EC:2.7.11.24 - FACTA Search

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Query: EC:2.7.11.24 (mitogen-activated protein kinase)
95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mitogen-activated protein kinase (MAPK) pathway is a conserved eukaryotic signaling module that converts receptor signals into various outputs. MAPK is activated through phosphorylation by MAPK kinase (MAPKK), which is first activated by MAPKK kinase (MAPKKK). A genetic selection based on a MAPK pathway in yeast was used to identify a mouse protein kinase (TAK1) distinct from other members of the MAPKKK family. TAK1 was shown to participate in regulation of transcription by transforming growth factor-beta (TGF-beta). Furthermore, kinase activity of TAK1 was stimulated in response to TGF-beta and bone morphogenetic protein. These results suggest that TAK1 functions as a mediator in the signaling pathway of TGF-beta superfamily members.
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PMID:Identification of a member of the MAPKKK family as a potential mediator of TGF-beta signal transduction. 853 96

The kinases and regulatory proteins that convey signals initiated by transforming growth factor-beta (TGF-beta) to the nucleus are poorly characterized. To study the role of the extracellular signal-regulated kinase (ERK) pathway in this process, we transiently transfected NIH 3T3 fibroblasts with TGF-beta-responsive luciferase reporter genes and expression vectors designed to interrupt this kinase cascade. Mitogen-activated protein (MAP) kinase phosphatase-1 and a dominant negative MAP/ERK kinase 1 mutant reduced stimulation of plasminogen activator inhibitor-1 (PAI-1) promoter activity by TGF-beta1 from 11.5- to 4-fold and 4.9-fold, respectively. Similar results were observed with the type I collagen promoters. TGF-beta1 increased ERK1 activity 4.5-fold at 5 min and 3. 1-fold at 3 h, while Jun kinase and p38 activity were not affected. Cotransfection of a dominant negative mutant of the small G protein, Rac, but not dominant negative Ras, Cdc42, or Rho mutants, reduced the effects of TGF-beta1 on the PAI-1 promoter by approximately half. In support of a role for Rac in signaling by TGF-beta, GTP binding to Rac was increased 3.7-fold following exposure of NIH 3T3 cells to TGF-beta1 for 3 min. These findings indicate that TGF-beta1 modulates gene expression partly through ERK and Rac in NIH 3T3 cells.
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PMID:Extracellular signal-regulated kinase and the small GTP-binding protein, Rac, contribute to the effects of transforming growth factor-beta1 on gene expression. 866 31

Glial cell line-derived neurotrophic factor (GDNF), a member of the transforming growth factor-beta family of growth factors, was first identified by its ability to promote the survival of midbrain dopaminergic neurons in culture. We demonstrate that GDNF treatment of several neuroblastoma cell lines leads to dose-dependent tyrosine phosphorylation of the RET receptor and that other transforming growth factor-beta family members are not able to activate the RET receptor. GDNF treatment of neuroblastoma cells also results in increased transcription of an Elk luciferase reporter gene, suggesting that GDNF activates the mitogen-activated protein kinase signal transduction pathway.
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PMID:Glial cell line-derived neurotrophic factor signals through the RET receptor and activates mitogen-activated protein kinase. 879 76

Antimitogenic stimuli such as environmental or genotoxic stress, transforming growth factor-beta, and the inflammatory cytokines tumor necrosis factor and interleukin-1 activate two extracellular signal-regulated kinase (ERK)-based signaling pathways: the stress-activated protein kinase (SAPK/JNK) pathway and the p38 pathway. Activated p38 phosphorylates transcription factors important in the regulation of cell growth and apoptosis, including activating transcription factor 2 (ATF2), Max, cAMP response element-binding protein-homologous protein/growth arrest DNA damage 153 (CHDP/GADD153). In turn, p38 lies downstream of the Rho family GTPases Cdc42Hs and Rac1, as well as at least three mitogen-activated protein kinase (MAPK)/ERK-kinases (MEKs): MAPK kinases-3, -6, and SAPK/ERK-kinase-1. Although many of the stimuli that activate p38 can also inhibit cell cycle progression, a clear-cut role for the p38 pathway in cell cycle regulation has not been established. Using a quantitative microinjection approach, we show here that Cdc42Hs, but not Rac1 or RhoA, can inhibit cell cycle progression at G1/S through a mechanism requiring activation of p38. These results suggest a novel role for Cdc42Hs in cell cycle inhibition. Furthermore, these results suggest that although both Cdc42Hs and Rac1 can activate p38 in situ, the effects of Cdc42Hs and Rac1 on cell cycle progression are, in fact, quite distinct.
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PMID:Cdc42Hs, but not Rac1, inhibits serum-stimulated cell cycle progression at G1/S through a mechanism requiring p38/RK. 914 40

Dorsal closure in Drosophila embryos involves the migration of two lateral epithelia toward the dorsal midline to establish the dorsal ectoderm. Previous work showed that this morphogenetic movement depends on the activities of a Jun amino (N)-terminal kinase kinase (JNKK) encoded by the hemipterous (hep) gene, and of a JNK encoded by basket. Hep is required for cell determination in the leading edge of migrating epithelia, by controlling specific expression of the puckered (puc) gene in these cells. During dorsal closure, decapentaplegic (dpp), a member of the transforming growth factor-beta (TGF-beta) superfamily, is expressed in the row of cells making up the leading edge of the epithelia. Here, we show that the small GTPases Dcdc42, Drac1, and the Hep JNKK control dpp expression in this migratory process. Appropriate dpp and puc expression in the leading edge also depends on the inhibitory function of the puc gene. Further, our data suggest that the leading edge is the source of a JNK autocrine signal, and exclude a role of Dpp as such a ligand. Dorsal closure couples JNK and dpp signaling pathways, a situation that may be conserved in vertebrate development.
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PMID:Coupling of Jun amino-terminal kinase and Decapentaplegic signaling pathways in Drosophila morphogenesis. 922 22

We demonstrate herein the ability of transforming growth factor-beta-2 (TGFbeta2) to potently activate extracellular signal-regulated kinase 2 (ERK2) in the highly TGFbeta-sensitive breast cancer cell (BCC) line Hs578T. The ERK2 isoform was activated by 3-fold within 5 min of TGFbeta2 addition to Hs578T cells. However, TGFbeta2 only slightly activated ERK2 (1.5-fold) in the partially TGFbeta-responsive BCC line MDA-MB-23 1. The magnitude of the difference in activation of ERK2 by TGFbeta2 in the two cell lines paralleled the difference in the IC50 values for TGFbeta inhibition of DNA synthesis; the IC50 value in the MDA-MB-231 cells was 32-fold greater than that in the Hs578T cells. Further, our data demonstrate that TGFbeta2 activated the stress-activated protein kinase/Jun N-terminal kinase (SAPK/JNK) type of mitogen-activated protein kinases (MAPKs); maximal induction levels were 2.5-fold above basal values and were attained at 30 min after TGFbeta2 treatment. Transient co-transfection of a luciferase reporter construct (3TP-Lux) containing three AP-1 sites and the plasminogen activator inhibitor-1 (PAI-1) promoter, in conjunction with a construct that directs expression of a dominant-negative mutant ERK2 (TAYF) protein, did not block the ability of TGFbeta to induce AP-1 or PAI-1 activity. In contrast, TAYF ERK2 was able to block EGF and insulin-induced 3TP-Lux-reporter activity. These results indicate that in these BCCs, the activation of ERK2 by TGFbeta is more tightly linked to the ability of TGFbeta to inhibit DNA synthesis than to the ability to stimulate promoter regions important for TGFbeta production and control of the extracellular matrix. In addition, this is the first demonstration that TGFbeta can activate the SAPK/JNK type of MAPK in TGFbeta-sensitive human BCCs.
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PMID:TGFbeta regulation of mitogen-activated protein kinases in human breast cancer cells. 923 30

To evaluate signaling interactions, combinations of epidermal growth factor (EGF) and transforming growth factor-beta (TGF-beta) isoforms were applied to primary fetal mouse lung mesenchymal cells isolated at 16 days of gestation. The three isoforms of TGF-beta had similar mitogenic potentials, as assessed by thymidine incorporation (half-maximal effective concentration approximately 2 ng/ml). However, combined exposure to EGF and TGF-beta yielded an isoform-dependent attenuation of EGF-induced mitogenesis. Combinations of 20 ng/ml EGF and 2 ng TGF-beta 1, TGF-beta 2, or TGF-beta 3 resulted in thymidine incorporation values 0.76, 0.74, and 0.86 times that of EGF alone, respectively; attenuation of EGF mitogenicity, interactions between EGF and TGF-beta isoforms, and differences between isoforms were all statistically significant by analysis of variance. Treatment with TGF-beta isoforms significantly reduced EGF-induced receptor angiotensin II substrate phosphorylation. TGF-beta isoform-specific signaling also significantly attenuated EGF-induced phosphorylation of the mitogen-activated protein (MAP) kinase extracellular signal-regulated kinase 2. These results suggest that isoform-specific TGF-beta signaling modulates the EGF signal transduction pathway upstream of MAP kinase.
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PMID:TGF-beta isoforms differentially attenuate EGF mitogenicity and receptor activity in fetal lung mesenchymal cells. 927 49

Engagement of receptors for the Fc region of IgG (Fc gamma R) can activate a variety of biological responses in macrophages, and these responses can be modulated either positively or negatively by co-stimulation with a variety of agents including cytokines such as interferon-gamma (IFN-gamma) and transforming growth factor-beta (TGF-beta). We have previously demonstrated that Fc gamma R crosslinking activates the mitogen-activated protein kinase (MAPK) family members p42MAPK, p38, and JNK. Herein, we examined the modulatory effect of IFN-gamma, TGF-beta, and platelet-activating factor (PAF) on Fc gamma R-induced MAPK activation in murine macrophages. Fc gamma R-induced activation of p42MAPK and JNK was augmented nearly two-fold by pretreatment with IFN-gamma. Conversely, TGF-beta pretreatment suppressed Fc gamma R-induced activation of p42MAPK, JNK, and p38. These modulatory effects of IFN-gamma and TGF-beta on MAPK activation correlated with changes in Fc gamma R-stimulated TNF-alpha production by these two cytokines.
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PMID:Interferon-gamma and transforming growth factor-beta modulate the activation of mitogen-activated protein kinases and tumor necrosis factor-alpha production induced by Fc gamma-receptor stimulation in murine macrophages. 929 89

Many of the actions of serine/threonine kinase receptors for the transforming growth factor-beta (TGFbeta) are mediated by DPC4, a human MAD-related protein identified as a tumor suppressor gene in pancreatic carcinoma. Overexpression of DPC4 is sufficient to induce the activation of gene expression and cell cycle arrest, characteristic of the TGFbeta response. The stress-activated protein kinase/c-Jun N-terminal kinase (SAPK/JNK) is also one of the downstream targets required for TGFbeta-mediated signaling. Here we report that expression of the dominant-interfering mutant of various components of the SAPK/JNK cascade specifically blocked both TGFbeta and DPC4-induced gene expression. These dominant-interfering mutants also inhibited TGFbeta-stimulated DPC4 transcriptional activity. Moreover, we find that overexpression of DPC4 causes transfected cells to undergo the morphological changes typical of apoptosis. These findings define a mechanism whereby TGFbeta signals mediated by DPC4 and SAPK/JNK cascade are integrated in the nucleus to activate gene expression and identify a new cellular function for DPC4.
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PMID:Induction of apoptosis by DPC4, a transcriptional factor regulated by transforming growth factor-beta through stress-activated protein kinase/c-Jun N-terminal kinase (SAPK/JNK) signaling pathway. 931 63

The gut is the major source of inflammatory agents that affect the liver. Of these compounds, the endotoxins are the most frequent and best studied intruders. The resident macrophages of the liver, the Kupffer cells, are among the first to respond to this complex. Following contact with the cluster of differentiation (CD) 14 protein, the complex triggers a signal cascade involving the nuclear factor kappa B. This factor enhances the expression of inflammation-related genes, e.g. those encoding cytokines. Tumor necrosis factor-alpha is responsible for nearly all of the effects ascribed to endotoxins (lipopolysaccharides). Interleukin (IL)-6, also a product of lipopolysaccharide-activated Kupffer cells, may be instrumental in eliciting the acute-phase response of hepatocytes, while transforming growth factor-beta promotes conversion of quiescent hepatic stellate cells into a collagen-producing myofibroblast-like form. A different signal pathway triggered by bound endotoxin involves a mitogen-activated protein kinase and leads to the activation of phospholipase A2 and the synthesis of the eicosanoids. Endotoxin also induces a nitric oxide synthase in Kupffer cells. This inorganic mediator may participate in the relaxation of the hepatic sinusoid, but may also, together with macrophage-derived superoxide, produce strong oxidants. Tumor necrosis factor-alpha and nitric oxide play a significant role during liver regeneration after partial hepatectomy. Of the various effects of eicosanoids, their regulatory role in cytokine production by Kupffer cells may be the most important. The regulation of Kupffer cell functions by cell volume change has very recently become apparent.
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PMID:The response of liver macrophages to inflammatory stimulation. 956 May 26

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