EC:2.7.11.25 - FACTA Search

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Query: EC:2.7.11.25 (MEKK1)
1,856 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Activation of mitogen-activated protein kinase (MAP kinase) plays an important role in the cellular effects of nerve growth factor (NGF). Although the precise pathway by which NGF activates MAP kinase is not clear, several enzymes have been identified that may form a linear phosphorylation cascade, in which MAP kinase is activated by MAP kinase kinase (MEK). A key enzyme that links the ras-GTP complex to MEK is widely believed to be the raf kinase. However, immunoprecipitation experiments in PC-12 cells revealed that raf is not the major NGF-dependent MEK kinase [Zheng, Ohmichi, Saltiel and Guan (1994) Biochemistry 33, 5595-5599]. We have identified a protein kinase from PC-12 cells that catalyses both the phosphorylation and activation of MEK. This activity is stimulated 3-fold in cells treated with NGF. The partial purification on FPLC and characterization of this MEK kinase indicate that it is distinct from raf, MEK, MAP kinase and other previously described NGF-stimulated protein kinases. The activity of this enzyme is unaffected by direct addition to the assay of heparin, staurosporine, K252A and the heat-stable cyclic AMP-dependent kinase peptide inhibitor, but is slightly inhibited by NaF and calcium ions. Comparison of its behaviour on gel permeation and sucrose-density gradients indicates a molecular mass in the region of 50,000 Da. Moreover, isoelectric focusing of the enzyme revealed a pI of approx. 7.3. The kinase activity is specific for ATP as substrate with a Km of 11 microM, and requires Mg2+ as a cofactor. Analysis of the activation of this enzyme in PC-12 cells transfected with a dominant inhibitory mutant of p21ras suggests that this MEK kinase resides downstream of ras in the MAP kinase activation pathway. Moreover, site-directed mutation of the residues on MEK that are phosphorylated by raf does not completely abrogate phosphorylation by the MEK kinase, suggesting that this enzyme may share some phosphorylation sites with raf, but also phosphorylates MEK on other sites.
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PMID:Nerve growth factor stimulates a novel protein kinase in PC-12 cells that phosphorylates and activates mitogen-activated protein kinase kinase (MEK). 773 91

In PC12 cells, cAMP stimulates the MAP kinase pathway by an unknown mechanism. Firstly, we examined the role of calcium ion mobilization and of protein kinase C in cAMP-stimulated MAP kinase activation. We show that cAMP stimulates p44mapk independently of these events. Secondly, we studied the role of B-Raf in this process. We observed that NGF, PMA and cAMP induce the phosphorylation of B-Raf as well as an upward shift in its electrophoretic mobility. We show that B-Raf is activated following NGF and PMA treatment of PC12 cells, and that it can phosphorylate and activate MEK-1. However, cAMP inhibits B-Raf autokinase activity as well as its ability to phosphorylate and activate MEK-1. This inhibition is likely to be due to a direct effect since we found that PKA phosphorylates B-Raf in vitro. Further, we show that B-Raf binds to p21ras, but more important, this binding to p21ras is virtually abolished with B-Raf from PC12 cells treated with CPT-cAMP. Hence, these data indicate that the PKA-mediated phosphorylation of B-Raf hampers its interaction with p21ras, which is responsible for the PKA-mediated decrease in B-Raf activity. Finally, our work suggests that in PC12 cells, cAMP stimulates MAP kinase through the activation of an unidentified MEK kinase and/or the inhibition of a MEK phosphatase.
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PMID:Regulation of the MAP kinase cascade in PC12 cells: B-Raf activates MEK-1 (MAP kinase or ERK kinase) and is inhibited by cAMP. 783 30

Yeast cells with mutations in BRO1 display phenotypes similar to those caused by deletion of BCK1, a gene encoding a MEK kinase that functions in a mitogen-activated protein kinase pathway mediating maintenance of cell integrity. bro1 cells exhibit a temperature-sensitive growth defect that is suppressed by the addition of osmotic stabilizers or Ca2+ to the growth medium or by additional copies of the BCK1 gene. At permissive temperatures, bro1 mutants are sensitive to caffeine and respond abnormally to nutrient limitation. A null mutation in BRO1 is synthetically lethal with null mutations in BCK1, MPK1, which encodes a mitogen-activated protein kinase that functions downstream of Bck1p, or PKC1, a gene encoding a protein kinase C homolog that activates Bck1p. Analysis of the isolated BRO1 gene revealed that it encodes a novel, 97-kDa polypeptide which contains a putative SH3 domain-binding motif and is homologous to a protein of unknown function in Caenorhabditis elegans.
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PMID:BRO1, a novel gene that interacts with components of the Pkc1p-mitogen-activated protein kinase pathway in Saccharomyces cerevisiae. 864 66

Ligation of the B cell Ag receptor (BCR) activates a protein-tyrosine kinase (PTK) and CD45 protein-tyrosine phosphatase (PTPase)-dependent signaling cascade that results in the activation of Ras. This pathway of Ras activation can operate independently of protein kinase C (PKC) activity. Activation of Ras may lead to two distinct Ras-dependent pathways involving either a Raf1/MEK/MAPK module or a MEKK/SEK/SAPK module; however, it is unclear as to how Ras controls the independent activation of either of these pathways. We have used genistein and phenylarsine oxide (PAO) as inhibitors of PTK and PTPase, respectively, to investigate whether they regulate the BCR- and Ca2+/PKC-dependent activation of the Ras/Raf1/MEK/MAPK module. Assays of phosphotransferase activities conducted with Ag (TNP6-OVA)-specific 7.9 murine B lymphoma cells demonstrated that BCR-mediated stimulation of the Raf1/MEK/MAPK module is controlled by PTK and PTPase activities. An elevation in [Ca2+]i was required to optimally activate Raf1 and MEK through the BCR. However, when signaling through the BCR was bypassed by direct stimulation of the Raf1/MEK/MAPK module via a rise in [Ca2+]i and phorbol ester-induced PKC activation, the phosphotransferase activities of Raf1, MEK and MAPK were still regulated in a PTK-dependent manner that was also partially sensitive to the PTPase inhibitor PAO. Thus, at least two alternate routes, i.e. a BCR/PTK/Ras-dependent route and another PKC/Ca(2+)-dependent route, may converge at the level of Raf1 for activation of the Raf1/MEK/MAPK module in B cells.
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PMID:Regulation of BCR- and PKC/Ca(2+)-mediated activation of the Raf1/MEK/MAPK pathway by protein-tyrosine kinase and -tyrosine phosphatase activities. 864 50

Both angiotensin II (Ang II) and platelet-derived growth factor (PDGF) rapidly increase intracellular Ca2+ and activate protein kinase C (PKC) and MAP kinase in vascular smooth muscle cells (VSMCs). However, Ang II causes cell hypertrophy, whereas PDGF causes hyperplasia. These findings indicate that VSMCs are a good model for studying the relationship between cell growth and the MAP kinase pathway. In this study, we investigated the role of Raf in activation of 42- and 44-kD MAP kinases. Western blot analysis showed that c-Raf-1 was the predominant Raf isozyme in cultured rat aortic VSMCs. In response to Ang II, there was translocation of Raf to the membrane, which occurred significantly earlier than MAP kinase activation, suggesting that Raf activation precedes MAP kinase activation. Translocation of Raf to the membrane resulted in association with H-Ras as shown by c-Raf-1 coprecipitation with anti-Ras anti-bodies. Western blot analysis of H-Ras immunoprecipitates revealed c-Raf-1, but c-mos, MEK (MAP kinase/extracellular signal-regulated kinase) kinase-1 (MEKK-1), and Raf-B were not present. MAP kinase kinase kinase (MAPKKK) activity was assayed in c-Raf-1 and H-Ras immunoprecipitates by MAP kinase kinase-dependent phosphorylation of catalytically inactive 42-kD MAP kinase. In Ras immunoprecipitates, MAPKKK activity was stimulated approximately threefold by both Ang II and PDGF, with a peak at 5 minutes. Downregulation of PKC by 24-hour exposure to phorbol ester significantly inhibited Ang II-stimulated and PDGF-stimulated MAPKKK activity (approximately 80% decrease) and Raf translocation (approximately 90% decrease), suggesting that a phorbol-responsive PKC is upstream from MAPKKK and Raf. In contrast, Ang II (but not PDGF) stimulation of MAP kinase was unaffected by PKC downregulation or pharmacological PKC inhibition. These findings demonstrate for the first time that Ang II stimulation of MAP kinase may occur via a pathway independent of c-Raf-1 and of the phorbol-responsive PKC isozymes. The differing effects of Ang II and PDGF on VSMC growth may be a consequence of specific signal transduction events, as demonstrated here for activation of MAP kinase.
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PMID:Angiotensin II stimulates MAP kinase kinase kinase activity in vascular smooth muscle cells, Role of Raf. 888 93

Cot kinase is a protein serine/threonine kinase, classified as a mitogen-activated protein kinase kinase kinase, implicated in T lymphocyte activation. Here we show that an increase in Cot kinase expression promotes tumor necrosis factor-alpha (TNF-alpha) production in Jurkat T cells stimulated by soluble anti-CD3 or by low concentrations of phorbol 12,13-dibutyrate (PDBu) and calcium ionophore. Overexpression of Cot kinase in Jurkat cells activates TNF-alpha gene expression. Cot kinase promotes TNF-alpha promoter activation to a similar extent as calcium ionophore and PDBu or soluble anti-CD28 and PDBu. Neither phorbol esters nor calcium ionophore can replace Cot kinase on TNF-alpha promoter-driven transcription. Expression of a dominant negative form of Cot kinase inhibits TNF-alpha promoter activation induced by stimulation with either calcium ionophore and PDBu, soluble anti-CD28 and PDBu, or soluble anti-CD3 and PDBu. TNF-alpha promoter-driven transcription by Cot kinase is partially mediated by MAPK/ERK kinase and is cyclosporin A-resistant. Cot kinase increases at least the AP-1 and AP-2 response elements. These data indicate that Cot kinase plays a critical role in TNF-alpha production.
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PMID:Cot kinase activates tumor necrosis factor-alpha gene expression in a cyclosporin A-resistant manner. 960 8

The signaling of ligands operating via heterotrimeric G proteins is mediated by a complex network that involves sequential phosphorylation events. Signaling by the G protein-coupled receptor GnRH was shown to include elevation of Ca2+ and activation of phospholipases, protein kinase C (PKC) and extra-cellular signal-regulated kinase (ERK). In this study, GnRH was shown to activate Jun N-Terminal Kinase (JNK)/SAPK in alpha T3-1 cells in a PKC- and tyrosine kinase-dependent manner. GnRH as well as tumor-promoting agent (TPA) also increased c-Src activity, which peaked at 2 min after GnRH stimulation and was sensitive both to PKC and to tyrosine kinase inhibitors. Coexpression of Csk, which serves as a Src-dominant interfering kinase, and constitutively active forms of Src, together with JNK, confirmed the involvement of c-Src downstream of PKC in the GnRH-JNK pathway. Coexpression of dominant negative and constitutively active forms of CDC42, Rac1, Ras, MEKK1, and MEK1 with JNK indicated that JNK activation by GnRH and TPA is mediated by CDC42 and MEKK1. Ras and MEK1, which are involved in a related mitogen-activated protein kinase (MAPK) pathway, did not affect JNK activation in alpha T3-1 cells. Taken together, our results suggest that GnRH stimulation of JNK activity is mediated by a unique pathway that includes sequential activation of PKC, c-Src, CDC42, and probably also MEKK1.
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PMID:Stimulation of Jun N-terminal kinase (JNK) by gonadotropin-releasing hormone in pituitary alpha T3-1 cell line is mediated by protein kinase C, c-Src, and CDC42. 962 57

Ethanol increases human and animal susceptibility to opportunistic lung infections in part by suppression of endotoxin (LPS) and bacteria-mediated upregulation of inducible nitric oxide synthase (iNOS) in alveolar macrophages (AM). LPS and cytokine-induced NOS mRNA are dependent on NF-kappaB/Rel (NFkappaB) and Activator Protein-1 (AP-1), which are regulated in turn by protein kinase C and tyrosine kinase-dependent phosphorylation. ETOH does not directly inhibit NFkappaB or AP-1, in vivo, but rather inhibits LPS-induced activation of the MEKK/MAP kinase system and inhibition of inhibitory protein IkappaBalpha required for formation of AP-1 and NFkappaB, respectively. in AM. Both transcription factors are involved iNOS mRNA transcription. LPS-induced upregulation of MEKK/MAP tyrosine kinase upregulates NADPH oxidase activity and oxygen free radical formation required for activation of NFkappaB and AP-1 and phosphorylation of IkappaBalpha. LPS downregulates endogenous calcium-sensitive PKC isozymes (PKCdelta), which repress iNOS mRNA expression. ETOH inhibits LPS-induced upregulation of iNOS mRNA by preventing its ability to decrease PKCdelta and upregulate tyrosine kinase-mediated phosphorylation. This effect of ETOH is prevented by inhibitors of PKC and tyrosine kinase. The data support the hypothesis that ETOH inhibits LPS-induced upregulation of iNOS mRNA by interfering with the phosphorylation processes involved in activation of the nuclear transcription factors NFkappaB and AP-1.
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PMID:Role of PKC and tyrosine kinase in ethanol-mediated inhibition of LPS-inducible nitric oxide synthase. 966 19

Previously we implicated c-Jun N-terminal kinase (JNK) as an element that is involved in signal integration during co-stimulation of T lymphocytes. This pathway has now been traced to an upper level, comprising MAPKK SEK1/MKK4/JNKK1 which, similarly to JNK, must receive input both from the TCR and CD28. A large portion of this input is probably integrated at the level of the Rho-family protein CDC42 which, here, activates SEK1 and JNK to the level reached by TCR and CD28 stimulation. We have identified another putative SEK/ JNK pathway regulator, PKCtheta, which in contrast to CDC42, activates SEK and JNK maximally only in conjunction with a calcium signal delivered through calcineurin. Signals originating at the TCR and CD28 may travel down the JNK pathway via PKCtheta, calcineurin, CDC42, MEKK1 and SEK1.
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PMID:Co-stimulation-dependent activation of a JNK-kinase in T lymphocytes. 971 Feb 10

Evidence suggests that membrane depolarization is able to promote neuronal survival through a sustained, although moderate, increase in the intracellular calcium. We have used the PC12 cell line to study the possible intracellular pathways that can be activated by calcium influx. Previously, we observed that membrane depolarization-induced calcium influx was able to activate the extracellular-regulated kinase (ERK)/mitogen-activated protein kinase pathway and most of this activation was calmodulin-dependent. We demonstrated that a part of the ERK activation is due to the phosphorylation of the epidermal growth factor receptor. Here, we show that both the epidermal growth factor receptor phosphorylation and the Shc-Grb2-Ras activation are not calmodulin-modulated. Moreover, dominant negative mutant Ha-ras (Asn-17) prevents the activation on ERKs by membrane depolarization, suggesting that Ras and calmodulin are both necessaries to activate ERKs by membrane depolarization. We failed to observe any significant induction and/or modulation of the A-Raf, B-Raf or c-Raf-1 kinase activities, thus suggesting the existence of a MEK kinase different from the classical Raf kinases that directly or indirectly can be modulated by Ca2+/calmodulin.
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PMID:Calcium influx activates extracellular-regulated kinase/mitogen-activated protein kinase pathway through a calmodulin-sensitive mechanism in PC12 cells. 986 13

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