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

We first examined the involvement of the complex sphingolipids in cell-substratum adhesion using GM-95, a mutant cell line deficient in glycosphingolipids (GSLs) due to the lack of ceramide glucosyltransferase activity. We determined the adhesion of the mutant cells and stable transfectants expressing GSLs, which were established by transfection of GlcT-1 cDNA into GM-95 cells under neutral sphingomyelinase (sm) treatment. We confirmed that complex sphingolipids play critical roles in cell-substratum adhesion, and the presence of either GSLs or SM is sufficient for the adhesion. We also investigated intracellular signaling (glycosignaling) mediated by endogenous GM1a involved in the neuronal differentiation of PC12 cells using the cholera toxin B subunit (CTB) that specifically binds to ganglioside GM1a. Treatment with CTB induced neuron-like differentiation of PC12 cells. Biochemical analyses demonstrated that the tyrosine phosphorylation induced by CTB was responsible for neuron-like differentiation of PC12 cells and that the MEK-ERK cascade is a part of the biological signals mediated by endogenous ganglioside GM1a on PC12 cells. We further demonstrated that glycosignaling is mediated through a high-affinity ligand, PSGL-1, for P-selection on neutrophils. In this case, engagement of PSGL-1 on the cell surface strongly induced tyrosine phosphorylation of several cellular proteins including ERKs and activated a canonical MAP kinase pathway. Tyrosine phosphorylation induced by engagement of PSGL-1 is responsible for the secretion of interleukin-8 from neutrophils, suggesting that PSGL-1-mediated glycosignals are involved in the progression of the inflammatory response. In this review, we mainly discuss the biological and pathological significance of glycoconjugates in relation to the above issues.
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PMID:[Functional glycoconjugates involved in cellular interaction]. 1277 88

Several findings support the importance of GM1-enriched lipid microdomains of plasma membrane and of Vav, an essential regulator of actin cytoskeletal rearrangement, in the regulation of T cell activation. Moreover, a functional link among lipid microdomains, Vav and the HIV product Nef has been described. These observations suggest that Nef can modify plasma membrane GM1, affecting the behavior of HIV-infected cells towards antigen recognition and Vav towards counteracting such an effect. We observed that Nef expression, either following viral infection or ectopic expression, significantly decreased the level of plasma membrane GM1 in unstimulated T cells. This down-regulation was associated with the inhibition of NF-AT activation, but not with NF-kappaB activation induced by TCR engagement. Dissecting the signaling pathway that regulates NF-AT activation, we found that Nef inhibited exclusively the Ca(2+)/calcineurin cascade, whereas the JNK cascade and AP-1 transcriptional activity were not affected. Our evidence that Vav overexpression counteracted both the Nef-induced decrease of GM1 expression and the inhibition of NF-AT activity, suggests a novel mechanism by which Nef may interfere with TCR-mediated activation through the modulation of intracellular trafficking and clustering of GM1-enriched microdomains at the cell surface.
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PMID:Vav exchange factor counteracts the HIV-1 Nef-mediated decrease of plasma membrane GM1 and NF-AT activity in T cells. 1288 93

Ganglioside GM1 has been considered to have a neurotrophic factor-like activity. To analyze the effects of endogenously generated GM1, the rat pheochromocytoma cell line PC12 was transfected with the GM1/GD1b/GA1 synthase gene and showed increased expression levels of GM1. To our surprise, GM1+-transfectant cells (GM1+ cells) showed no neurite formation after stimulation with nerve growth factor (NGF). Autophosphorylation of NGF receptor TrkA and activation of ERK1/2 after NGF treatment were scarcely detected in GM1+ cells. Binding of 125I-NGF to PC12 cells was almost equivalent between GM1+ cells and controls. However, dimer formation of TrkA upon NGF treatment was markedly suppressed in GM1+ cells in both cross-linking analysis with Bis(sulfosuccinimidyl)suberate 3 and 125I-NGF binding assay. The sucrose density gradient fractionation of the cell lysate revealed that TrkA primarily located in the lipid raft fraction moved to the non-raft fraction in GM1+ cells. p75NTR and Ras also moved from the raft to non-raft fraction in GM1+ cells, whereas flotillin and GM1 persistently resided in the lipid raft. TrkA kinase activity was differentially regulated when GM1 was added to the kinase assay system in vitro, suggesting suppressive/enhancing effects of GM1 on NGF signals based on the concentration. Measurement of fluorescence recovery after photobleaching revealed that the membrane fluidity was reduced in GM1+ cells. These results suggested that overexpressed GM1 suppresses the differentiation signals mediated by NGF/TrkA by modulating the properties of the lipid raft and the intracellular localization of NGF receptors and relevant signaling molecules.
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PMID:Overexpressed GM1 suppresses nerve growth factor (NGF) signals by modulating the intracellular localization of NGF receptors and membrane fluidity in PC12 cells. 1514 33

While long-term effects of temperature treatment in respect of, e.g., gene-expression and cellular function have already been studied in some detail, nothing is known on the physiological responses of lymphocytes during short-term hypothermal shifts. In this report, we characterized the effects of such a stimulation using the human lymphocyte cell line Jurkat E6.1 and present evidence that warming from 4 to 37 degrees C for only 2 min is sufficient to cause co-localization of CD3, prion protein and the lipid-raft ganglioside GM1 paralleling lymphocyte activation as observed by Ca(2+) mobilization and mitogen-activated protein kinase-phosphorylation.
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PMID:Co-localization of CD3 and prion protein in Jurkat lymphocytes after hypothermal stimulation. 1514 80

We previously demonstrated that overexpression of sigma-1 receptors (sigma-1R) potentiated neurite sprouting caused by nerve growth factor in PC12 cells (Takebayashi et al. 2002 J Pharmacol Exp Ther 202:1227-1237). In this study we examined if sigma-1R may be involved in the action of epidermal growth factor (EGF). EGF is conventionally recognized as a mitogenic factor that stimulates only the proliferation of various types of cells, including PC12 cells. We found here that in sigma-1 receptor-overexpressing PC12 cells (sigma-1R OE cells), EGF markedly stimulates neuritogenesis without affecting cellular proliferation. EGF receptors (EGFR) are largely reduced in lipid rafts and are enriched in non-raft regions in sigma-1R OE cells. The enrichment of EGFR in the non-raft region is correlated with enhanced downstream signaling of EGFR including the phosphorylation of both EGFR and extracellular signal-regulated kinases (ERKs). Destruction of cholesterol-containing rafts by treating cells with methyl-beta-cyclodextrin also causes a reduction of EGFR in lipid rafts, a concomitant increase in the phosphorylation of both EGFR and ERK, and an increase in the EGF-induced neurite sprouting in wildtype cells. Furthermore, while overexpression of sigma-1R increases the level of lipid raft-associated cholesterol, the overexpression alters the levels of gangliosides in lipid rafts: GM1 and GM2 are decreased, whereas GD1a is increased. We conclude that sigma-1R cause the remodeling of lipid rafts, at least by increasing the level of lipid raft-associated cholesterol and by altering the levels of certain critical lipid raft-forming gangliosides. sigma-1R may thus play an important role in directing EGF signaling towards neuritogenesis, perhaps by shifting EGFR from the lipid raft into non-raft regions.
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PMID:Sigma-1 receptors potentiate epidermal growth factor signaling towards neuritogenesis in PC12 cells: potential relation to lipid raft reconstitution. 1517 Aug 21

Although CD28 is the principal T cell costimulatory molecule for the T cell receptor, a number of other cell surface proteins have costimulatory functions and perform specific roles in different contexts. Here we analyzed the mechanism of CD99 costimulation of the T cell receptor. Cooperation of CD99 engagement with suboptimal TCR/CD3 signals resulted in greatly enhanced CD4+ T cell proliferation. CD99 costimulation also led to elevated expression of CD25 and GM1 on the CD4+ T cell surface within 3 days. In Jurkat TAg cells, CD99 costimulation led to increased apoptosis compared to stimulation with CD3 or CD99 alone. CD99 costimulation also augmented activation of MAP kinases, especially of JNK, and increased AP-1 activation was also observed using a luciferase reporter assay. These results show that CD99 has a costimulatory function for T cells and acts by a mechanism distinct from CD28.
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PMID:CD99 costimulation up-regulates T cell receptor-mediated activation of JNK and AP-1. 1552 94

c-H-ras is located in lipid/rafts and undergoes cholesterol dependent regulation. To analyze the regulatory effects of ganglioside GM1 on the proliferation of fibroblasts transformed with mutated ras gene, GM1 synthase cDNA was transfected into NIH3T3/H-ras cells containing mutation. In the transient expression system with EGFP-fused GM1 synthase, the ratio of BrdU-positive cells among EGFP-positive cells was compared between GM1(+) transfectant cells and control cells, indicating that the transient GM1 expression suppresses cell proliferation. Then, established transfectant cells C21 and C34 expressed definite levels of GM1, and analyzed for the cell growth with the control cells D2 and D4 expressing no GM1. GM1(+) cells showed reduced proliferation compared with controls. Phosphorylation levels of ERK1/2 after FCS treatment were examined, showing that those on the GM1(+) transfectant cells increased slowly, while those in the controls rapidly reached the plateau. Fractionation of Triton X-100 extracts with sucrose density gradient ultra-centrifugation revealed that activated H-ras proteins from controls as well as NIH3T3/H-ras were completely localized in non-GEM/raft fraction. On the other hand, some portions of activated H-ras were transferred to GEM/raft fraction, i.e., 32% in C21, and 8% in C34. Since the Ras effector Raf-1 was localized in non-GEM/raft, the growth suppression might be caused, at least partly, by the movement of activated H-ras to GEM/raft fraction.
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PMID:GM1 expression in H-ras-transformed NIH3T3 results in the suppression of cell proliferation inducing the partial transfer of activated H-ras from non-raft to raft fraction. 1575 83

GM1a [Gal beta1-3GalNAc beta1-4(NeuAc alpha2-3)Gal beta1-4Glc beta1-1Cer] is known to support and protect neuronal functions. However, we report that alpha-linolenic acid-containing GM1a (C18:3-GM1a), which was prepared using the reverse hydrolysis reaction of sphingolipid ceramide N-deacylase, induced apoptosis in neuronal cells. Intranucleosomal DNA fragmentation, chromatin condensation, and caspase activation, all typical features of apoptosis, were observed when mouse neuroblastoma Neuro2a cells were cultured with C18:3-GM1a but not GM1a containing stearic acid (C18:0) or oleic acid (C18:1). The phenotype of Neuro2a cells induced by C18:3-GM1a was similar to that evoked by lyso-GM1a. However, lyso-GM1a caused a complete disruption of lipid microdomains of Neuro2a cells and hemolysis of sheep erythrocytes, whereas C18:3-GM1a did neither. C18:3-GM1a, but not lyso-GM1a, was found to be abundant in lipid microdomains after the removal of loosely bound GM1a by BSA. The activation of stress-activated protein kinase/c-Jun N-terminal kinase in Neuro2a cells was observed with lyso-GM1a but not C18:3-GM1a. These results indicate that the mechanism of apoptosis induced by C18:3-GM1a is distinct from that caused by lyso-GM1a. This study also clearly shows that fatty acid composition of gangliosides significantly affected their pharmacological activities when added to the cell cultures and suggests why naturally occurring gangliosides do not possess polyunsaturated fatty acids as a major constituent.
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PMID:C18:3-GM1a induces apoptosis in Neuro2a cells: enzymatic remodeling of fatty acyl chains of glycosphingolipids. 1577 22

We investigated the ability of GM1 to induce phosphorylation/activation of the extracellular-regulated protein kinases (ERKs) in the striatum, hippocampus and frontal cortex of aged male Sprague-Dawley rats. Three different treatment paradigms were used: a single application of GM1 to brain slices in situ, a single intracerebroventricular (icv) administration of GM1 in vivo, and chronic administration of GM1 in vivo. In situ, GM1 induced a rapid and transient activation of ERK1 and ERK 2 in both young and aged rats, and a similar effect was observed after stimulation with the neurotrophins NGF and BDNF. The aged brain appeared to respond more robustly to neurotrophic stimulation with the pERK2 response being significantly greater in the hippocampus and frontal cortex. Acute icv administration of GM1 resulted in short-lasting phosphorylation of ERKs in both aged groups, while chronic administration of GM1 induced a protracted phosphorylation of ERKs. Following chronic GM1 treatment, pERK2 levels in the aged hippocampus were elevated over young control animals. In agreement with reports that GM1 phosphorylates TrkA in vitro or in situ, treatment with GM1 increased the phosphorylation of TrkA in hippocampus of both young and aged animals. These observations indicate that the aged brain maintains the ability to respond to neurotrophic stimuli and put forward the proposition that the ERK cascade is associated with the action(s) of GM1 ganglioside in vivo.
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PMID:GM1 and ERK signaling in the aged brain. 1608

Divergent hypotheses exist to explain how signaling by the B cell receptor (BCR) is initiated after antigen binding and how it is qualitatively altered in anergic B cells to selectively uncouple from nuclear factor kappaB and c-Jun N-terminal kinase pathways while continuing to activate extracellular signal-regulated kinase and calcium-nuclear factor of activated T cell pathways. Here we find that BCRs on anergic cells are endocytosed at a very enhanced rate upon binding antigen, resulting in a large steady-state pool of intracellularly sequestered receptors that appear to be continuously cycling between surface and intracellular compartments. This endocytic mechanism is exquisitely sensitive to the lowering of plasma membrane cholesterol by methyl-beta-cyclodextrin, and, when blocked in this way, the sequestered BCRs return to the cell surface and RelA nuclear accumulation is stimulated. In contrast, when plasma membrane cholesterol is lowered and GM1 sphingolipid markers of membrane rafts are depleted in naive B cells, this does not diminish BCR signaling to calcium or RelA. These results provide a possible explanation for the signaling changes in clonal anergy and indicate that a chief function of membrane cholesterol in B cells is not to initiate BCR signaling, but instead to terminate a subset of signals by rapid receptor internalization.
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PMID:Essential role of membrane cholesterol in accelerated BCR internalization and uncoupling from NF-kappa B in B cell clonal anergy. 1680 1


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