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)

The signal transduction pathway by which insulin stimulates glucose transport is largely unknown, but a role of PI-3-kinase and small GTP-binding proteins has been proposed. In previous studies we, among many others, excluded a role for the ras/MAP kinase pathway in insulin-mediated glucose transport. In this study we examined a possible role of the small GTP-binding protein rho in this process. Pretreatment of 3T3-L1 adipocytes with botulinum C3 exoenzyme (C3), which is known to ADP-ribosylate and inactivate rho, potently stimulated glucose uptake to a level similar to insulin. Interestingly, glycogen synthesis was not affected by C3 treatment. Insulin stimulates glucose uptake by triggering the translocation of GLUT4, the insulin-sensitive glucose transporter isotype, from an intracellular compartment to the plasma membrane. Similarly, C3-induced glucose uptake was paralleled by GLUT4 translocation. These data point to an important and novel role of the target of C3 (likely rho) in the regulation of GLUT4-mediated glucose transport. Our data suggest that insulin might stimulate glucose uptake through inactivation of rho.
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PMID:Clostridium botulinum C3 exoenzyme stimulates GLUT4-mediated glucose transport, but not glycogen synthesis, in 3T3-L1 adipocytes--a potential role of rho? 895 15

Hydrolysis of phosphatidylcholine via receptor-mediated stimulation of phospholipase D produces phosphatidate that can be converted to lysophosphatidate and diacylglycerol. Diacylglycerol is an activator of protein kinase C, whereas phosphatidate and lysophosphatidate stimulate tyrosine kinases and activate the Ras-Raf-mitogen-activated protein kinase pathway. These three lipids can stimulate cell division. Conversely, activation of sphingomyelinase by agonists (e.g., tumor necrosis factor-alpha) causes ceramide production that inhibits cell division and produces apoptosis. If ceramides are metabolized to sphingosine and sphingosine 1-phosphate, then these lipids can stimulate phospholipase D and are also mitogenic. By contrast, ceramides inhibit the activation of phospholipase D by decreasing its interaction with the G-proteins, ARF and Rho, which are necessary for its activation. In whole cells, ceramides also stimulate the degradation of phosphatidate, lysophosphatidate, ceramide 1-phosphate, and sphingosine 1-phosphate through a multifunctional phosphohydrolase (the Mg(2+)-independent phosphatidate phosphohydrolase), whereas sphingosine inhibits phosphatidate phosphohydrolase. Tumor necrosis factor-alpha causes insulin resistance, which may be partly explained by ceramide production. Cell-permeable ceramides decrease insulin-stimulated glucose uptake in 3T3-L1 adipocytes after 2-24 h, whereas they stimulate basal glucose uptake. These effects do not depend on decreased tyrosine phosphorylation of the insulin receptor and insulin receptor substrate-1 or the interaction of insulin receptor substrate-1 with phosphatidylinositol 3-kinase. They appear to rely on the differential effects of ceramides on the translocation of GLUT1-and GLUT4-containing vesicles. It is concluded that there is a significant interaction and "cross-talk" between the sphingolipid and glycerolipid pathways that modifies signal transduction to control vesicle movement, cell division, and cell death.
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PMID:"Cross talk" between the bioactive glycerolipids and sphingolipids in signal transduction. 896 Mar 53

Phosphatidylinositol 3-kinase (PI3K) activation is necessary for many insulin-induced metabolic and mitogenic responses. However, it is unclear whether PI3K activation is sufficient for any of these effects. To address this question we increased PI3K activity in differentiated 3T3-L1 adipocytes by adenovirus-mediated expression of both the inter-SH2 region of the regulatory p85 subunit of PI3K (iSH2) and the catalytic p110 alpha subunit (p110). Coexpression resulted in PI3K activity that exceeded insulin-stimulated activity by two- to fivefold in cytosol, total membranes, and the low density microsome (LDM) fraction, the site of greatest insulin stimulation. While insulin increased glucose transport 15-fold, coexpression of iSH2-p110 increased transport (5.2-) +/- 0.7-fold with a parallel increase in GLUT4 translocation to the plasma membrane. Constitutive activation of PI3K had no effect on maximally insulin-stimulated glucose transport. Neither basal nor insulin-stimulated activity of glycogen synthase or mitogen-activated protein kinase was altered by iSH2-p110 coexpression. DNA synthesis was increased twofold by insulin in control 3T3-L1 adipocytes transduced with beta-galactosidase-encoding recombinant adenovirus, while iSH2-p110 coexpression increased DNA synthesis fivefold. These data indicate that (i) increased PI3K activity is sufficient to activate some but not all metabolic responses to insulin, (ii) activation of PI3K to levels exceeding the effect of insulin in adipocyte LDM results in only a partial stimulation of glucose transport, and (iii) increased PI3K activity in the absence of growth factor or oncoprotein stimulation is a potent stimulus of DNA synthesis.
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PMID:Differential effects of constitutively active phosphatidylinositol 3-kinase on glucose transport, glycogen synthase activity, and DNA synthesis in 3T3-L1 adipocytes. 897 99

The serine/threonine phosphatase inhibitor, okadaic acid (OA), exerted several insulin-like effects in rat adipose cells and was, in part, synergistic with insulin. OA stimulated glucose transport activity, altered the electrophoretic mobility of IRS-1, increased the phosphorylation of the MAP-kinases ERK 1 and 2 on tyrosine sites, markedly increased MAP kinase activity and also acted synergistically with insulin in activating these enzymes. However, OA did not increase PI 3-kinase activity or the tyrosine phosphorylation of key upstream proteins in insulin's signaling cascade. Staurosporine virtually completely inhibited the insulin-stimulated glucose transport and MAP kinase activation in spite of a maintained high PI 3-kinase activity. In contrast, the effects of OA alone or in the presence of insulin were less, or not at all, affected. These data suggest that OA exerts an insulin-like effect through a serine/threonine-related pathway which is distinct from, but converges with, that of insulin downstream PI 3-kinase and upon which staurosporine exerts an inhibitory effect.
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PMID:The inhibitory effect of staurosporine on insulin action is prevented by okadaic acid. Evidence for an important role of serine/threonine phosphorylation in eliciting insulin-like effects. 897 17

Insulin-like growth factor-I (IGF-I) improves glucose metabolism and growth in patients with leprechaunism. We investigated signal transduction through IGF-I receptor in comparison with epidermal growth factor (EGF) receptor in early passages of cultured skin fibroblasts from a normal subject and a patient with leprechaunism whose insulin receptor tyrosine kinase was almost nonexistent. Insulin receptor substrate-1 (IRS-1) became tyrosine-phosphorylated and bound growth factor receptor-bound protein 2 (GRB2) quickly by IGF-I. The association of Shc with GRB2 by IGF-I was detected by immunoblot with anti-Shc antibody but was hardly visible with antiphosphotyrosine antibody, which was in marked contrast to efficient tyrosine phosphorylation of Shc by EGF. However, the potency of IGF-I for DNA synthesis was far stronger than EGF, which was not parallel with the potency of these growth factors to activate Shc or MAP kinase. Rather, phosphatidylinositol (PI) 3-kinase activity, which was activated by IGF-I about 5- to 10-fold more strongly than EGF, appeared to correlate with mitogenesis. Signal transduction pathways following IGF-I receptor or EGF receptor activation were indistinguishable between the normal subject and the patient. Our results strongly suggest that in human skin fibroblasts, which represent a more physiological cell culture: 1) IRS-1, rather than Shc, is the major tyrosine-phosphorylated protein binding GRB2 in initial phase of IGF-I signaling; 2) mitogenic potency of receptor tyrosine kinases such as IGF-I receptor and EGF receptor may not be determined solely by the amount of Shc-GRB2 complex or the activity of MAP kinase; and 3) in contrast to previous reports, IGF-I and EGF receptor signalings are not defective in leprechaunism.
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PMID:Roles of insulin receptor substrate-1 and Shc on insulin-like growth factor I receptor signaling in early passages of cultured human fibroblasts. 900 10

We previously reported a significant mitogenic effect of serotonin (5-hydroxytryptamine, 5-HT) on human small-cell lung carcinoma cells (SCLC, GLC-8), mediated by both 5-HT1D and 5-HT1A receptors. Here we investigate possible interactions between the two receptor subtypes. Dose-effect curves obtained by simultaneously applying equipotent concentrations of the selective 5-HT1A agonist 8-OH-DPAT and the selective 5-HT1D receptor agonist sumatriptan are shifted to the right, although maximal effects are additive. The nonselective 5-HT antagonist metergoline displays higher potency when both receptor subtypes are activated. The 5-HT1D receptor antagonist GR127935 is markedly more potent against sumatriptan than against the sensitive portion of 5-HT effect. Indeed, both GR127935 and the 5-HT1A antagonist spiperone shift the EC50 for the residual effect of 5-HT from approximately 300 to 120-150 nM, suggesting that blocking one receptor subtype may facilitate activation of the other. Preincubation with either 8-OH-DPAT or sumatriptan suppresses the mitogenic response to the other specific receptor agonist; suppression is complete within 10 min at 37 degrees C, and is not observed when the preincubation is done at 4 degrees C. Measurements of adenylate cyclase activity do not help in interpreting the results. Conversely, measurements of MAP kinase activity reveals biphasic activation with a delayed activation at 1 h, and reproduce the suppression of the effect of the second drug by 15 min preincubation. These findings constitute the first evidence of a reciprocal negative interference between human 5-HT1A and 5-HT1D receptors, and indicate that SCLC GLC-8 cells simultaneously express both receptor subtypes. Mere reciprocal antagonism of the drugs employed cannot account for these data. We suggest that in this cell system cross-talk occurs in the transduction pathways of the two receptor subtypes.
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PMID:Evidence for receptor subtype cross-talk in the mitogenic action of serotonin on human small-cell lung carcinoma cells. 901 44

Selenium, an essential biological trace element, is an integral component of several enzymes, and its use as a nutritional supplement has been popularized recently due to its potential role in low concentrations as an antioxidant and in higher concentrations as an anticancer agent. Selenium has also been reported to act as an insulin-mimetic agent with regard to normalization of blood glucose levels and regulation of some insulin-mediated metabolic processes. Little work, however, has been done concerning the pathway(s) by which this insulin-mimetic action occurs. In this study, we investigated the mechanism by which selenate exhibits insulin-mimetic properties in two different insulin responsive cell types, primary rat hepatocytes and 3T3 L1 adipocytes. We found that two proteins associated with the insulin signal cascade, the beta-subunit of the insulin receptor and IRS-1, increased in tyrosyl phosphorylation in the presence of selenium. The third identified selenium activated signal protein, MAP kinase, has been implicated not only in the insulin signal transduction pathway but also in other growth factor-mediated responses. Using an in-gel activity assay for MAP kinase, we demonstrated that both the p42 and p44 MAP kinases are activated when either hepatocytes or adipocytes are incubated in the presence of selenate. In addition to the activation of these specific proteins, we found that selenium also eventually profoundly affected overall tyrosyl phosphorylation. Our results therefore show that selenium not only increased the phosphorylation of proteins identified in the insulin signal cascade but also affected the overall phosphorylation state of the cell.
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PMID:Selenium: potent stimulator of tyrosyl phosphorylation and activator of MAP kinase. 906 Sep 97

The metabolism of the storage polysaccharide glycogen is intimately linked with insulin action and blood glucose homeostasis. Insulin activates both glucose transport and glycogen synthase in skeletal muscle. The central issue of a long-standing debate is which of these two effects determines the rate of glycogen synthesis in response to insulin. Recent studies with transgenic animals indicate that, under appropriate conditions, each process can contribute to determining the extent of glycogen accumulation. Insulin causes stable activation of glycogen synthase by promoting dephosphorylation of multiple sites in the enzyme. A model linking this action to the mitogen-activated protein kinase signaling pathway via the phosphorylation of the regulatory subunit of glycogen synthase phosphatase gained widespread acceptance. However, the most recent evidence argues strongly against this mechanism. A newer model, in which insulin inactivates the enzyme glycogen synthase kinase-3 via the protein kinase B pathway, has emerged. Though promising, this model still does not completely explain the molecular basis for the insulin-mediated activation of glycogen synthase, which remains one of the many unknowns of insulin action.
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PMID:New insights into the role and mechanism of glycogen synthase activation by insulin. 907 92

We studied the signal transduction mechanism that is involved in c-Jun phosphorylation evident after glucose deprivation in MCF-7/ADR cells. Glucose deprivation caused an immediate increase in tyrosine phosphorylation in MCF-7/ADR cells and specifically activated Lyn kinase, a src family tyrosine kinase. In addition, hypoglycemic treatment strongly activated c-Jun N-terminal kinase 1 (JNK1), leading to the phosphorylation and activation of c-Jun. Experiments with Lyn antisense oligonucleotides demonstrated that Lyn kinase activation was responsible for the activation of JNK1 but not extracellular signal-regulated kinase. We also observed glucose deprivation-induced Ras activation in MCF-7/ADR cells. These results indicate a possible Ras-dependent signaling pathway involving Lyn kinase and JNK1, which leads to the glucose deprivation-induced responses in MCF-7/ADR cells.
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PMID:Hypoglycemia-induced c-Jun phosphorylation is mediated by c-Jun N-terminal kinase 1 and Lyn kinase in drug-resistant human breast carcinoma MCF-7/ADR cells. 911 18

The dominant negative p85alpha regulatory subunit (delta p85alpha) of phosphatidylinositol (PI) 3-kinase or dominant negative Ras (N17Ras) was overexpressed in 3T3-L1 adipocytes using an adenovirus-mediated gene transduction system. Functional expression of delta p85alpha and N17Ras was confirmed by marked inhibition of insulin-stimulated PI 3-kinase activity and mitogen-activated protein kinase activity, respectively. N17Ras expression did not affect glucose transport activity, whereas delta p85alpha expression inhibited insulin-stimulated glucose transport with impairment of GLUT-4 translocation, although inhibition of glucose transport activity was less remarkable than that of PI 3-kinase activity in delta p85alpha-expressing cells. Thus the Ras signaling pathway does not play a major part in either translocation or intrinsic activity of glucose transporters, but PI 3-kinase activation, via phosphotyrosyl proteins and heterodimeric PI 3-kinase, plays a pivotal role in insulin-stimulated glucose transport. However, a discrepancy was observed between PI 3-kinase activity and glucose transport activity, suggesting a possibility that a different pathway(s) is involved in insulin-stimulated intrinsic activity of glucose transporters.
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PMID:Roles of PI 3-kinase and Ras on insulin-stimulated glucose transport in 3T3-L1 adipocytes. 912 42


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