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)

Ciliary neurotrophic factor (CNTF) and leukemia inhibitory factor (LIF) are members of a subfamily of related cytokines that share gp130 as common signal-transducing receptor component. CNTF has recently been demonstrated to induce increased survival and neuronal differentiation of P19 embryonal carcinoma (EC) cells; however, the molecular mechanisms underlying these effects are still elusive. Here we report that CNTF and LIF, but not interleukin-6, activated signal transducers and activators of transcription (STAT)-reporter constructs in P19 EC cells. Supershift analysis revealed that the STAT-element binding complex contained the transcription factor Stat3. Binding of Stat3 was inhibited by protein tyrosine kinase inhibitors, but not by the broad serine/threonine protein kinase inhibitor, H7. However, H7 inhibited CNTF-induced Stat3 transactivation. Using a dominant-negative p21ras construct and a specific inhibitor of mitogen-activated protein kinase kinase (MEK; PD098059) we demonstrated that CNTF-induced Stat3 transactivation was independent of the p21ras-mitogen-activated protein kinase (MAPK) pathway, while CNTF-induced MAPK activation was p21ras- and MEK-dependent. Taken together, our results demonstrate the activation of the p21ras-MAPK and STAT signal transduction pathways in response to CNTF and LIF in P19 EC cells and reveal that there is no modulating crosstalk between these pathways. Furthermore, our data suggest that CNTF- and LIF-induced Stat3 activation in P19 EC cells involves an H7-sensitive p21ras/MAPK- and Ca(2+)-independent kinase.
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PMID:Cytokine signal transduction in P19 embryonal carcinoma cells: regulation of Stat3-mediated transactivation occurs independently of p21ras-Erk signaling. 1047 31

Activation of mitogen-activated protein kinases (MAPKs), their upstream activators MAPK kinases (MAPKKs or MEKs) and induction of MKP-1 (CL100/3CH134) and MKP-3 (Pyst1/rVH6) dual-specificity MAPK phosphatases (MKPs) were studied in the mouse embryonic stem cell line P19 during the 7 day induction of neuronal differentiation triggered by aggregation and retinoic acid. ERK (extracellular signal-regulated kinase), but not JNK (c-Jun N-terminal kinase), was found activated with biphasic kinetics: a first transient phase on days 1 and 2, followed by a second activation that was sustained until the appearance of a neuronal phenotype. MEK activation appeared coincident with ERK activation. Cytosolic MKP-3 was induced in parallel to ERK activation, the induction being dependent on ERK activation, as was shown using the MEK-1 inhibitor PD98059. In contrast, nuclear MKP-1 was transiently elevated at 48 h, coincident with ERK inactivation and independently of ERK activity. As shown by cell fractionation, activated ERK is translocated to the nucleus. The complementary induction of ERK-specific phosphatases MKP-1 and MKP-3 permits precise and independent control of cytoplasmic and nuclear ERK activity, most probably required to properly induce a complex cellular programme of differentiation.
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PMID:Compartment-specific regulation of extracellular signal-regulated kinase (ERK) and c-Jun N-terminal kinase (JNK) mitogen-activated protein kinases (MAPKs) by ERK-dependent and non-ERK-dependent inductions of MAPK phosphatase (MKP)-3 and MKP-1 in differentiating P19 cells. 1110 76

Galpha13 mediates the ability of the morphogen retinoic acid to promote primitive endoderm formation from mouse P19 embryonal carcinoma stem cells, a process that includes the obligate activation of Jun N-terminal kinase. Expression of the constitutively activated (Q226L) GTPase-deficient form of Galpha13 mimics retinoic acid and was used to investigate the signaling upstream of primitive endoderm formation. Jun N-terminal kinase 1 activity, MEK1,2, MKK4, and MEKK1 were constitutively activated in clones stably transfected to express Q226L Galpha13. Dominant negative forms of MEKK1 and MEKK4 were expressed stably in the clones harboring Q226L Galpha13. Expression of dominant negative versions of either MEKK1 or MEKK4 effectively blocks both the activation of Jun N-terminal kinase as well as the formation of primitive endoderm. Depletion of MEKK1, -2, or -4 by antisense oligodeoxynucleotides suppressed signaling from Q226L Galpha13 to JNK1 and primitive endoderm formation. We demonstrate that the signal linkage map from Galpha13 activation to primitive endoderm formation in these stem cells requires activation at three levels of the mitogen-activated protein kinase cascade: MEKK1, -2, or -4 for MAP kinase kinase kinase; MKK4 and/or MEK1 for MAP kinase kinase; and JNK1 for MAP kinase.
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PMID:Expression of Galpha 13 (Q226L) induces P19 stem cells to primitive endoderm via MEKK1, 2, or 4. 1170 Mar 6

The transcription factor c-Maf has been suggested to regulate the activity of gamma-crystallin promoters in lens fibre cells. We here show that the transactivation potential of c-Maf and MafB for the rat gammaD-crystallin Maf-responsive element (gammaD MARE) is dependent upon the cellular context and, using chimeric and single domain mutants, that c-Maf is most likely to be the cognate factor for the gammaD MARE in the lens. Transactivation of the gammaD MARE by c-Maf in lens cells was not enhanced by c-Fos or c-Jun and was not blocked by dominant negative c-Fos or c-Jun constructs. c-Maf can activate the gammaD MARE as a homodimer since activation of the gammaD-crystallin promoter in P19 embryonic carcinoma cells required only c-Maf, but none of a number of c-Fos and c-Jun family members tested. Transactivation by c-Maf was inhibited by activation of protein kinase A (PKA) (by signal transduction agonist forskolin) or of protein kinase C (PKC) (by signal transduction agonist tetradecanoyl phorbol acetate). Site-directed mutagenesis showed that this effect is not mediated by phosphorylation of the consensus PKA/PKC site in the extended DNA-binding domain, but likely involves activation of MAP kinase kinase, as inhibition by PD98059 increased transactivation by c-Maf.
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PMID:c-Maf, the gammaD-crystallin Maf-responsive element and growth factor regulation. 1184 9

The mouse kappa-opioid receptor (KOR) gene is expressed in mouse embryonal carcinoma P19 cells and induced by retinoic acid (RA) within 24 h. An RA-responsive cis-acting element is identified within promoter I of the KOR gene. This element contains a GC box, a putative binding site for transcription factor Sp1. Enhanced binding of Sp1 to this GC box correlates with RA induction of KOR gene. Phosphatase inhibitor (sodium pyrophosphate) decreases RA induction of this promoter, whereas hypophosphorylation of Sp1 results in an increase in its DNA binding affinity to this promoter as demonstrated by in vitro gel retardation and in vivo chromatin immunoprecipitation assays. Consistently, the inhibitor of MEK, PD98058, dose-dependently enhances RA induction of this promoter, suggesting that the ERK signaling pathway is negatively involved in the RA induction of mouse KOR gene activities. Collectively, enhanced binding of Sp1 to promoter I of the KOR gene as a result of inhibiting the ERK pathway contributes to RA induction of this gene in P19.
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PMID:Induction of the mouse kappa-opioid receptor gene by retinoic acid in P19 cells. 1217 13

c-Jun amino-terminal kinase (JNK) is known to be activated and play critical roles during neural and endodermal differentiation of P19 embryonic carcinoma cells. In this study we demonstrated that of the two upstream protein kinases of JNK, only MKK4 activity was substantially enhanced in the endodermally differentiating P19 cells. This enhanced activity of MKK4 stemmed from the increased expression of MKK4 and its activation by phosphorylation. Activated MKK4 and JNK were localized in both nucleus and cytoplasm of the differentiating cells, while they were localized only in the nucleus in the undifferentiated cells, suggesting multiple roles of JNK in the course of the endodermal differentiation of P19 cells.
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PMID:Activation mechanism of c-Jun amino-terminal kinase in the course of endodermal differentiation of P19 embryonic carcinoma cells. 1265 Sep 21

The heterotrimeric G-protein G(13) mediates the formation of primitive endoderm from mouse P19 embryonal carcinoma cells in response to retinoic acid, signaling to the level of activation of c-Jun N-terminal kinase. The signal linkage map from MEKK1/MEKK4 to MEK1/MKK4 to JNK is obligate in this G alpha(13)-mediated pathway, whereas that between G alpha(13) and MEKKs is not known. The overall pathway to primitive endoderm formation was shown to be inhibited by treatment with Clostridium botulinum C3 exotoxin, a specific inactivator of RhoA family members. Constitutively active G alpha(13) was found to activate RhoA as well as Cdc42 and Rac1 in these cells. Although constitutively active Cdc42, Rac1, and RhoA all can activate JNK1, only the RhoA mutant was able to promote formation of primitive endoderm, mimicking expression of the constitutively activated G alpha(13). Expression of the constitutively active mutant form of p115RhoGEF (guanine nucleotide exchange factor) was found to activate RhoA and JNK1 activities. Expression of the dominant negative p115RhoGEF was able to inhibit activation of both RhoA and JNK1 in response to either retinoic acid or the expression of a constitutively activated mutant of G alpha(13). Expression of the dominant negative mutants of RhoA as well as those of either Cdc42 or Rac1, but not Ras, attenuated G alpha(13)-stimulated as well as retinoic acid-stimulated activation of all three of these small molecular weight GTPases, suggesting complex interrelationships among the three GTPases in this pathway. The formation of primitive endoderm in response to retinoic acid also could be blocked by expression of dominant negative mutants of RhoA, Cdc42, or Rac1. Thus, the signal propagated from G alpha(13) to JNK requires activation of p115RhoGEF cascades, including p115RhoGEF itself, RhoA, Cdc42, and Rac1. In a concerted effort, RhoA in tandem with Cdc42 and Rac1 activates the MEKK1/4, MEK1/MKK4, and JNK cascade, thereby stimulating formation of primitive endoderm.
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PMID:G alpha 13 signals via p115RhoGEF cascades regulating JNK1 and primitive endoderm formation. 1549 6

LIF is a cytokine playing a key role in the regulation of self-renewal and maintenance of undifferentiated state in mouse ES cells. The response of pluripotent cells to LIF is mediated mainly by the STAT3 and ERK signalling pathways. Recently, we have shown that LIF potentiated retinoic acid-induced neural differentiation of pluripotent mouse embryonal carcinoma P19 cells. Here we demonstrate that pro-neural effects of LIF and partially also of retinoic acid are abolished by inhibition of the JAK2->STAT3 signalling pathway. In contrast, inhibition of the MEK1->ERK signalling pathway does not exhibit any effect. These results suggest that in neurogenic regions, cooperative action of LIF and other neuro-differentiation-inducing factors, such as retinoic acid, may be mediated by the STAT3 signalling pathway.
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PMID:Neural differentiation potentiated by the leukaemia inhibitory factor through STAT3 signalling in mouse embryonal carcinoma cells. 1797 5

We previously reported an intricate mechanism underlying the homeostasis of Oct4 expression in normally proliferating stem cell culture of P19, mediated by SUMOylation of orphan nuclear receptor TR2. In the present study, we identify a signaling pathway initiated from the nongenomic activity of all-trans retinoic acid (atRA) to stimulate complex formation of extracellular signal-regulated kinase 2 (ERK2) with its upstream kinase, mitogen-activated protein kinase kinase (MEK). The activated ERK2 phosphorylates threonine-210 (Thr-210) of TR2, stimulating its subsequent SUMOylation. Dephosphorylated TR2 recruits coactivator PCAF and functions as an activator for its target gene Oct4. Upon phosphorylation at Thr-210, TR2 increasingly associates with promyelocytic leukemia (PML) nuclear bodies, becomes SUMOylated, and recruits corepressor RIP140 to act as a repressor for its target, Oct4. To normally proliferating P19 stem cell culture, exposure to a physiological concentration of atRA triggers a rapid nongenomic signaling cascade to suppress Oct4 gene and regulate cell proliferation.
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PMID:Retinoic acid-stimulated sequential phosphorylation, PML recruitment, and SUMOylation of nuclear receptor TR2 to suppress Oct4 expression. 1868 53

GATA-4, a zinc finger transcription factor, plays a critical role in heart development. Previous studies have shown that p300-targeted GATA-4 acetylation increases GATA-4 stability and transcriptional activity, which then stimulates hypertrophy of cardiomyocyte. Erythropoietin (EPO), an essential hypoxia-induced hormone for normal erythropoiesis, is known to exert cardioprotective effects against heart disease of either ischemic or non-ischemic origins. Although, various action mechanisms of EPO have been proposed in the diseased heart, its action mechanism in normal condition has not been investigated. In this study, we aimed to investigate the influence of EPO-induced ERK signaling on the regulation of GATA-4 protein action. EPO treatment increased the protein level of endogenous GATA-4 via ERK signaling pathway. Inhibition of ERK activity by U0126, suppressed EPO-induced expression of GATA-4 protein in rat cardiac myocytes. In addition, ERK activation by over-expression of constitutively active MEK1 strongly increased GATA-4 phosphorylation and subsequently enhanced its acetylation in P19 cells. EPO-induced ERK activation further increased the association of GATA-4 with p300. On the other hand, knock-down of p300 using siRNA diminished ERK-induced GATA-4 acetylation. As EPO-induced GATA-4 phosphorylation via ERK signaling pathway directly correlated with GATA-4 acetylation, we investigated to identify the ERK-dependent phosphorylation sites in GATA-4. Site-directed mutagenesis implicated that Ser-261 in GATA-4 played an important role for ERK-mediated GATA-4 acetylation. Taken together, these results indicated that EPO-induced ERK signaling activation increased GATA-4 phosphorylation and acetylation, partly via increase in the association between GATA-4 and p300, and these processes required the phosphorylation of GATA-4 at Ser-261 residue.
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PMID:Erythropoietin-activated ERK/MAP kinase enhances GATA-4 acetylation via phosphorylation of serine 261 of GATA-4. 2267 27

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