mediator of the insulin/insulin-like growth factor 1 signaling, as a proteolytic target of the CUL7 E3 ligase in a manner that depends on mammalian target of rapamycin and the p70 S6 kinase activities. Interestingly, while embryonic fibroblasts of Cul7-/- mice were found to accumulate IRS-1 and exhibit increased activation of IRS-1's downstream Akt and MEK/ERK pathways, these null cells grew poorly and displayed phenotypes reminiscent of those associated with oncogene-induced senescence. Taken together, our findings demonstrate a key role for the CUL7 E3 in targeting IRS-1 for degradation, a process that may contribute to the regulation of cellular senescence.
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PMID:The CUL7 E3 ubiquitin ligase targets insulin receptor substrate 1 for ubiquitin-dependent degradation. 1849 45

The CRAF protein kinase regulates proliferative, differentiation, and survival signals from activated RAS proteins to downstream effectors, most often by inducing MEK/ERK activation. A well-established model of CRAF regulation involves RAS-mediated translocation of CRAF to the plasma membrane, where it is activated by a series of events including phosphorylation. Here we have discovered a new mode of regulation that occurs prior to this step. By creating a kinase-defective version of CRAF in mice or by use of the RAF inhibitor sorafenib, we show that CRAF must first undergo autophosphorylation of serine 621 (S621). Autophosphorylation occurs in cis, does not involve MEK/ERK activation, and is essential to ensure the correct folding and stability of the protein. In the absence of S621 phosphorylation, CRAF is degraded by the proteasome by mechanisms that do not uniquely rely on the E3 ubiquitin ligase CHIP.
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PMID:CRAF autophosphorylation of serine 621 is required to prevent its proteasome-mediated degradation. 1892 68

Selective protein degradation is a key regulator of neuronal development and synaptogenesis. Complexes that target proteins for degradation often contain F-box proteins. Here we characterize MEC-15, an F-box protein with WD repeats, which is required for the development and function of Caenorhabditis elegans touch receptor neurons (TRNs). Mutations in mec-15 produce defects in TRN touch sensitivity, chemical synapse formation, and cell-body morphology. All mec-15 mutant phenotypes are enhanced by mutations in a MAP kinase pathway composed of the MAPKKK DLK-1, the MAPKK MKK-4, and the p38 MAPK PMK-3. A mutation of the rpm-1 gene, which encodes an E3 ubiquitin ligase that negatively regulates this pathway to promote synaptogenesis, suppresses only the mec-15 cell-body defect. Thus, MEC-15 acts in parallel with RPM-1, implicating a second protein degradation pathway in TRN development. In addition, all mec-15 phenotypes can be dominantly suppressed by mutations in mec-7, which encodes a beta-tubulin, and dominantly enhanced by mutations in mec-12, which encodes an alpha-tubulin. Since mec-15 phenotypes depend on the relative levels of these tubulins, MEC-15 may target proteins whose function is affected by these levels.
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PMID:mec-15 encodes an F-box protein required for touch receptor neuron mechanosensation, synapse formation and development. 1965 81

Cells exposed to environmental stress rapidly activate the MAPK cascade (MKKK/MKK/MAPK). The transient nature of stress signaling is a consequence of negative feedback signals that lead to kinase dephosphorylation, degradation, and sequestration, which have not been fully elucidated for MKK family members. Here, we investigated the signals that negatively regulate MKK4/SEK1, an upstream activator of the MAPKs JNK and p38/HOG1. Following exposure of cells to sorbitol, MKK4 underwent ubiquitination and degradation in a proteasome-dependent manner. MKK4 ubiquitination required JNK kinase activity. The JNK substrate Itch (a HECT domain-containing Nedd4-like ubiquitin protein ligase) bound to MKK4, ubiquitinated lysines 140 and 143, and promoted MKK4 degradation. Other E3 ligases within the MAPK modular complex did not ubiquitinate MKK4. These data suggest that MKK4 is negatively regulated through a feedback loop involving the E3 ubiquitin ligase Itch, which has a fundamental role in the mechanism that controls MKK4 protein levels.
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PMID:MKK4/SEK1 is negatively regulated through a feedback loop involving the E3 ubiquitin ligase itch. 1973 36

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