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 Akt kinase plays a crucial role in supporting Trk-dependent cell survival, whereas the p75 neurotrophin receptor (p75NTR) facilitates cellular apoptosis. The precise mechanism that p75NTR uses to promote cell death is not certain, but one possibility is that p75NTR-dependent ceramide accumulation inhibits phosphatidylinositol 3-kinase-mediated Akt activation. To test this hypothesis, we developed a system for examining p75NTR-dependent apoptosis and determined the effect of p75NTR on Akt activation. Surprisingly, p75NTR increased, rather than decreased, Akt phosphorylation in a variety of cell types, including human Niemann-Pick fibroblasts, which lack acidic sphingomyelinase activity. The p75NTR expression level required to elicit Akt phosphorylation was much lower than that required to activate the JNK pathway or to mediate apoptosis. We show that p75NTR-dependent Akt phosphorylation was independent of TrkA signaling, required active phosphatidylinositol 3-kinase, and was associated with increased tyrosine phosphorylation of p85 and Shc and with reduced cytosolic tyrosine phosphatase activity. Finally, we show that p75NTR expression increased survival in cells exposed to staurosporine or subjected to serum withdrawal. These findings indicate that p75NTR facilitates cell survival through novel signaling cascades that result in Akt activation.
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PMID:The p75 neurotrophin receptor activates Akt (protein kinase B) through a phosphatidylinositol 3-kinase-dependent pathway. 1131 66

Estrogen receptors are extensively colocalized with neurotrophins and their receptors in the rodent forebrain. We have shown previously that estrogen increases mRNA and protein expression of the nerve growth factor (NGF)-specific tyrosine kinase receptor, trkA, while decreasing expression of the universal neurotrophin receptor p75. In view of the pro-survival roles described for trks and the context-dependent stimulation of survival and cell death pathways activated by p75, differential regulation of these receptors by estrogen is likely to alter neurotrophin-dependent cell signaling. This hypothesis was tested in vivo, using the rodent olfactory bulb as a model. We found that NGF activated the extracellular signal-regulated protein kinase (ERK) equally in estrogen replaced and hormone-deprived animals. However in the case of c-jun-kinase (JNK), a related MAP kinase, pretreatment with estrogen altered NGF activation of a specific isoform of this protein. Specifically, NGF stimulation did not alter JNK1 or JNK2 activation in the estrogen-deprived condition, but significantly increased JNK2 activation in estrogen-replaced animals. Increased JNK2 phosphorylation in the NGF-injected, estrogen- replaced animals was paralleled by decreased activity of caspase-3, an enzyme required for apoptosis. In view of the disparate roles assigned to JNK, this latter finding suggests that estrogen pretreatment may preferentially direct neurotrophin-dependent JNK activation toward regeneration and plasticity rather than cell death.
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PMID:NGF stimulation increases JNK2 phosphorylation and reduces caspase-3 activity in the olfactory bulb of estrogen-replaced animals. 1135 87

TNF-alpha transduces signals of survival or death via its two receptors, R1/p55/p60 and RII/p80/p75. The role of caspases as effectors of cell death is universally accepted, although caspase inhibitors may potentiate TNF cytotoxicity in some instances. In conditions when macromolecular synthesis is blocked, caspases are part of the machinery that executes TNF-triggered apoptotic death in U937, a human myelomonocyte cell line, and in the Jurkat T cell line. However, inhibition of p38 mitogen-activated protein kinase (p38 MAPK) triggered TNF cytotoxicity in U937 cells and murine splenic macrophages, but not the Jurkat cell line. TNF induced expression of the antiapoptotic protein c-IAP2 (cytoplasmic inhibitor of apoptosis protein 2), and was blocked in the presence of a p38 MAPK inhibitor, which also induced caspase-dependent, TNF-mediated apoptosis in U937 cells. Thus, inhibition of p38 MAPK resulted in the activation of caspase 9 and cleavage of the adaptor molecule BH3 interacting domain death agonist, and blocked NF-kappaB-mediated transactivation, without affecting the nuclear translocation of NF-kappaB. Collectively, these data show that activation of p38 MAPK is critical to cell survival by TNF in U937 cells, and demonstrate lineage-specific regulation of TNF-triggered signals of activation or apoptosis.
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PMID:Inhibition of p38 kinase reveals a TNF-alpha-mediated, caspase-dependent, apoptotic death pathway in a human myelomonocyte cell line. 1135 9

In this study, we examined the expression of nerve growth factor (NGF) and its receptors in mouse macrophages and the mechanisms involved in the effect of NGF on tumor necrosis factor (TNF)-alpha production. Macrophages expressed NGF and the NGF receptors TrkA and p75. Treatment of J744 cells or peritoneal macrophages with NGF induced a large increase in the production of TNF-alpha. In addition, NGF induced the secretion of nitric oxide in interferon-gamma-treated J774 cells or lipopolysaccharide-treated peritoneal macrophages. The induction of TNF-alpha production by NGF was blocked by K252a, an inhibitor of the TrkA receptor. NGF induced phosphorylation and activation of extracellular signal-regulated kinase, Erk1/Erk2 and c-Jun amino-terminal kinase, whereas it did not induce phosphorylation of p38 mitogen-activated protein kinase. Inhibition of the MAP kinase-Erk kinase pathway with PD 098059 decreased the secretion of TNF-alpha by NGF. Our results suggest that NGF has an important role in the activation of macrophages during inflammatory responses via activation of mitogen-activated protein kinases.
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PMID:Nerve growth factor regulates TNF-alpha production in mouse macrophages via MAP kinase activation. 1140 90

Posttranslational processing of the pro-growth hormone-releasing hormone (proGHRH) peptide can result in the formation of at least two peptide products: GHRH and the C-terminal peptide, GHRH-related peptide (GHRH-RP). While cyclic adenosine monophosphate transduces many of the actions of GHRH, other pathways also have been implicated in its actions. The aims of this study were to examine and characterize the activation of mitogen-activated protein kinase (MAPK) pathways by GHRH, and GHRH-RP in pituitary-derived GH3 cells, as well as the activation of the transcription factors that serve as substrates for these kinases. GHRH rapidly increased p44/p42 MAPK activity in GH3 cells in a protein kinase A-dependent and a protein kinase C-independent manner and stimulated the activation of the transcription factor Elk-1. By contrast, GHRH-RP and p75-92NH2 had no effect on p44/p42 MAPK phosphorylation in these cells. Additionally, we determined that all three peptides, GHRH, GHRH-RP, and p75-92NH2, rapidly and specifically increase phosphorylation of p38 MAPK and stimulate the activation of the nuclear factor CHOP. These are the first studies to demonstrate the activation of Elk-1 by GHRH and the activation of p38 MAPK and CHOP by GHRH, GHRH-RP, and p75-92NH2. We conclude that members of the GHRH family of peptides differentially activate multiple intracellular signaling pathways and suggest that the biologic actions of GHRH may be far more diverse than previously thought.
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PMID:Peptides derived from pro-growth hormone-releasing hormone activate p38 mitogen-activated protein kinase in GH3 pituitary cells. 1157 18

Remyelination is a critical step for functional nerve regeneration. Here we show that fibrin deposition in the peripheral nervous system after injury is a key regulator of remyelination. After sciatic nerve crush, fibrin is deposited and its clearance correlates with remyelination. Fibrin induces phosphorylation of ERK1/2 and production of p75 NGF low-affinity receptor in Schwann cells and maintains them in a nonmyelinating state, suppresses fibronectin production, and prevents synthesis of myelin proteins. In mice depleted of fibrin(ogen), remyelination of myelinated axons is accelerated due to the faster transition of the Schwann cells to a myelinating state. Regulation of fibrin clearance and/or deposition could be a key regulatory mechanism for Schwann differentiation after nerve damage.
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PMID:Fibrin inhibits peripheral nerve remyelination by regulating Schwann cell differentiation. 1190 94

The neurotrophins are growth factors that play critical roles in the development, maintenance, survival, and death of the nervous system. The signal transducing systems that mediate the diverse biological functions of the neurotrophins are initiated by their interactions with two categories of cell surface receptors, the Trk family of tyrosine kinases and the p75 neurotrophin receptor (p75NTR). While the Trk receptors are responsible for most of the survival and growth properties of the neurotrophins, the actions of p75NTR fall into two categories. First, p75NTR is a Trk co-receptor that can enhance or suppress neurotrophin-mediated Trk receptor activity. Second, p75NTR autonomously activates signaling cascades that result in the induction of apoptosis or in the promotion of survival. The signaling cascades activated by p75NTR remain elusive, but structural and functional differences between p75NTR and other tumor necrosis factor receptor (TNFR) superfamily members suggest that p75NTR employs distinct signaling pathways. p75NTR has been shown to activate the NF-kappaB, Akt, and JNK pathways and interacts with several adaptor proteins. Of these, NRAGE, NADE, and NRIF have been associated with the induction of apoptosis, and FAP-1, RIP2, and TRAF6 appear to promote cellular survival. It remains a major challenge to link the various p75NTR binding proteins to specific p75NTR-dependent functions, but the identification of p75NTR interactors and signaling pathways has sparked new directions in p75NTR research, and will provide a better understanding of this enigmatic receptor.
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PMID:Neurotrophin signaling through the p75 neurotrophin receptor. 1216 97

Nerve growth factor (NGF) has been implicated as both an inhibitor and an inducer of apoptosis. Binding of NGF to its TrkA receptor is generally considered to have an antiapoptotic effect. However, neuroblastomas that overexpress TrkA have a good prognosis and frequently regress by apoptosis either spontaneously or after chemotherapeutic treatment, whereas those that express little or no TrkA are lethal in 80-95% of patients, despite maximal therapy. We now report that NGF treatment of PC12 neural crest tumor cells trkA-transfected to express TrkA at levels analogous to those seen in "good prognosis" neuroblastomas results in cell death; similar treatment of native cells that express TrkA at levels similar to those of "poor prognosis" neuroblastomas has no effect on cell survival. Morphological and biochemical studies indicate that NGF induces atypical apoptosis that is abrogated by the tyrosine kinase inhibitor K252alpha, but not by an inhibitor of NGF-p75 binding, in trkA-transfected PC12 cells. Differential activation of the TrkA-phosphorylated mitogen-activated protein (MAP)/extracellular signal-regulated kinase (ERK) kinase 1-phosphorylated ERK-phosphorylated cAMP-responsive element-binding protein and TrkA-phosphorylated MAP/ERK kinase 3/6-phosphorylated p38 MAP signal transduction pathways, also suppressible by K252alpha, occurs in the two cell types. This difference may mediate their differential survival after exposure to NGF.
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PMID:TrkA as a life and death receptor: receptor dose as a mediator of function. 1220 32

Tumor necrosis factor (TNF) exists both as a membrane-integrated type II precursor protein and a soluble cytokine that have different bioactivities on TNFR2 (CD120b) but not on TNFR1 (CD120a). To identify the molecular basis of this disparity, we have investigated receptor chimeras comprising the cytoplasmic part of Fas (CD95) and the extracellular domains of the two TNF receptors. The membrane form of TNF, but not its soluble form, was capable of inducing apoptosis as well as activation of c-Jun N-terminal kinase and NF-kappaB via the TNFR2-derived chimera. In contrast, the TNFR1-Fas chimera displayed strong responsiveness to both TNF forms. This pattern of responsiveness is identical to that of wild type TNF receptors, demonstrating that the underlying mechanisms are independent of the particular type of the intracellular signaling machinery and rather are controlled upstream of the intracellular domain. We further demonstrate that the signaling strength induced by a given ligand/receptor interaction is regulated at the level of adaptor protein recruitment, as shown for FADD, caspase-8, and TRAF2. Since both incidents, strong signaling and robust adapter protein recruitment, are paralleled by a high stability of individual ligand-receptor complexes, we propose that half-lives of individual ligand-receptor complexes control signaling at the level of adaptor protein recruitment.
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PMID:Control of receptor-induced signaling complex formation by the kinetics of ligand/receptor interaction. 1221 50

The p75 neurotrophin receptor (p75NTR) mediates signaling events leading to activation of the JNK pathway and cell death in a variety of cell types. We recently identified NRAGE, a protein that directly interacts with the p75NTR cytosolic region and facilitates p75NTR-mediated cell death. For the present study, we developed an inducible recombinant NRAGE adenovirus to dissect the mechanism of NRAGE-mediated apoptosis. Induced NRAGE expression resulted in robust activation of the JNK pathway that was not inhibited by the pharmacological mixed lineage kinase (MLK) inhibitor CEP1347. NRAGE induced cytosolic accumulation of cytochrome c, activation of Caspases-3, -9 and -7, and caspase-dependent cell death. Blocking JNK and c-Jun action by overexpression of the JNK-binding domain of JIP1 or dominant-negative c-Jun ablated NRAGE-mediated caspase activation and NRAGE-induced cell death. These findings identify NRAGE as a p75NTR interactor capable of inducing caspase activation and cell death through a JNK-dependent mitochondrial apoptotic pathway.
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PMID:NRAGE, a p75 neurotrophin receptor-interacting protein, induces caspase activation and cell death through a JNK-dependent mitochondrial pathway. 1237 48

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