EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We recently reported that p38 MAPK regulates TNF-induced endothelial apoptosis via phosphorylation and downregulation of Bcl-xL. Here, we describe that such apoptosis includes p38 MAPK-mediated, protein phosphatase 2A (PP2A)-dependent, downregulation of the MEK-ERK pathway. Inhibition of PP2A with fostriecin or calyculin A significantly increased MEK phosphorylation, as did exposure to the p38 MAPK inhibitor SB203580. Inhibition of MEK potentiated TNF-induced caspase-3 activity and cell death, and both those events were suppressed by treatment with fostriecin or calyculin A. Immunoprecipitation experiments revealed an association between p38 MAPK, PP2A and MEK, and the results of a phosphatase assay suggested that PP2A is a downstream target of p38 MAPK. Importantly, phosphorylation of Bad at Ser-112 was found to be regulated by p38 MAPK and PP2A. In summary, the present findings indicate a novel p38 MAPK-mediated apoptosis pathway, involving activation of Bad via PP2A-dependent inhibition of the MEK-ERK pathway.
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PMID:p38 MAPK regulates phosphorylation of Bad via PP2A-dependent suppression of the MEK1/2-ERK1/2 survival pathway in TNF-alpha induced endothelial apoptosis. 1597 58

The EGF (epidermal growth factor) receptor-tyrosine kinase inhibitor ZD1839 (Gefitinib, 'Iressa') blocks the cell signaling pathways involved in cell proliferation, survival, and angiogenesis in various cancer cells. TNF-related death apoptosis inducing ligand (TRAIL) acts as an anticancer agent. We investigated the antitumor effects of ZD1839 alone or in combination with TRAIL against human esophageal squamous cell cancer (ESCC) lines. Although all ESCC cells expressed EGF receptor at a protein level, the effect of ZD1839 on cell growth did not correlate with the level of EGFR expression and phosphorylation of EGF receptor protein in ESCC lines. ZD1839 caused a dose-dependent growth arrest at G0-G1 phase associated with increased p27 expression. As TE8 cells are resistant to TRAIL, we tested whether ZD1839 combined with TRAIL induced apoptosis of TE8 cells via the inhibition of EGF receptor signaling by ZD1839. ZD1839 inhibited the phosphorylation of Akt, and enhanced TRAIL-induced apoptosis via activation of caspase-3 and caspase-9, and inactivation of Bcl-xL. Our results indicated that ZD1839 has anti-cancer properties against human esophageal cancer cells. ZD1839 also augmented the anti-cancer activity of TRAIL, even in TRAIL-resistant tumors. These results suggest that treatment with ZD1839 and TRAIL may have potential in the treatment of ESCC patients.
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PMID:ZD1839 (Gefitinib, 'Iressa'), an epidermal growth factor receptor-tyrosine kinase inhibitor, enhances the anti-cancer effects of TRAIL in human esophageal squamous cell carcinoma. 1602 8

There is increasing evidence that factors originally identified due to their neurotrophic activity also function within the immune system. This study focused on the related molecules glial cell line-derived neurotrophic factor (GDNF) and neurturin (NTN) as well as their receptors. GDNF and NTN signaling is mediated by a two-component receptor: a signal-transducing component, RET, which is shared by both ligands, and a ligand-specific binding component, GFR alpha-1 (higher GDNF affinity) or GFR alpha-2 (higher NTN affinity). We report that human T cells, B cells, and monocytes produce NTN but not GDNF, as seen by RT-PCR and immunocytochemistry. RET was expressed by B cells, T cells, and monocytes. Exons 2-5 of RET encoding the cadherin-like domains 1-3 in the extracellular part and exons 16-19 encoding a section of the second tyrosine kinase domain were transcribed in CD4+ T cells, CD8+ T cells, B cells, and monocytes. Different splice variants encoding the C-terminal intracellular part (exons 19-21) of RET were detected. The ligand-binding receptors GFR alpha-1 and GFR alpha-2 were transcribed in all immune cell subsets. Quantitative PCR showed that GFR alpha-2 is by far the dominant ligand binding chain in T cells, B cells, and monocytes. Addition of GDNF or NTN to activated PBMCs reduced the amount of detectable TNF protein without altering its transcription. Together, this suggests that immune cells communicate with each other via NTN. Production of NTN by immune cells might also contribute to the neuroprotective immunity in the CNS observed in different model systems.
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PMID:Expression and function of glial cell line-derived neurotrophic factor family ligands and their receptors on human immune cells. 1608 99

The cytokine TNF activates multiple signaling pathways leading to cellular responses ranging from proliferation and survival to apoptosis. While most of these pathways have been elucidated in detail over the past few years, the molecular mechanism leading to the activation of the MAP kinases ERK remains ill defined and is controversially discussed. Therefore, we have analyzed TNF-induced ERK activation in various human and murine cell lines and show that it occurs in a cell-type-specific manner. In addition, we provide evidence for the involvement of the signaling components Fas-associated death domain protein (FADD), caspase-8, and c-FLIP in the pathway activating ERK in response to TNF. This conclusion is based on the following observations: (I) Overexpression of FADD, caspase-8, or a c-FLIP protein containing the death effector domains only leads to enhanced and prolonged ERK activation after TNF treatment. (II) TNF-induced ERK activation is strongly diminished in the absence of FADD. Interestingly, the enzymatic function of caspase-8 is not required for TNF-induced ERK activation. Additional evidence suggests a role for this pathway in the proliferative response of murine fibroblasts to TNF.
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PMID:The Fas-associated death domain protein/caspase-8/c-FLIP signaling pathway is involved in TNF-induced activation of ERK. 1612 31

The use of turmeric, derived from the root of the plant Curcuma longa, for treatment of different inflammatory diseases has been described in Ayurveda and in traditional Chinese medicine for thousands of years. The active component of turmeric responsible for this activity, curcumin, was identified almost two centuries ago. Modern science has revealed that curcumin mediates its effects by modulation of several important molecular targets, including transcription factors (e.g., NF-kappaB, AP-1, Egr-1, beta-catenin, and PPAR-gamma), enzymes (e.g., COX2, 5-LOX, iNOS, and hemeoxygenase-1), cell cycle proteins (e.g., cyclin D1 and p21), cytokines (e.g., TNF, IL-1, IL-6, and chemokines), receptors (e.g., EGFR and HER2), and cell surface adhesion molecules. Because it can modulate the expression of these targets, curcumin is now being used to treat cancer, arthritis, diabetes, Crohn's disease, cardiovascular diseases, osteoporosis, Alzheimer's disease, psoriasis, and other pathologies. Interestingly, 6-gingerol, a natural analog of curcumin derived from the root of ginger (Zingiber officinalis), exhibits a biologic activity profile similar to that of curcumin. The efficacy, pharmacologic safety, and cost effectiveness of curcuminoids prompt us to "get back to our roots."
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PMID:Curcumin: getting back to the roots. 1638 89

Mouse mast cell development and survival are largely controlled by the cytokines IL-3 and stem cell factor (SCF). We have found that IL-3 stimulation of bone marrow cells induces the production of TNF via a PI3K- and MAPK kinase/ERK-dependent pathway. Specifically, Mac-1-positive cells were responsible for TNF production, which peaked on days 7-10 of culture and decreased rapidly thereafter. The importance of IL-3-induced TNF secretion was demonstrated by the failure of TNF-deficient bone marrow cells to survive for >3 wk when cultured in IL-3 and SCF, a defect that was reversed by the addition of soluble TNF. The development of human mast cells from bone marrow progenitors was similarly hampered by the addition of TNF-blocking Abs. Cell death was due to apoptosis, which occurred with changes in mitochondrial membrane potential and caspase activation. Apoptosis appeared to be due to loss of IL-3 signaling, because TNF-deficient cells were less responsive than their wild-type counterparts to IL-3-mediated survival. In vitro cultured mast cells from TNF-deficient mice also demonstrated reduced expression of the high affinity IgE receptor, which was restored to normal levels by the addition of soluble TNF. Finally, TNF-deficient mice demonstrated a 50% reduction in peritoneal mast cell numbers, indicating that TNF is an important mast cell survival factor both in vitro and in vivo.
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PMID:IL-3-mediated TNF production is necessary for mast cell development. 1645 67

Lipopolysaccharide (LPS) and muramyl dipeptide (MDP) are components of bacterial cell walls that cause innate immune responses and inflammation. Toll-like receptor 4 (TLR4) is a receptor for LPS and transduces signals through myeloid differentiation factor 88 (MyD88), which plays essential roles in the TLR/interleukin (IL)-1R signaling and activates MAP/ERK kinase (MEK)/ERK pathway to induce receptor activator of NF-kappaB ligand (RANKL) expression in osteoblasts. Osteoblasts express nucleotide oligomerization domain (NOD)2, an intracellular sensor for MDP, in response to LPS, IL-1 and TNF. NOD2 binds receptor-interacting protein (RIP2), a serine/threonine kinase which transduces NF-kappaB signaling. MDP synergistically enhances osteoclast formation induced by LPS, IL-1 and TNF through RANK ligand up-regulation in osteoblasts. TLR4 and NOD2 recognize bacterial components on cell surfaces and inside cells, respectively, and these signals up-regulate RANKL expression in osteoblasts, which results in enhancing osteoclast formation and function.
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PMID:[Bone destruction caused by osteoclasts]. 1646 24

Plasma high-density lipoprotein and apolipoprotein AI (apoAI) levels are suppressed by tumor necrosis factor alpha. To determine the molecular mechanisms responsible for the effect of TNF alpha on the apoAI promoter activity, HepG2 cells were exposed to both genetic and pharmacological modulators of TNF alpha-mediated signaling in the presence or absence of TNF alpha. Exogenous ERK1 and ERK2 expression suppressed basal apoAI promoter activity; however, only ERK2 enhanced the ability of TNF alpha to suppress apoAI promoter activity. Exogenous expression of all three MEK isoforms (MEK1, MEK2A, and MEK2E) suppressed basal apoAI promoter activity and further aggravated TNF alpha-related apoAI promoter activity inhibition. Treatment with SB202190 (p38 MAP kinase inhibitor) alone significantly increased apoAI promoter activity; however, in the presence of TNF alpha, apoAI promoter activity was suppressed to an extent similar to that in cells not treated with SB202190. ApoAI promoter activity increased in cells treated with the specific JNK inhibitor SP600125, but unlike SB202190 treatment, the level of TNF alpha-related apoAI promoter inhibition was reduced by 50%. Similarly, the level of TNF alpha-related apoAI promoter inhibition was reduced in cells transfected with JNK1 siRNA. Finally, treatment of cells with the NF-kappaB inhibitors BAY and SN-50 or overexpression of NF-kappaB subunits p50 and p65 had no effect on the ability of TNF alpha to repress apoAI promoter activity. These results suggest that TNF alpha suppresses apoAI promoter activity through both the MEK/ERK and JNK pathways but is not mediated by either p38 MAP kinase activity or NF-kappaB activation.
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PMID:Inhibition of apolipoprotein AI gene expression by tumor necrosis factor alpha: roles for MEK/ERK and JNK signaling. 1647 30

Mesenchymal cells are successfully used to create cell-loaded devices in tissue engineering. Molecular properties of the cells and interaction with polymer scaffolds regulate the development of desired tissues. The present study compared the molecular markers in mesenchymal pleuripotent C3H10T1/2 and osteogenic MBA-15 cells. The cells express transcription factors (TF) of chondro-ostegenic pathway (cbfa-1 and c-fos) and MyoD - TF of muscle differentiation pathway, but not myogenin. Analyzed cells expressed receptors for glucocorticoids, growth hormone, prolactin, and PTH, which indicates their potential responsiveness to systemic signals. Analysis of mRNA encoding for receptors of TGFbeta, TNF, and various interleukins revealed differential expression of IL-2r and TGFbeta-1r receptors, which were expressed by MBA-15 but not by C3H10T1/2 cells. Expression of functional genes indicates differences in the stages of cell differentiation: ALK was present in MBA-15 only, while both cell types expressed collagen-I. Furthermore, we evaluated the expression of adhesion proteins that mediate cell-polymer interactions by flow cytometry analysis. Cell adhesion molecules (CAMs) analyzed were integrinalpha-M (CD11b), selectin-E (CD62E), and PECAM-1 (CD31), which have shown differential expression on cells cultured on plastic, poly(L-lactic acid) (PLLA) or poly(DL-lactide-glycolide acid) (PDLGA) polymer films. Detailed molecular characterization of mesenchymal cells will enable optimization of culture conditions for successful creation of implantable cell-loaded constructs.
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PMID:Molecular and cellular characterization of mesenchymal progenitors for skeletal biomedical devices. 1657 7

Erosive osteolysis induced by implant-derived wear debris is mediated by recruitment and activation of osteoclasts in a pro-inflammatory microenvironment that is enriched with osteoclastogenic and pro-inflammatory cytokines such as RANKL and tumor necrosis factor alpha (TNF-alpha). These cytokines activate the transcription factor NF-kappaB and MAP kinases, including c-Jun, Erks, and p38, all known to be essential for the development of osteoclasts. We have recently documented that TNF and RANKL play a pivotal role in the development of inflammatory osteolysis. We have also found that polymethyl methacrylate (PMMA) particles stimulate osteoclastogenesis, at least in part, by induction of RANKL, TNF, and by activation of NF-kappaB and MAP kinases. More importantly, our data indicate that inhibitors of NF-kappaB and the MAP kinases p38 and ERK abrogate particle-induced osteoclastogenesis. In the current study, we investigated if inhibition of c-Jun N-Terminal kinase (JNK) pathway alters PMMA-induced osteoclastogenesis. Our findings point out that PMMA particles activate the JNK pathway in wild-type and TLR4-null (endotoxin-resistant) osteoclast precursors. This activation was selectively blocked in a dose-dependent fashion by the JNK inhibitor SP600125. Most importantly, we provide evidence that SP600125 inhibits osteoclast formation in a reversible manner. Collectively, our findings demonstrate that activation of the JNK pathway is essential for basal and PMMA-stimulated osteoclastogenesis, and buttress the potential significance of targeting the JNK pathway to inhibit osteolysis.
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PMID:Map kinase c-JUN N-terminal kinase mediates PMMA induction of osteoclasts. 1673 13

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