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)

To survey and compare the signaling pathways from the insulin and insulin-like growth factor-I (IGF-I) receptors in undifferentiated and differentiated muscle cells, we examined the phosphotyrosine (Ptyr)-containing polypeptides elicited in L6 and Sol8 myoblasts and myotubes by the combination of insulin and IGF-I. These polypeptides were detected by immunoblotting with antibodies against Ptyr. In the L6 myoblasts and myotubes and the Sol8 myoblasts, Ptyr polypeptides of approximately 240, 175, 115, 100, 41, and 37 kilodaltons (kDa) appeared in response to insulin-IGF-I. With the Sol8 myotubes, the 240-, 175-, and 37-kDa Ptyr polypeptides were detected in basal cells, and only the Ptyr content of the 175-kDa one increased in response to insulin-IGF-I. The polypeptides of 175, 41, and 37 kDa were tentatively identified as the insulin receptor substrate 1 (IRS1) and extracellular signal-regulated kinases 1 and 2 (ERK1 and -2), respectively, by immunoblotting with antibodies specific for these proteins, and the 115- and 100-kDa polypeptides are probably the beta-subunits of the insulin and IGF-I receptors. The amounts of IRS1, ERK1, and ERK2 were roughly the same in the L6 and Sol8 myoblasts and myotubes. Thus, differentiation of the myoblasts to myotubes was not accompanied by the detectable appearance of new insulin-IGF-I-elicited Ptyr polypeptides or marked changes in the amounts of known participants in their signaling pathways.
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PMID:Components of signaling pathways for insulin and insulin-like growth factor-I in muscle myoblasts and myotubes. 138 98

Treatment of bovine chromaffin cells with insulin-like growth factor-I (IGF-I) caused the activation of a protein kinase that phosphorylates microtubule-associated protein-2 (MAP-2) in vitro. Activation of MAP-2 kinase by IGF-I varied with the time of treatment (maximal at 10-15 min) and the concentration of IGF-I (maximal at 10 nM). The IGF-I-activated MAP-2 kinase was localized to the soluble fraction of chromaffin cell extracts and required Mg2+ for activity. The IGF-I-activated kinase also phosphorylated myelin basic protein, but had little or no activity toward histones or ribosomal S6 protein. To examine the role of protein tyrosine phosphorylation in the activation of the MAP-2 kinase, we isolated phosphotyrosine (PTyr)-containing proteins from chromaffin cells by immunoaffinity adsorption on anti-PTyr-Sepharose beads. Anti-PTyr-Sepharose eluates from IGF-I-treated cells showed increased MAP-2 kinase activity; thus, the MAP-2 kinase (or a closely associated protein) appears to be a PTyr-containing protein. Treatment of anti-PTyr-Sepharose eluates or crude chromaffin cell extracts with alkaline phosphatase significantly decreased kinase activity toward myelin basic protein, indicating that phosphorylation of the IGF-I-activated kinase is required for its activity.
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PMID:Activation of a microtubule-associated protein-2 kinase by insulin-like growth factor-I in bovine chromaffin cells. 165 24

Signal transduction pathways stimulated by insulin or insulin-like growth factor-I (IGF-I) were compared in transfected NIH3T3 fibroblast cell lines expressing the human insulin receptor, IGF-I receptor, or a chimeric IGF-I receptor with its carboxy-terminal tail replaced with that of the insulin receptor (approximately 1 x 10(6) receptors/cell). Although receptor autophosphorylation was very similar in the three cell lines overexpressing receptors (EC50 = 1-3 nM), there were differences detected in the protein tyrosine phosphorylation stimulated by insulin and IGF-I in these cells. Although no substrates specific for the insulin receptor were detected, phosphorylation of a 170-kilodalton (kDa; IRS-1) and a 70-kDa protein was 10 times more sensitive to insulin than to IGF-I (EC50 = 1.5-2.5 vs. 14-23 nM). The chimeric receptor stimulated significantly lower levels of phosphorylation of several proteins relative to the wild-type IGF-I receptor. Activation of phosphatidylinositol 3'-kinase paralleled phosphorylation of the 170- and 70-kDa proteins. Despite these differences in protein tyrosine phosphorylation, stimulation of mitogen-activated protein (MAP) kinase and DNA synthesis were very similar in the three cell lines overexpressing receptors. Little difference was detected in Shc phosphorylation or MAP kinase activation through the three receptors, although activation of MAP kinase was more efficiently coupled to the platelet-derived growth factor receptor than to any of the overexpressed receptors. All three receptors stimulated DNA synthesis to levels comparable to 10% serum, with similar sensitivities (EC50 = 1.5-3.5 nM).
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PMID:Insulin and insulin-like growth factor-I receptors similarly stimulate deoxyribonucleic acid synthesis despite differences in cellular protein tyrosine phosphorylation. 751 64

A peak of cytosolic myelin basic protein kinase activity was observed at 2-5 min after addition of 10 nM insulin-like growth factor-I (IGF-I) to Swiss 3T3 fibroblasts. Analysis of the induced kinase activity by chromatography, immunodetection and in situ kinase assay suggests that this represents a 1.8- to 3.5-fold increase in the activity of p42 mitogen-activated protein kinase. Addition of insulin at 10 nM also resulted in an increased kinase activity in these respects, however, only to approximately 60% of that induced by IGF-I. A similar quantitative relation between the effects of insulin and IGF-I was found for induction of lipid and glycogen synthesis from [14C- (U)]-D-glucose. However, incorporation of 3H-L-leucine into protein was stimulated to the same extent by the two agents. The effect of 10 nM insulin on proliferation, measured as tetrazolium dye reduction, was only 18% of that induced by 10 nM IGF-I. The obtained data suggest that cytosolic mitogen-activated protein kinase activation may constitute a signalling pathway for glucose metabolism, and especially glycogen synthesis, induced by peptides of the insulin superfamily.
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PMID:Activation of MAP kinase in Swiss 3T3 fibroblasts by insulin-like growth factor-I. 762 95

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

Both epidermal growth factor (EGF) and insulin-like growth factor-I (IGF-I) produce a dose-dependent stimulation in the rate of cell division in a rat clonal dental pulp-cell line (RDP 4-1). To elucidate the initial mitogen-induced cellular events that may mediate mitogenic action, the effects of EGF and IGF-I on cellular protein tyrosine phosphorylation were examined. In a dose-dependent manner, EGF (1-100 ng/ml) transiently stimulated tyrosine phosphorylation in four major proteins with apparent molecular weights of 220, 180, 140 and 120 kDa, and in five other more minor proteins (90, 80, 65, 55 and 44 kDa). IGF-I (1-100 ng/ml) dose-dependently stimulated the tyrosine phosphorylation of 160- and 140-kDa proteins, and had a smaller effect on the 80-, 65- and 44 kDa proteins. In contrast to the action of EGF, IGF-I-induced tyrosine phosphorylation was sustained for more than 60 min, particularly that of the 160-kDa phosphoprotein. From the results of specific immunoprecipitation/Western-blot analyses, the 180-kDa EGF-sensitive protein could be identified as the EGF receptor (EGF-R). Among the IGF-I-sensitive pulp cell proteins, the 160-kDa protein was identified as insulin-receptor substrate-1. Both mitogenic treatments stimulated the tyrosine phosphorylation of a weak, 44-kDa protein, which we have identified as the extracellular signal-regulated kinase-1. Despite the presence of phosphoproteins of the correct size, neither the IGF-I receptor (IGF-I-R) nor the phospholipase C gamma-isoform could be identified as tyrosine kinase substrates in either treatment. Pretreatment with the tyrosine kinase inhibitor genistein (20 micrograms/ml) significantly inhibited EGF- and IGF-I-induced tyrosine phosphorylation in permeabilized RDP 4-1 cells, and the tyrosine phosphatase inhibitor orthovanadate (1 mM) significantly prolonged the duration of the mitogen-stimulated tyrosine phosphorylation in both intact or permeabilized cells. Phorbol 12-myristate 13-acetate (100 nM), which activates protein kinase C (PKC), inhibited the tyrosine phosphorylation induced by either growth factor. This action was blocked by pretreatment with staurosporine (200 nM, 15 min), a selective PKC inhibitor. However, neither removing external Ca2+ with EGTA (1 mM) nor inducing Ca2+ influx with A23187 ionophore (2 microM) significantly altered EGF- or IGF-I-induced phosphorylation. These findings strongly suggest that authentic EGF-R and IGF-I-R on RDP 4-1 cells are coupled to complex, tyrosine kinase-mediated, intracellular signalling systems that are sensitive to a PKC-dependent mechanism. EGF- and IGF-I-induced tyrosine phosphorylation cascades may have important roles in vivo in the regulation of dental pulp-cell proliferation and ultimately may affect dentine formation.
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PMID:Protein tyrosine phosphorylation induced by epidermal growth factor and insulin-like growth factor-I in a rat clonal dental pulp-cell line. 852 2

Bone formation is reduced in hyperglucocorticoid states, e.g. Cushing's syndrome or long-term treatment with synthetic glucocorticoids during rheumatic diseases. possibly related to decreased sensitivity of the target to insulin-like growth factor-I (IGF-I). In this study, we have sought to identify postreceptor-mechanisms for glucocorticoid-induced resistance to insulin-like peptides in a model system. Treatment of Swiss 3T3 fibroblasts with 100 nM dexamethasone for 48h reduced IGF-I-induced activation of mitogen-activated protein kinase (MAP kinase). The level of insulin receptor substrate-1 (IRS-1) was reduced in dexamethasone-treated cells, as measured by Western blot; however, the pattern of tyrosine-phosphorylated protein subsequent to stimulation with IGF-I (1 min) was not altered. No inhibitory effect of dexamethasone was observed on the level of phosphotyrosine in IRS-1 in extracts from IGF-I-treated cells. The amount of IGF-I-induced association of insulin receptor substrate-1 and phosphatidylinositol 3-kinase was increased in steroid treated cells. Addition of IGF-I increased the synthesis of lipid, glycogen and protein, and the reduction of a tetrazolium dye, MTS, in untreated cells. The response to IGF-I in terms of glycogen synthesis was blunted, whereas the effect of IGF-I was unaffected for the other three parameters in cells pretreated with dexamethasone. These findings indicate that the activation of MAP kinase may be dissociated from IGF-I-induced anabolic pathways and tyrosine phosphorylation of IRS-1. The results agree with the previously proposed role for the activation of MAP kinase in the regulation of glycogen synthesis. Furthermore, they suggest that dexamethasone-induced reduction of IRS-1 expression may be important for the impaired activation of MAP kinase by insulin-like peptides in steroid-treated cells.
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PMID:Long-term treatment of Swiss 3T3 fibroblasts with dexamethasone attenuates MAP kinase activation induced by insulin-like growth factor-I (IGF-I). 864 Sep 52

The insulin receptor substrate-1 (IRS-1) is the major intracellular substrate of insulin and insulin-like growth factor-I (IGF-I) receptor tyrosine kinase activity, and this protein has been found to be overexpressed in human hepatocellular carcinomas. IRS-1 contains several src homology 2 (SH2) binding motifs that interact following tyrosyl phosphorylation with SH2-containing proteins, and this interaction may be essential for transmitting the growth signal from the cell surface to the nucleus. We have previously reported that overexpression of IRS-1 may induce neoplastic transformation of NIH 3T3 cells. This study examines the role of two SH2-containing molecules, namely the Grb2 adapter and Syp tyrosine phosphatase proteins as important components of the cellular transforming activity of IRS-1. Mutations of tyrosine 897 in the YVNI motif (Y897F) and of tyrosine 1180 in the YIDL motif (Y1180F) reduced the intracellular interaction of IRS-1 with Grb2 and Syp proteins, respectively. Furthermore, a single mutation at either Phe-897 or Phe-1180 substantially but not completely reduced IGF-I-dependent transforming activity of IRS-1, whereas creation of a double mutation of both tyrosine residues (Y897F/Y1180F) strikingly attenuated the transforming activity of IRS-1. Stable expression of the IRS-1 mutant constructs in NIH 3T3 cells was associated with a lower level of activation of the mitogen-activated protein kinase kinase (MAPKK)/MAPK cascade following IGF-I stimulation compared with cells stably transfected with the "wild-type" IRS-1 gene. These results suggest that IRS-1-induced cellular transformation requires an interaction with both Grb2 and Syp signal transduction molecules since neither interaction alone appears to be required, and this event subsequently leads to activation of the MAPKK/MAPK cascade.
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PMID:Neoplastic transformation induced by insulin receptor substrate-1 overexpression requires an interaction with both Grb2 and Syp signaling molecules. 866 27

The mechanism of TNF-alpha to regulate glucose metabolism remains unclear. To further delineate the TNF-alpha signal transduction pathway mediating glucose metabolism, we utilized L6 rat myoblasts which contain the receptors for the insulin-like growth factor-I (IGF-I) and TNF-alpha, and the ability of both ligands to stimulate glucose uptake was compared. IGF-I (6.5 nM) maximally stimulated glucose uptake 7-fold after 24 h incubation, while 23 nM TNF-alpha maximally stimulated glucose uptake 3-fold only after 48 h incubation. IGF-I receptor beta-subunit, insulin receptor substrate-1 (IRS-1), and mitogen-activated protein (MAP) kinase were all phosphorylated in response to 6.5 nM IGF-I after 10 min incubation. In contrast, the treatment with 23 nM TNF-alpha failed to phosphorylate either IGF-I receptor beta-subunit or IRS-1 but did phosphorylate MAP kinase as much as IGF-I did. Despite a similar extent to which TNF-alpha induced MAP kinase phosphorylation as IGF-I did, TNF-alpha stimulated glucose uptake less compared to IGF-I. The results indicate that MAP kinase phosphorylation is not sufficient for glucose uptake in L6 myoblasts. TNF-alpha-elicited signal transduction to glucose uptake may utilize a different pathway from that seen with IGF-I.
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PMID:TNF-alpha stimulates glucose uptake in L6 myoblasts. 880 77

To study the interaction between insulin receptor (IR) and insulin-like growth factor-I (IGF-I) receptor (IGF-IR) tyrosine kinases, we examined IGF-I action in Rat-1 cells expressing a naturally occurring tyrosine kinase-deficient mutant IR (Asp 1048 IR). IGF-I normally stimulated receptor autophosphorylation, IRS-I phosphorylation, and glycogen synthesis in cells expressing Asp 1048 IR. However, the Asp 1048 IR inhibited IGF-I-stimulated thymidine uptake by 45% to 52% and amino acid uptake (aminoisobutyric acid [AIB]) by 58% in Asp 1048 IR cells. Furthermore, IGF-I-stimulated tyrosine kinase activity toward synthetic polymers, Shc phosphorylation, and mitogen-activated protein (MAP) kinase activity was inhibited. The inhibition of mitogenesis and AIB uptake was restored with the amelioration of the impaired tyrosine kinase activity and Shc phosphorylation by the introduction of abundant wild-type IGF-IR in Asp 1048 IR cells. These results suggest that the Asp 1048 IR causes a dominant negative effect on IGF-IR in transmitting signals to Shc and MAP kinase activation, which leads to decreased IGF-I-stimulated DNA synthesis, and that the kinase-defective insulin receptor does not affect IGF-I-stimulated IRS-I phosphorylation, which leads to the normal IGF-I-stimulated glycogen synthesis.
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PMID:The dominant negative effect of a kinase-defective insulin receptor on insulin-like growth factor-I-stimulated signaling in Rat-1 fibroblasts. 896 79


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