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)

The HBx protein of hepatitis B virus is a dual-specificity activator of transcription, stimulating signal transduction pathways in the cytoplasm and transcription factors in the nucleus, when expressed in cell lines in culture. In the cytoplasm, HBx was shown to stimulate the Ras-Raf-mitogen-activated protein kinase (MAP kinase) cascade, which is essential for activation of transcription factor AP-1. Here we show that HBx protein stimulates two independently regulated members of the MAP kinase family when expressed transiently in cells. HBx protein stimulates the extracellular signal-regulated kinases (ERKs) and the c-Jun N-terminal kinases (JNKs). HBx activation of ERKs and JNKs leads to induction and activation of AP-1 DNA binding activity involving transient de novo synthesis of c-Fos protein and prolonged synthesis of c-Jun, mediated by N-terminal phosphorylation of c-Jun carried out by HBx-activated JNK. New c-Jun synthesis was blocked by coexpression with a dominant-negative MAP kinase kinase (MEK kinase, MEKK-1), confirming that HBx stimulates the prolonged synthesis of c-Jun by activating JNK signalling pathways. Activation of the c-fos gene was blocked by coexpression with a Raf-C4 catalytic mutant, confirming that HBx induces c-Fos by acting on Ras-Raf linked pathways. HBx activation of ERK and JNK pathways resulted in prolonged accumulation of AP-1-c-Jun dimer complexes. HBx activation of JNK and sustained activation of c-jun, should they occur in the context of hepatitis B virus infection, might play a role in viral transformation and pathogenesis.
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PMID:Hepatitis B virus HBx protein induces transcription factor AP-1 by activation of extracellular signal-regulated and c-Jun N-terminal mitogen-activated protein kinases. 876 4

The c-Jun amino-terminal kinases (JNKs)/stress-activated protein kinases (SAPKs) play a crucial role in stress responses in mammalian cells. The mechanism underlying this pathway in the hematopoietic system is unclear, but it is a key in understanding the molecular basis of blood cell differentiation. We have cloned a novel protein kinase, termed hematopoietic progenitor kinase 1 (HPK1), that is expressed predominantly in hematopoietic cells, including early progenitor cells. HPK1 is related distantly to the p21(Cdc42/Rac1)-activated kinase (PAK) and yeast STE20 implicated in the mitogen-activated protein kinase (MAPK) cascade. Expression of HPK1 activates JNK1 specifically, and it elevates strongly AP-1-mediated transcriptional activity in vivo. HPK1 binds and phosphorylates MEKK1 directly, whereas JNK1 activation by HPK1 is inhibited by a dominant-negative MEKK1 or MKK4/SEK mutant. Interestingly, unlike PAK65, HPK1 does not contain the small GTPase Rac1/Cdc42-binding domain and does not bind to either Rac1 or Cdc42, suggesting that HPK1. activation is Rac1/Cdc42-independent. These results indicate that HPK1 is a novel functional activator of the JNK/SAPK signaling pathway.
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PMID:Human HPK1, a novel human hematopoietic progenitor kinase that activates the JNK/SAPK kinase cascade. 882 85

Expression of the ovine P-450 side-chain cleavage enzyme gene (CYP11A1) is stimulated by epidermal growth factor (EGF) through a pathway that involves c-Jun in JEG-3 placental cells. Growth factor signaling involves ras-dependent and ras-independent signaling pathways, which in turn regulate gene transcription through related but distinct mitogen-activated protein kinase pathways (MAPKs) including the extracellular signal-regulated kinases (ERKs) and the stress-activated protein kinases (SAPKs). We investigated the intracellular signaling pathways governing EGF induction of the CYP11A1 promoter. EGF stimulation of the CYP11A1 promoter (4-fold) was reduced 60% by a dominant negative mutant of ras (N17), and 30-40% by antisense ras. EGF induced both ERK and SAPK activity in JEG-3 cells. EGF-induced CYP11A1 promoter activity was reduced 60% by the MEK1 inhibitor PD098059 and 50% by a dominant negative mutant of the ERK-specific regulator MEK1. In contrast, dominant negative mutants of the SAPK-specific activator, SEK1, induced a further increase in EGF-induced CYP11A1 promoter activity. Constitutively active mutants of ras (V12 or L61) increased CYP11A1 promoter activity 6- to 8-fold. Deletion of the EGF response element (EGF-RE) between -92 and -77 bp reduced ras induction by 60%; however, a residual 3-fold induction remained through the proximal -77 bp. Mutation of the EGF-RE AP-1-like sequence in the context of the native promoter reduced CYP11A1 promoter activation by ras 60%. The EGF-RE sequence was sufficient for 6-fold activation by ras in the context of an heterologous thymidine kinase promoter. Candidate transcription factor targets (c-Jun, c-Ets-2) for the ras-signaling cascade were examined for their effects on CYP11A1 promoter activity. Overexpression of c-Jun induced the CYP11A1 promoter through the EGF-RE; however, c-Ets-2 activation of the CYP11A1 promoter (12-fold) required the proximal ras-responsive promoter sequences that are distinct from the EGF/MEK/c-Jun-responsive element. Induction of the CYP11A1 promoter by EGF involves a ras/MEK1/AP-1-dependent pathway that is distinct from induction by ras/c-Ets-2.
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PMID:Stimulation of the P-450 side chain cleavage enzyme (CYP11A1) promoter through ras- and Ets-2-signaling pathways. 888 43

Cell-cycle progression is mediated by a co-ordinated interaction between cyclin-dependent kinases and their target proteins including the pRB and E2F/DP-1 complexes. Immunoneutralization and antisense experiments have established that the abundance of cyclin D1, a regulatory subunit of the cyclin-dependent kinases, may be rate-limiting for G1 phase progression of the cell cycle. Simian virus 40 (SV40) small tumor (t) antigen is capable of promoting G1 phase progression and augments substantially the efficiency of SV40 transformation through several distinct domains. In these studies, small t antigen stimulated cyclin D1 promoter activity 7-fold, primarily through an AP-1 binding site at -954 with additional contributions from a CRE site at -57. The cyclin D1 AP-1 and CRE sites were sufficient for activation by small t antigen when linked to an heterologous promoter. Point mutations of small t antigen between residues 97-103 that reduced PP2A binding were partially defective in the induction of the cyclin D1 promoter. These mutations also reduced activation of MEK1 and two distinct members of the mitogen-activated protein kinase family, the ERKs (extracellular signal regulated kinases) and the SAPKs (stress-activated protein kinases), in transfected cells. Dominant negative mutants of either MEK1, ERK or SEK1, reduced small t-dependent induction of the cyclin D1 promoter. SV40 small t induction of the cyclin D1 promoter involves both the ERK and SAPK pathways that together may contribute to the proliferative and transformation enhancing activity of small t antigen.
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PMID:Induction of cyclin D1 by simian virus 40 small tumor antigen. 891 10

2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) caused a significant decrease in estradiol (E2) production when it was administered to human luteinized granulosa cells (hLGCs) in culture. We investigated the involvement of the epidermal growth factor receptor (EGFR) and protein tyrosine kinase (PTK) in this TCDD-induced toxicity. Upregulation in 125I-EGF binding to EGFR was measured after 24 h of TCDD treatment, while downregulation in EGFR binding was measured after 72 h of TCDD treatment. Upregulation of EGFR binding was associated with a significant decrease in postnuclear (7000 x g supernatant) PTK activity, but this activity was stimulated after 72 h of TCDD treatment. TCDD altered the level of tyrosine phosphorylation in proteins with molecular weights 35, 40, 43, 45, 60, and > 205 kDa. TCDD caused a significant increase in postnuclear cAMP-dependent protein kinase (PKA) after 24 h of treatment. The actions of TCDD on protein kinases were partially blocked by the protein synthesis inhibitor, cycloheximide. On the other hand, TCDD increased nuclear PTK and decreased nuclear PKA activity. E2 inhibited the postnuclear and nuclear activity of both PTK and PKA in control samples, but did not affect TCDD actions on either postnuclear or nuclear PTK activity. However, E2 abolished the stimulatory effect of TCDD on PKA activity in postnuclear protein. In the presence of insulin, TCDD did not induce any additional changes in postnuclear or nuclear PTK. Forskolin (FK) alone inhibited postnuclear PTK activity and stimulated its nuclear activity. The addition of TCDD 20 min after FK resulted in an increase in postnuclear PTK, but there was little change in nuclear PTK as compared to the effect of FK alone. The stimulatory effect of TCDD on postnuclear PKA activity was enhanced by insulin and TCDD reversed the negative effect of FK, but there was no effect of either insulin or FK on the inhibition by TCDD of nuclear PKA activity. TCDD decreased the activity of MAP2 kinase and reduced the binding activity of AP-1 DNA when given alone, and also blocked the E2 stimulation of MAP2K. These findings suggest that TCDD may interrupt the endocrine function of hLGCs through the blockage of the mitotic signal directly or indirectly through the interaction of PTK/MAP2K and PKA signaling.
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PMID:Mechanism of toxic action of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) in cultured human luteinized granulosa cells. 894 64

cAMP inhibits T cell activation by acting as an antagonist for selective kinases and transcriptional factors. We have recently demonstrated that cAMP inhibited c-Jun N-terminal kinase (JNK) but left the mitogen-activated protein (MAP) kinase cascade almost unaffected in T lymphocytes. In accordance with recent reports, we also observed a selective suppression of nuclear factor NF-kappaB activation by cAMP. The possible link between the JNK cascade and NF-kappaB activation was demonstrated by the fact that the active form of MAP kinase kinase kinase (deltaMEKK), a constitutive activator of JNK, induced NF-kappaB but not AP-1, Oct, and NF-AT in T cells. In contrast, the induction of MAP kinase kinase (MEK)-MAP kinase did not stimulate NF-kappaB activity. The specific activation of NF-kappaB by a single MEKK-JNK cascade was thus unusual, given that the activation of other transcriptional elements in T cells requires at least two signal pathways. This was further confirmed by the fact that cAMP inhibition of NF-kappaB activation was reversed by overexpression of deltaMEKK.
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PMID:Overexpression of mitogen-activated protein kinase kinase kinase reversed cAMP inhibition of NF-kappaB in T cells. 902 22

Binding of estrogen to its receptor (ER) activates early genes that drive responsive cells through the proliferative phase. Earlier studies to evaluate the expression of protooncogenes, growth factors, growth factor receptor and steroid hormone receptor gene activities in the rat uterine system indicated complex pathways that involve significant 'crosstalk' between ER-systems and signal transduction pathways (Bhattacharyya et al., 1994). To analyze the interactions between these factors, we examined two well characterized estrogen dependent (MCF-7) and estrogen independent (MDA-MB-231) human breast cancer cell lines. Antibodies to estrogen receptor, epidermal growth factor receptor, c-Fos, c-Jun, and Ras proteins, protein kinases involved in receptor tyrosine kinase signal transduction pathway, MEK1 and phosphotyrosine were utilized in immunocytochemical localization experiments to evaluate temporal expression of these factors in response to estrogen treatment. ER, which was diminished in MCF-7 cells grown in estrogen-stripped medium, increased 9-fold in estrogen-reconstituted medium by 120 min. Fos and Jun appeared at nuclear and perinuclear cytoplasmic sites within 60 min after estrogen treatment in MCF-7 cells. Fos/Jun proteins were prominent in MDA-MB-231 cells, especially in association with actin filaments. Immunolabeling studies revealed no EGF-r in MCF-7 cells, while MDA-MB-231 cells contained intense EGF-r labeling in the plasma membrane. Ras protein was prominent in the cytoplasm and at the cell surface within 60 min after treatment of MCF-7 cells with estrogen. Ras was intense in MDA cells. Similarly, MCF-7 and MDA cells contained high concentrations of MEK1 and phosphotyrosine (pTyr) containing proteins in their cytoplasm and immunolabeling remained high as long as MCF-7 cells were grown in medium containing estrogen. It is speculated that MEK1 (cytoplasmic) functioning through Fos/Jun or Myc/Max (nuclear) may regulate the activity of AP-1 transcription factor. In all cases however, MEK1 and pTyr protein labeling was more intense in the highly metastatic and hormone independent MDA-MB-231 breast cancer cells. Results revealed signal transduction pathway proteins in ER+ estrogen dependent cells suggesting possible crosstalk between both receptor pathways during the proliferative phase of MCF-7 cells.
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PMID:Estrogen receptor, growth factor receptor and protooncogene protein activities and possible signal transduction crosstalk in estrogen dependent and independent breast cancer cell lines. 906 37

MKK4 is a member of the mitogen-activated protein kinase kinase group of dual specificity protein kinases that functions as an activator of the c-Jun NH2-terminal kinase (JNK) in vitro. To examine the function of MKK4 in vivo, we investigated the effect of targeted disruption of the MKK4 gene. Crosses of heterozygous MKK4 (+/-) mice demonstrated that homozygous knockout (-/-) animals die before embryonic day 14, indicating that the MKK4 gene is required for viability. The role of MKK4 in JNK activation was examined by investigation of cultured MKK4 (+/+) and MKK4 (-/-) cells. Disruption of the MKK4 gene blocked JNK activation caused by: (i) the mitogen-activated protein kinase kinase kinase MEKK1, and (ii) treatment with anisomycin or heat shock. In contrast, JNK activation caused by other forms of environmental stress (UV-C radiation and osmotic shock) was partially inhibited in MKK4 (-/-) cells. Regulated AP-1 transcriptional activity, a target of the JNK signal transduction pathway, was also selectively blocked in MKK4 (-/-) cells. Complementation studies demonstrated that the defective AP-1 transcriptional activity was restored by transfection of MKK4 (-/-) cells with an MKK4 expression vector. These data establish that MKK4 is a JNK activator in vivo and demonstrate that MKK4 is an essential component of the JNK signal transduction pathway.
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PMID:Targeted disruption of the MKK4 gene causes embryonic death, inhibition of c-Jun NH2-terminal kinase activation, and defects in AP-1 transcriptional activity. 909 36

Heparin-binding epidermal growth factor (HB-EGF) gene transcription is rapidly activated in NIH 3T3 cells transformed by oncogenic Ras and Raf and mediates the autocrine activation of the c-Jun N-terminal kinases (JNKs) observed in these cells. A 1.7-kb fragment of the promoter of the murine HB-EGF gene linked to a luciferase reporter was strongly induced following activation of deltaRaf-1:ER, a conditionally active form of oncogenic human Raf-1. Promoter activation by deltaRaf-1:ER required a composite AP-1/Ets transcription factor binding site located between bp -974 and -988 upstream of the translation initiation site. In vivo genomic footprinting indicated that the basal level of occupancy of this composite AP-1/Ets element increased following deltaRaf-1:ER activation. Cotransfection of Ets-2 and p44 mitogen-activated protein (MAP) kinase expression vectors strongly potentiated HB-EGF promoter activation in response to deltaRaf-1:ER. Potentiated activation required both p44 MAP kinase catalytic activity and threonine 72 in the Pointed domain of Ets-2. Biochemical assays demonstrated the ability of the p42 and p44 MAP kinases to phosphorylate Ets-2 on threonine 72. Importantly, in intact cells, the kinetics of phosphorylation of Ets-2 on this residue closely mirror the activation of the p42 and p44 MAP kinases and the observed onset of HB-EGF gene transcription following deltaRaf-1:ER activation. These data firmly establish Ets-2 as a direct target of the Raf-MEK-MAP kinase signaling pathway and strongly implicate Ets-2 in the regulation of HB-EGF gene expression.
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PMID:Rapid phosphorylation of Ets-2 accompanies mitogen-activated protein kinase activation and the induction of heparin-binding epidermal growth factor gene expression by oncogenic Raf-1. 911 9

The 92 kDa type IV collagenase (MMP-9), which degrades type IV collagen, has been implicated in tissue remodeling. The purpose of the current study was to determine the role of Jun amino-terminal kinase (JNK)- and extracellular signal-regulated kinase- (ERK)-dependent signaling cascades in the regulation of MMP-9 expression. Towards this end, we first determined the transcriptional requirements for MMP-9 promoter activity in a cell line (UM-SCC-1) which is an avid secretor of this collagenase. Transfection of these cells with a CAT reporter driven by progressive 5' deleted fragments of the MMP-9 promoter indicated the requirement of a region spanning -144 to -73 for optimal promoter activity. DNase I footprinting revealed a protected region of the promoter spanning nucleotides -91 to -68 and containing a consensus AP-1 motif at -79. Mutation of this AP-1 motif practically abolished the activity of the MMP-9 promoter-driven CAT reporter. Mobility shift assays indicated c-Fos and Jun-D bound to this motif and transfection of the cells with a mutated c-Jun, which quenches the function of endogenous Jun and Fos proteins, decreased MMP-9 promoter activity by 80%. UM-SCC-1 cells contained a constitutively activated JNK and the expression of a kinase-deficient JNK1 reduced the activity of a CAT reporter driven either by the MMP-9 promoter or by three tandem AP-1 repeats upstream of a thymidine kinase minimal promoter. Conditioned medium collected from UM-SCC-1 cells transfected with the dominant negative JNK1 expression vector diminished 92 kDa gelatinolysis. Similarly, interfering with MEKK, which lies upstream of JNK1, using a dominant negative expression vector reduced MMP-9 promoter activity over the same concentration range which repressed the AP-1-thymidine kinase CAT reporter construct. UM-SCC-1 cells also contained a constitutively activated ERK1. MMP-9 expression, as determined by CAT assays and by zymography, was reduced by the co-expression of a kinase-deficient ERK1. Interfering with MEK1, which is an upstream activator of ERK1, either with PD 098059, which prevents the activation of MEK1, or with a dominant negative expression construct, reduced 92 kDa gelatinolysis and MMP-9 promoter activity respectively. c-Raf-1 is an upstream activator of MEK1 and a kinase-deficient c-Raf-1 expression construct decreased the activity of a promoter driven by either the MMP-9 promoter or three tandem AP-1 repeats. Conversely, treatment of UM-SCC-1 cells with PMA, which activates c-Raf-1, increased 92 kDa gelatinolysis. These data suggest that MMP-9 expression in UM-SCC-1 cells, is regulated by JNK- and ERK-dependent signaling pathways.
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PMID:Regulation of 92 kDa type IV collagenase expression by the jun aminoterminal kinase- and the extracellular signal-regulated kinase-dependent signaling cascades. 913 92

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