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)

Brefeldin A (BFA) is a potent inhibitor of intracellular vesicle traffic. We have investigated the effects of BFA on the traffic of the insulin receptor in HIRcB cells, a cell line derived from Rat-1 fibroblasts that over-expresses a normal human insulin receptor. We report here that insulin-dependent receptor redistribution is inhibited by BFA and that this drug has no effects on the insulin-dependent redistribution of the receptor. Auto-phosphorylation of the insulin receptor and the stimulation of mitogen-activated protein kinase (MAPK) by insulin were not affected by treatment with the drug. The effects of BFA were further shown to require addition of the drug prior to the addition of insulin. BFA added 10 min after stimulation with insulin had no effects on the redistribution of the receptor. Dose-response studies demonstrated that the effects of BFA were half-maximal at a dose of 1 microgram/ml and maximal at about 10 micrograms/ml. These findings suggest that BFA blocks an early step in the chain of events that lead to insulin receptor internalization without affecting the interactions of the receptor with insulin, the stimulation of the tyrosine kinase activity of the receptor by the hormone, or other insulin-regulated signalling pathways, such as the activation of MAPK.
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PMID:Brefeldin A inhibits insulin-dependent receptor redistribution in HIRcB cells. 780 75

We have studied the role of mitogen-activated protein (MAP) kinases in fetal hepatocyte growth in vitro and in vivo. With myelin basic protein (MBP) as the phosphate acceptor, kinase activity in cultured fetal hepatocyte lysates increased fourfold after exposure to transforming growth factor-alpha (TGF-alpha) for 10 min. This TGF-alpha-responsive MBP kinase activity was accounted for by five distinct MAP kinase isoforms detected by Western immunoblotting. All had negligible activity in cultured fetal hepatocytes under basal conditions. Treatment of fetal hepatocytes with hepatocyte growth factor led to activation of the predominant isoforms, relative molecular weight (M(r)) = 42,000 and 44,000 in a manner indistinguishable from TGF-alpha, whereas insulin had no effect. All five of the immunoreactive MAP kinases were present in both fetal and adult liver homogenates. The M(r) = 42,000 and 44,000 isoforms were only minimally activated in vivo. We conclude that the mitogen-independent growth exhibited by fetal hepatocytes in primary culture is not associated with tonic activation of the MAP kinase system. Our data support the possibility that fetal hepatic growth may be, in part, independent of the action of growth factors as mediated via the MAP kinase system.
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PMID:In vitro and in vivo regulation of hepatic mitogen-activated protein kinases in fetal rats. 781 Jun 54

In this study, we examined the distribution of protein serine/threonine phosphatase-1 (PP-1) and analyzed the effect of insulin on PP-1 and its mechanism of activation in freshly isolated rat adipocytes. The adipocyte particulate fraction (PF) constituted approximately 80% of cellular PP-1 activity, while PP-2A was entirely cytosolic. Insulin rapidly stimulated PF PP-1 in a time- and dose-dependent manner (maximum stimulation at 5 min with 4 nM insulin). Immunoprecipitation of PF with an antibody against the site-1 sequence of rabbit skeletal muscle glycogen-associated PP-1 (PP-1G) subunit indicated that approximately 40% of adipocyte PP-1 activity was due to PP-1G form of the enzyme. Insulin stimulated PP-1G (120% over basal levels) without affecting the other forms of PP-1 in the PF. Insulin activation of PP-1 was accompanied by > 2-fold increase in the phosphorylation state of the 160-kDa regulatory subunit of PP-1. Stimulation of p21Ras/mitogen-activated protein kinase pathway (MAP) with GTP analogues also resulted in stimulation of PP-1 similar to insulin. The insulin effect on MAP kinase and PP-1 activation was blocked by a GTP antagonist, guanyl-5'-yl thiophosphate. The inhibitors of MAP kinase activation (viz. cAMP agonists, SpcAMP and ML-9) also blocked PP-1 stimulation by insulin. The time course of MAP kinase activation preceded the phosphorylation of PP-1 regulatory subunit and PP-1 activation. We conclude that insulin rapidly activates a membrane-associated PP-1 in adipocytes, which may be similar to rabbit skeletal muscle PP-1G, and the activation is mediated by p21Ras/MAP kinase pathway.
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PMID:Stimulation of protein phosphatase-1 activity by insulin in rat adipocytes. Evaluation of the role of mitogen-activated protein kinase pathway. 782

A gene encoding a putative third member of the insulin receptor family (called the insulin receptor-related receptor or IRR) was isolated in 1989. However, the naturally occurring protein product encoded by this gene has yet to be described. In the present studies, we have generated four monoclonal antibodies to a recombinantly expressed chimera, which contains the extracellular domain of human IRR. These antibodies were found to specifically recognize the chimeric IRR (and not the insulin or insulin-like growth factor I receptors), and two of the antibodies were capable of acting as partial agonists in the cells expressing the chimeric IRR. These antibodies have therefore been utilized to study the expression and properties of the native receptor. In contrast to the two other members of this receptor family, the endogenous IRR protein had only a very limited expression, being detected only in neuroblastomas. In primary neuroblastomas, the levels of the receptor were highest in samples from stage A tumors (those which are generally more highly differentiated and have higher levels of the nerve growth factor receptor). The endogenous IRR could also be detected in a neuroblastoma cell line (called IMR-5 cells). In these cells, IRR could be shown to be partly present as a hybrid with the insulin and insulin-like growth factor-I receptors but not with the receptor for nerve growth factor. The intrinsic tyrosine kinase activity of this endogenous IRR was activated by the agonist monoclonal antibody to IRR but not by nerve growth factor, insulin-like growth factor I, or insulin. Finally, this monoclonal antibody was found to stimulate mitogen-activated protein kinase activity in these cells. In summary, these studies demonstrate for the first time that the IRR protein is normally expressed, that its levels are highest in neuronal tissues, and that it can form hybrid receptors with the two other members of this receptor family but not with the more distantly related nerve growth factor receptor.
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PMID:Characterization of the endogenous insulin receptor-related receptor in neuroblastomas. 782 25

Insulin-stimulated glucose transport in adipocytes is mediated by the insulin receptor. To ascertain whether a related receptor could also trigger this response, the epidermal growth factor (EGF) receptor (EGFR) was introduced into adipocytes. 3T3-L1 fibroblasts were infected by a retroviral construct encoding either the full-length (WT) or a carboxy-terminal truncated (c'973) human EGFR; truncation of the amino acids distal to 973 removes all autophosphorylation motifs. After selection and conversion to adipocytes, the level of EGFR expression was retained in infectant adipocytes (150,000 and 250,000/cell, respectively), but not in the parental 3T3-L1 adipocytes (< 5000/cell). WT and c'973 EGFR exhibited ligand-dependent tyrosine kinase activity and stimulated mitogen-activated protein kinase activity equivalently; neither phosphorylated insulin receptor substrate-1. WT EGFR, but not c'973 EGFR, underwent ligand-induced autophosphorylation. EGF did not stimulate tyrosine phosphorylation of the insulin receptor or insulin receptor substrate-1. EGF had a minimal effect on glucose transport by parental 3T3-L1 adipocytes. Glucose transport in the WT EGFR adipocytes was stimulated equivalently by insulin and EGF; exposure to insulin and EGF in combination did not result in augmented transport. Glucose transport in the c'973 EGFR adipocytes was stimulated by insulin, but not by EGF. GLUT4 was translocated to the plasma membrane to a similar extent in response to insulin or EGF in the WT EGFR adipocytes; only insulin caused a significant GLUT4 translocation in the parental or c'973 EGFR adipocytes. These data suggest that the insulin and EGF signaling pathways that lead to glucose transport converge in these adipocytes down-stream of the insulin receptor, and that activation of this pathway requires signaling motifs in the carboxy-terminus of the EGFR. This model system represents a novel approach with which to dissect signal transduction pathways in terminally differentiated adipocytes.
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PMID:Epidermal growth factor (EGF) receptor carboxy-terminal domains are required for EGF-induced glucose transport in transgenic 3T3-L1 adipocytes. 783 73

To evaluate the role of the "Ras pathway" in mediating metabolic signaling by insulin, we employed lovastatin to exhibit isoprenilation of Ras proteins in Rat-1 fibroblasts transfected with human insulin receptors (HIRc cells) and in differentiated 3T3-L1 adipocytes. Lovastatin blocked an ability of insulin to activate p21ras and mitogen-activated protein kinase. Lovastatin also significantly (p < 0.01) reduced insulin effects on thymidine incorporation and glucose incorporation into glycogen. Nevertheless, an effect of insulin on glucose uptake remained unaffected. It appears that in contrast to its mitogenic action and to its effect on glycogenesis, an effect of insulin on glucose uptake does not require p21ras activation.
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PMID:Differential requirement for p21ras activation in the metabolic signaling by insulin. 783 30

This study was undertaken to define intracellular signaling pathways upstream to glycogen synthase activation. First, we examined the role of the two pathways of insulin signaling, Ras-dependent and wortmannin/LY294002-sensitive, in glycogen synthase activation. Although negative dominant Ras (Ras17N) induction in PC12 cells markedly decreased activities of mitogen-activated protein kinase (MAP) and pp90 S6 kinase in response to insulin or insulin-like growth factor I (IGF-I), activation of glycogen synthase by these agents was unaffected by negative dominant Ras induction. In contrast, wortmannin and 2-(4-morpholinyl)-8-phenyl-4H-1-benzopyran-4-one (LY294002), inhibitors of phosphatidylinositol 3-kinase, antagonized glycogen synthase activation in response to insulin or IGF-I. Next, we examined the contribution of pp70 S6 kinase, one of the wortmannin/LY294002-sensitive signaling molecules on glycogen synthase activation. Immunosuppressant rapamycin completely blocked activation of pp70 S6 kinase by insulin or IGF-I, but rapamycin alone or in combination with induction of negative dominant Ras failed to antagonize glycogen synthase activation by these hormones. These data suggest that 1) activation of Ras-MAP kinase is not necessary for stimulation of glycogen synthase and 2) activation of wortmannin/LY294002-sensitive pathway, independent of pp70 S6 kinase, plays a key role in glycogen synthase regulation in PC12 cells.
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PMID:Upstream mechanisms of glycogen synthase activation by insulin and insulin-like growth factor-I. Glycogen synthase activation is antagonized by wortmannin or LY294002 but not by rapamycin or by inhibiting p21ras. 785 43

The precise mechanism by which insulin regulates glucose metabolism is not fully understood. However, it is known that insulin activates two enzymes, phosphatidylinositol 3'-kinase (PI 3'-K) and mitogen-activated protein kinase (MAPK), which may be involved in stimulating the metabolic effects of insulin. The role of these enzymes in glucose metabolism was examined by comparing the effects of insulin, platelet-derived growth factor (PDGF) and epidermal growth factor (EGF) in 3T3-L1 adipocytes. Treatment of the cells with PDGF or EGF for 5 min increased the MAPK activity 3-5-fold, while insulin treatment produced a 2.5-fold increase. The MAPK activity remained elevated for 1 h after either PDGF or insulin treatment. PDGF and insulin, but not EGF, caused a transient increase in the amount PI 3'-K activity coprecipitated with tyrosine phosphorylated proteins. Although PDGF and insulin caused a similar increase in the activities of these two enzymes, only insulin caused substantial increases in glucose utilization. Insulin increased the transport of glucose and the synthesis of lipid 4- and 17-fold, respectively, while PDGF did not affect these processes significantly. Glycogen synthesis was increased 15-fold in response to insulin and only 3-fold in response to PDGF. Thus, the activation of MAPK and PI 3'-K are not sufficient for the complete stimulation of glucose transport, lipid synthesis, or glycogen synthesis by hormones in 3T3-L1 adipocytes, suggesting a requirement for other signaling mechanisms that may be uniquely responsive to insulin.
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PMID:Activation of mitogen-activated protein kinase and phosphatidylinositol 3'-kinase is not sufficient for the hormonal stimulation of glucose uptake, lipogenesis, or glycogen synthesis in 3T3-L1 adipocytes. 785 30

Insulin receptor substrate 1 (IRS-1) mediates the activation of a variety of signaling pathways by the insulin and insulin-like growth factor 1 receptors by serving as a docking protein for signaling molecules with SH2 domains. We and others have shown that in response to insulin stimulation IRS-1 binds GRB2/Sos and have proposed that this interaction is important in mediating Ras activation by the insulin receptor. Recently, it has been shown that the interleukin (IL)-4 receptor also phosphorylates IRS-1 and an IRS-1-related molecule, 4PS. Unlike insulin, however, IL-4 fails to activate Ras, extracellular signal-regulated kinases (ERKs), or mitogen-activated protein kinases. We have reconstituted the IL-4 receptor into an insulin-responsive L6 myoblast cell line and have shown that IRS-1 is tyrosine phosphorylated to similar degrees in response to insulin and IL-4 stimulation in this cell line. In agreement with previous findings, IL-4 failed to activate the ERKs in this cell line or to stimulate DNA synthesis, whereas the same responses were activated by insulin. Surprisingly, IL-4's failure to activate ERKs was not due to a failure to stimulate the association of tyrosine-phosphorylated IRS-1 with GRB2/Sos; the amounts of GRB2/Sos associated with IRS-1 were similar in insulin- and IL-4-stimulated cells. Moreover, the amounts of phosphatidylinositol 3-kinase activity associated with IRS-1 were similar in insulin- and IL-4-stimulated cells. In contrast to insulin, however, IL-4 failed to induce tyrosine phosphorylation of Shc or association of Shc with GRB2. Thus, ERK activation correlates with Shc tyrosine phosphorylation and formation of an Shc/GRB2 complex. Thus, ERK activation correlates with Shc tyrosine phosphorylation and formation of an Shc/GRB2 complex. Previous studies have indicated that activation of ERks in this cell line is dependent upon Ras since a dominant-negative Ras (Asn-17) blocks ERK activation by insulin. Our findings, taken in the context of previous work, suggest that binding of GRB2/Sos to Shc may be the predominant mechanism whereby insulin as well as cytokine receptors activate Ras.
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PMID:Association between GRB2/Sos and insulin receptor substrate 1 is not sufficient for activation of extracellular signal-regulated kinases by interleukin-4: implications for Ras activation by insulin. 786 67

The discovery of the mitogen-activated protein (MAP) kinase family of protein kinases has sparked off an intensive effort to elucidate their role in the regulation of many cellular processes. These protein kinases were originally identified based on their rapid activation by insulin. In this review we concentrate on examining the evidence for and against a role for the MAP kinases Erk-1 and Erk-2 in mediating the effects of insulin. While there is good evidence in favour of a direct role for MAP kinase in the growth-promoting effects of insulin and the regulation of Glut-1 and c-fos expression, and AP-1 transcriptional complex activity, this is by no means conclusive. MAP kinase may also play a role in the control of mRNA translation by insulin. On the other hand, the evidence suggests that MAP kinase is not sufficient for the acute regulation of glucose transport (Glut-4 translocation), glycogen synthesis, acetyl-CoA carboxylase or pyruvate dehydrogenase activity. The findings suggest that insulin may utilise at least three distinct signalling pathways which do not involve MAP kinase.
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PMID:Does mitogen-activated-protein kinase have a role in insulin action? The cases for and against. 786 19


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