Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Medulloblastoma (MB) is the most common malignant brain tumour in children. Its aetiology is unknown, although several signalling pathways controlling cell proliferation are thought to participate in the progress of the neoplasm. Mutations of the genes encoding proteins participating in the pathways triggered by embryonic growth factors like Sonic hedgehog (Shh) or WNT are often found in MB. Another model of MB development is overexpression or mutation of several types of growth factor receptors, including IGF-IR, EGF-R and PDGFR, that have the ability to activate cellular kinases responsible for promoting cell proliferation. In order to test this hypothesis, in the current paper we tested the activation of two kinases, Akt/PKB (protein kinase B) and Erk (extracellular signal-regulated kinase) and their substrates in 10 sporadic medulloblastoma cases. We show that MBs are a highly heterogeneous group of tumours that show upregulation of various signalling pathways. Nevertheless, both Akt and Erk may contribute to the progression of MB, triggering, at least in some cases, the mTOR (mammalian target of rapamycin) pathway, controlling translation of several cell cycle-related proteins. We hypothesize that Akt and Erk activation may also be associated with downregulation of protein phosphatase 2A (PP2A).
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PMID:Activation of Akt and Erk pathways in medulloblastoma. 1703 17

The best-characterized mechanism of the action of immunosuppressive drugs is to prevent T-cell clonal expansion, thus containing the magnitude of the ensuing immune response. As T-cell recruitment to the inflammatory site is another key step in the development of T-cell-mediated inflammation, we analyzed and compared the effects of two commonly used immunosuppressants, cyclosporin A (CsA) and the rapamycin-related compound SDZ-RAD, on the motility of human CD4+ T cells. We show that CsA, but not SDZ-RAD, inhibits T-cell transendothelial migration in vitro. CsA selectively impaired chemokine-induced T-cell chemotaxis while integrin-mediated migration was unaffected. The inhibition of T-cell chemotaxis correlated with reduced AKT/PKB but not ERK activation following exposure to the chemokine CXCL-12/SDF-1. In addition, CsA, but not SDZ-RAD, prevents some T-cell receptor-mediated effects on T-cell motility. Finally, we show that CsA, but not SDZ-RAD inhibits tissue infiltration by T cells in vivo. Our data suggest a prominent antiinflammatory role for CsA in T-cell-mediated tissue damage, by inhibiting T-cell trafficking into tissues in addition to containing clonal expansion.
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PMID:Differential effects of immunosuppressive drugs on T-cell motility. 1706 98

Lipopolysaccharide (LPS), a component of the cell wall of Gram-negative bacteria, is an important mediator of innate immunity and septic shock, but the exact mechanisms mediating cellular LPS recognition and the subsequent translation to inflammatory gene expression remain incompletely understood. CD14 has been established as a receptor that confers high sensitivity to LPS in cells of the myeloid lineage, probably by presenting LPS to Toll receptors. We use an anti CD14 blocking antibody to define a LPS stimulus that activates only this high affinity component of the LPS receptor and then examine CD14 dependent signaling events that are activated in response to LPS stimulation. We describe a novel LPS activated signaling pathway in human PBMC that leads to cytokine production and is mediated by PI3 kinase through Ras and the MEK/ERK cassette. Moreover, we show the PI3 kinase effectors PKB and PKC(zeta) are also activated by PI3 kinase in a CD14 dependent manner in LPS stimulated human PBMC. Thus, PI3 kinase appears to be an essential component in LPS signal transduction.
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PMID:Phosphatidyl inositol-3-phosphate kinase mediates CD14 dependent signaling. 1712 2

Focal adhesion kinase (FAK) is important to cellular functions such as proliferation, migration, and survival of anchorage-dependent cells. We investigated the role of FAK in modulating normal cellular responses, specifically cell survival in response to inflammatory stimuli and serum withdrawal, using FAK-knockout (FAK(-/-)) embryonic fibroblasts. FAK(-/-) fibroblasts were more vulnerable to TNF-alpha-induced apoptosis, as measured by terminal deoxynucleotidyl transferase positivity. FAK(-/-) fibroblasts also demonstrated increased procaspase-3 cleavage to p17 subunit, whereas this was undetectable in FAK(+/+) fibroblasts. Insulin receptor substrate-1 expression was completely abolished and NF-kappaB activity was reduced, with a concomitant decrease in abundance of the anti-apoptotic protein Bcl-x(L) in FAK(-/-) cells. Upon serum withdrawal, FAK(+/+) cells exhibited marked attenuation of basal ERK phosphorylation, while FAK(-/-) cells, in contrast, maintained high basal ERK phosphorylation. Moreover, inhibition of ERK phosphorylation potentiated serum withdrawal-induced caspase-3 activity. This was paralleled by increased insulin receptor substrate (IRS)-2 expression in FAK(-/-) cells, although both insulin- and IGF-1-mediated phosphorylation of Akt/PKB and GSK-3 were impaired. This suggests that IRS-2 protects against apoptosis upon serum withdrawal via the ERK signaling pathway. The specific role of FAK to protect cells from apoptosis is regulated by activation and phosphorylation of NF-kappaB and interaction between activated growth factor anti-apoptotic signaling pathways involving both phosphatidylinositol 3-kinase/Akt and MAPK/ERK1/2. We demonstrate that FAK is necessary for upregulation of the anti-apoptotic NF-kappaB response, as well as for normal expression of growth factor signaling proteins. Thus we propose a novel role for FAK in protection from cytokine-mediated apoptosis.
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PMID:Focal adhesion kinase mediates cell survival via NF-kappaB and ERK signaling pathways. 1713 1

The importance of PP2A in the regulation of Akt/PKB activity has long been recognized but the nature of the holoenzyme involved and the mechanisms controlling dephosphorylation are not yet known. We identified IEX-1, an early gene product with proliferative and survival activities, as a specific inhibitor of B56 regulatory subunit-containing PP2A. IEX-1 inhibits B56-PP2A activity by allowing the phosphorylation of B56 by ERK. This leads to sustained ERK activation. IEX-1 has no effect on PP2A containing other B family subunits. Thus, studying IEX-1 contribution to signaling should help the discovery of new pathways controlled by B56-PP2A. By using overexpression and RNA interference, we show here that IEX-1 increases Akt/PKB activity in response to various growth factors by preventing Akt dephosphorylation on both Thr(308) and Ser(473) residues. PP2A-B56beta and gamma subunits have the opposite effect and reverse IEX-1-mediated Akt activation. The effect of IEX-1 on Akt is ERK-dependent. Indeed: (i) a IEX-1 mutant deficient in ERK binding had no effect on Akt; (ii) ERK dominant-negative mutants reduced IEX-1-mediated increase in pAkt; (iii) a B56beta mutant that cannot be phosphorylated in the ERK.IEX-1 complex showed an enhanced ability to compete with IEX-1. These results identify B56-containing PP2A holoenzymes as Akt phosphatases. They suggest that IEX-1 behaves as a general inhibitor of B56 activity, enabling the control of both ERK and Akt signaling downstream of ERK.
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PMID:Inhibition of B56-containing protein phosphatase 2As by the early response gene IEX-1 leads to control of Akt activity. 1720 Jan 15

Patients with neurofibromatosis type 1 (NF1), resulting from neurofibromin gene mutations, frequently suffer from deficits in learning and spatial memory. Mice heterozygous for functional deletion of the NF1 gene (NF1(+/-) mice) also exhibit compromised spatial learning, and deficits in early-stage hippocampal long-term potentiation (LTP). Neurofibromin is a multifunctional protein which acts in part as an inhibitory constraint on Ras signalling, and the deficits in early-stage LTP and spatial learning have been linked to Ras hyperactivation. However, the downstream targets of Ras hyperactivation that lead to cognitive disruption are unknown. The levels of activity of signalling molecules potentially downstream of Ras were therefore studied in NF1(+/-) mice. Elevated phospho-ERK (pERK) levels were observed in the hippocampi from NF1(+/-) mice, while phospho-Akt/PKB (pAkt) and phospho-eIF4E (peIF4E) levels were unchanged relative to wild-type mice. Hippocampal levels of phospho-CREB (pCREB) were also increased, suggesting potential changes in late-phase LTP in NF1(+/-) mice. Indeed, LTP was found to be impaired for at least 4 h following induction in NF1(+/-) mice, linking neurofibromin function with the long-term maintenance of LTP. Remarkably, U0126, an inhibitor of ERK activation, at doses which reduced the hyperactive pERK levels in NF1(+/-) mice to the levels observed in control mice, caused a reduction in the deficits in early-phase LTP and completely rescued the long-term LTP deficits. In contrast to the abundant evidence that reductions in ERK activity lead to impaired plasticity, these data indicate that ERK hyperactivation in a partial model of type 1 neurofibromatosis leads to deficits in long-lasting hippocampal plasticity.
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PMID:Restored plasticity in a mouse model of neurofibromatosis type 1 via inhibition of hyperactive ERK and CREB. 1724 Dec 71

The last decade has seen the molecular chaperone heat shock protein 90 (HSP90) emerge as an exciting target for cancer therapy. This is because HSP90 is involved in maintaining the conformation, stability, activity and cellular localisation of several key oncogenic client proteins. These include, amongst others, ERBB2, C-RAF, CDK4, AKT/PKB, steroid hormone receptors, mutant p53, HIF-1alpha , survivin and telomerase hTERT. Therefore, modulation of this single drug target offers the prospect of simultaneously inhibiting all the multiple signalling pathways and biological processes that have been implicated in the development of the malignant phenotype. The chaperone function of HSP90 requires the formation of a multichaperone complex, which is dependent on the hydrolysis of ATP and ADP/ATP exchange. Most current inhibitors of HSP90 act as nucleotide mimetics, which block the intrinsic ATPase activity of this molecular chaperone. The first-in-class inhibitor to enter and complete phase I clinical trials was the geldanamycin analogue, 17-allylamino-17-demethoxygeldanamycin. The results of these trials have demonstrated that HSP90 is a valid drug target. Evidence of clinical activity has been seen in patients with melanoma, breast and prostate cancer. This article provides a personal perspective of the present efforts to increase our understanding of the molecular and cellular consequences of HSP90 inhibition, with examples from work in our own laboratory. We also review the discovery and development of novel small-molecule inhibitors and discuss alternative approaches to inhibit HSP90 activity, both of which offer exciting prospects for the future.
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PMID:Targeting of multiple signalling pathways by heat shock protein 90 molecular chaperone inhibitors. 1725 53

Insulin exerts pleiotropic effects at the cellular level. Signaling via the two isoforms of the insulin receptor (IR) may explain the activation of different signaling cascades, while it remains to be explored how selectivity is achieved when utilizing the same IR isoform. We now demonstrate that insulin-stimulated transcription of c-fos and glucokinase genes is activated simultaneously in the insulin-producing beta-cell via IR-B localized in different cellular compartments. Insulin activates the glucokinase gene from plasma membrane-standing IR-B, while c-fos gene activation is dependent on clathrin-mediated IR-B-endocytosis and signaling from early endosomes. Moreover, glucokinase gene up-regulation requires the integrity of the juxtamembrane IR-B NPEY-motif and signaling via PI3K-C2alpha-like/PDK1/PKB, while c-fos gene activation requires the intact C-terminal YTHM-motif and signaling via PI3K Ia/Shc/MEK1/ERK. By using IR-B as an example it is thus possible to demonstrate how spatial segregation allows simultaneous and selective signaling via the same receptor isoform in the same cell.
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PMID:Selective gene activation by spatial segregation of insulin receptor B signaling. 1726 62

An important function of growth hormone (GH) is to promote cell and tissue growth, and a key component of these effects is the stimulation of protein synthesis. In this study, we demonstrate that, in H4IIE hepatoma cells, GH acutely activated protein synthesis through signaling via the mammalian target of rapamycin (mTOR) and specifically through the rapamycin-sensitive mTOR complex 1 (mTORC1). GH treatment enhanced the phosphorylation of two targets of mTOR signaling, 4E-BP1 and ribosomal protein S6. Phosphorylation of S6 and 4E-BP1 was maximal at 30-45 min and 10-20 min after GH stimulation, respectively. Both proteins modulate components of the translational machinery. The GH-induced phosphorylation of 4E-BP1 led to its dissociation from eIF4E and increased binding of eIF4E to eIF4G to form (active) eIF4F complexes. The ability of GH to stimulate the phosphorylation of S6 and 4E-BP1 was blocked by rapamycin. GH also led to the dephosphorylation of a third translational component linked to mTORC1, the elongation factor eEF2. Its regulation followed complex biphasic kinetics, both phases of which required mTOR signaling. GH rapidly activated both the MAP kinase (ERK) and PI 3-kinase pathways. Signaling through PI 3-kinase alone was, however, sufficient to activate the downstream mTORC1 pathway. Consistent with this, GH increased the phosphorylation of TSC2, an upstream regulator of mTORC1, at sites that are targets for Akt/PKB. Finally, the activation of overall protein synthesis by GH in H4IIE cells was essentially completely inhibited by wortmannin or rapamycin. These results demonstrate for the first time that mTORC1 plays a major role in the rapid activation of protein synthesis by GH.
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PMID:The rapid activation of protein synthesis by growth hormone requires signaling through mTOR. 1728 72

Tanshinone IIA is the major antioxidant component in the traditional Chinese medicine Salvia miltiorrhiza. Transcription factor nuclear-factor-E2-related factor (Nrf2) regulates a battery of antioxidant response element (ARE)-regulated genes. The aim of this study was to determine the effect of tanshinone IIA on Nrf2 activation and intracellular redox status in human aortic smooth muscle cells. Tanshinone IIA potentiated tumor necrosis factor alpha (TNF-alpha)-mediated nuclear accumulation of Nrf2 and expression of ARE-related genes, while it reversed TNF-alpha-induced down-regulation of intracellular glutathione (GSH), NADPH and glucose 6-phosphate dehydrogenase (G6PDH) levels. Specific silence of Nrf2 by siRNA down-regulated tanshinone IIA-induced Nrf2 activation and increased of intracellular GSH, NADPH and G6PDH levels. Tanshinone IIA-induced Nrf2 activation was association with activation of ERK and PKB, which was prevented by treatment with PD098059 or wortmannin. Tanshinone IIA attenuated TNF-alpha, angiotensin II, H(2)O(2)-mediated reactive oxygen species (ROS) production. These results demonstrated that tanshinone IIA-induced Nrf2 activation is the major regulatory pathway of cytoprotective gene expression against oxidative stress via ERK and PKB signaling pathways.
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PMID:Nrf2 is involved in the effect of tanshinone IIA on intracellular redox status in human aortic smooth muscle cells. 1730 87


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