Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.24 (mitogen-activated protein kinase)
 95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the brain, as in other tissues, estradiol interacts with growth factors. One of the growth factors that is involved in the neural actions of estradiol is insulin-like growth factor-I (IGF-I). Estradiol and IGF-I cooperate in the central nervous system to regulate neuronal development, neural plasticity, neuroendocrine events and the response of neural tissue to injury. The precise molecular mechanisms involved in these interactions are still not well understood. In the central nervous system there is abundant co-expression of estrogen receptors (ERs) and IGF-I receptors (IGF-IRs) in the same cells. Furthermore, the expression of estrogen receptors and IGF-I receptors in the brain is cross-regulated. In addition, using specific antibodies for the phosphorylated forms of extracellular-signal regulated kinase (ERK) 1 and ERK2 and Akt/protein kinase B (Akt/PKB) it has been shown that estradiol affects IGF-I signaling pathways in the brain. Estradiol treatment results in a dose-dependent increase in the phosphorylation of ERK and Akt/PKB in the brain of adult ovariectomized rats. In addition, estradiol and IGF-I have a synergistic effects on the activation of Akt/PKB in the adult rat brain. These findings suggest that estrogen effects in the brain may be mediated in part by the activation of the signaling pathways of the IGF-I receptor.
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PMID:Interactions of estrogen and insulin-like growth factor-I in the brain: molecular mechanisms and functional implications. 1265 Jul 18

Dysregulated signaling contributes to altered cellular growth, motility, and survival during cancer progression. We have evaluated the ability of several factors to stimulate migration in WM1341D, a cell line derived from an invasive human vertical growth phase melanoma. Basic fibroblast growth factor, hepatocyte growth factor, interleukin-8, and CCL27 each slightly increased migration. Insulin-like growth factor I (IGF-I), however, stimulated a 15-fold increase in migration. This response required the IGF-I receptor, which activates phosphoinositide 3-kinase (PI3K) and mitogen-activated protein kinase/extracellular signal-regulated kinase (MAPK/ERK) pathways. Both pathways have been implicated in migration in a variety of cell types, but the signaling required for IGF-I-induced melanoma cell migration is not well defined. IGF-I-stimulated activation of MAPK/ERK signaling in WM1341D cells was inhibited by U0126, but a 33-fold higher dose of U0126 was needed to inhibit IGF-I-stimulated cellular migration. In contrast, similar concentrations of either wortmannin or LY294002 were required to inhibit both IGF-I-induced PI3K activation and migration. These results indicate that IGF-I-stimulated migration of WM1341D cells requires PI3K activation but is independent of MAPK/ERK signaling. Determining the contributions of IGF-I signaling pathways to migration will help us to understand melanoma progression and may lead to new therapeutic targets of this highly metastatic cancer.
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PMID:Insulin-like growth factor I-stimulated melanoma cell migration requires phosphoinositide 3-kinase but not extracellular-regulated kinase activation. 1272 1

Transforming growth factor beta 1 (TGF-beta 1) and insulin-like growth factor I (IGF-I) have contrasting effects on cell cycle regulation in thyroid cells and TGF-beta 1 induces a dramatic decrease in IGF-I-induced cell proliferation. The aim of the present study was to investigate the molecular mechanism of cross-talk between TGF-beta 1 and IGF-I in FRTL-5 cells. TGF-beta 1 affected IGF-I-stimulated insulin receptor substrate 1 (IRS-1) tyrosine phosphorylation and its association with Grb2 protein. Moreover, TGF-beta 1 decreased the IGF-I-induced tyrosine phosphorylation of the adaptor protein CrkII and its association with the IGF-I receptor. These results were accompanied by TGF-beta 1 inhibition of IGF-I-stimulated mitogen-activated protein kinase phosphorylation and activation. Conversely, TGF-beta 1 did not alter IGF-I-stimulated IRS-1-associated phosphatidylinositol 3-kinase activity, IGF-I-induced tyrosine phosphorylation of Shc, and its binding to Grb2. Taken together, these findings provide a molecular basis for the growth-inhibitory action of TGF-beta 1 on the IGF-I-induced mitogenic effect.
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PMID:TGF-beta 1 modulation of IGF-I signaling pathway in rat thyroid epithelial cells. 1283 95

We examined the ability of polyphenols from tomatoes and soy (genistein, quercetin, kaempferol, biochanin A, daidzein and rutin) to modulate insulin-like growth factor-I (IGF-I)-induced in vitro proliferation and apoptotic resistance in the AT6.3 rat prostate cancer cell line. IGF-I at 50 micro g/L in serum-free medium produced maximum proliferation and minimized apoptosis. Polyphenols exhibited different abilities to modulate IGF-I-induced proliferation, cell cycle progression (flow cytometry) and apoptosis (Annexin V/propidium iodide and terminal deoxynucleotidyltransferase-mediated deoxyuridine 5'-triphosphate nick end labeling). Genistein, quercetin, kaempferol and biochanin A exhibited dose-dependent inhibition of growth with a 50% inhibitory concentration (IC(50)) between 25 and 40 micro mol/L, whereas rutin and daidzein were less potent with an IC(50) of >60 micro mol/L. Genistein and kaempferol potently induced G(2)/M cell cycle arrest. Genistein, quercetin, kaempferol and biochanin A, but not daidzein and rutin, counteracted the antiapoptotic effects of IGF-I. Human prostate epithelial cells grown in growth factor-supplemented medium were also sensitive to growth inhibition by polyphenols. Genistein, biochanin A, quercetin and kaempferol reduced the insulin receptor substrate-1 (IRS-1) content of AT6.3 cells and prevented the down-regulation of IGF-I receptor beta in response to IGF-I binding. IGF-I-stimulated proliferation was dependent on activation of mitogen-activated protein kinase/extracellular signal-regulated kinase (ERK) and phosphatidylinositide 3-kinase pathways. Western blotting demonstrated that ERK1/2 was constitutively phosphorylated in AT6.3 cells with no change in response to IGF-I, whereas IRS-1 and AKT were rapidly and sensitively phosphorylated after IGF-I stimulation. Several polyphenols suppressed phosphorylation of AKT and ERK1/2, and more potently inhibited IRS-1 tyrosyl phosphorylation after IGF-I exposure. In summary, polyphenols from soy and tomato products may counteract the ability of IGF-I to stimulate proliferation and prevent apoptosis via inhibition of multiple intracellular signaling pathways involving tyrosine kinase activity.
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PMID:Tomato and soy polyphenols reduce insulin-like growth factor-I-stimulated rat prostate cancer cell proliferation and apoptotic resistance in vitro via inhibition of intracellular signaling pathways involving tyrosine kinase. 1284 Feb 8

To study the role of IGF-I receptor signaling on cell cycle events we utilized MCF-7 breast cancer cells. IGF-I at physiological concentrations increased the level of p21CIP/WAF mRNA after 4has well as protein after 8hby 10- and 6-fold, respectively, in MCF-7 cells. This IGF-1 effect was reduced by 50% in MCF-7-derived cells (SX13), which exhibit a 50% reduction in IGF-1R expression, demonstrating that IGF-1 receptor activation was involved in this process. Preincubation with the ERK1/2 inhibitor U0126 significantly reduced the IGF-1 effect on the amount of p21CIP/WAF protein in MCF-7 cells. These results were confirmed by the expression of a dominant negative construct for MEK-1 suggesting that the increase of the abundance of p21CIP/WAF in response to IGF-1 occurs via the ERK1/2 mitogen-activated protein kinase pathway. Using an antisense strategy, we demonstrated that abolition of p21CIP/WAF expression decreased by 2-fold the IGF-1 effect on cell proliferation in MCF-7. This latter result is explained by a delay in G1 to S cell cycle progression due partly to a reduction in the activation of some components of cell cycle including the induction of cyclin D1 expression in response to IGF-1. MCF-7 cells transiently overexpressing p21 showed increased basal and IGF-I-induced thymidine incorporation. Taken together, these results define p21CIP/WAF as a positive regulator in the cell proliferation induced by IGF-1 in MCF-7 cells.
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PMID:The cyclin-dependent kinase inhibitor p21CIP/WAF is a positive regulator of insulin-like growth factor I-induced cell proliferation in MCF-7 human breast cancer cells. 1286 29

Conjugated linoleic acid (CLA) has chemoprotective properties in a variety of experimental cancer models. We have previously observed that dietary CLA inhibits colon tumorigenesis induced by 1,2-dimethylhydrazine in rats. In addition, our in vitro studies have shown that CLA inhibits DNA synthesis and induces apoptosis in HT-29 cells, the human colon adenocarcinoma cell line. The insulin-like growth factor (IGF) system regulates the growth of HT-29 cells by an autocrine mechanism. The present study examined whether the growth inhibitory effect of CLA is related to changes in the IGF system in HT-29 cells. To determine whether CLA inhibits IGF-II production, HT-29 cells were incubated in serum-free medium in the presence of various concentrations of CLA. CLA decreased protein levels of both mature and pro IGF-II and IGF-II transcripts. Whereas exogenous IGF-I and IGF-II produced an increase in cell number, neither IGF-I nor IGF-II counteracted the negative growth regulatory effect of CLA. Reverse transcriptase-polymerase chain reaction and Western blot analysis of total cell lysates revealed that CLA decreased IGF-I receptor (IGF-IR) transcript and protein levels in a dose-dependent manner. Immunoprecipitation/Western blot studies revealed that CLA inhibited IGF-I-induced phosphorylation of IGF-IR and insulin-receptor substrate (IRS)-1, recruitment of the p85 regulatory subunit of phosphatidylinositol 3-kinase (PI3K) to IGF-IR, IGF-IR-associated PI3K activity, and phosphorylated Akt and extracellular signal-regulated kinase (ERK)-1/2 levels. In conclusion, the inhibition of cell proliferation and induction of apoptosis by CLA in HT-29 cells may be mediated in part by its ability to decrease IGF-II synthesis and to downregulate IGF-IR signaling and the PI3K/Akt and ERK-1/2 pathways.
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PMID:Conjugated linoleic acid downregulates insulin-like growth factor-I receptor levels in HT-29 human colon cancer cells. 1288 57

Estradiol (E(2)) regulates female reproductive behavior (lordosis) by acting on estrogen-sensitive neurons. We recently showed that E(2) facilitation of lordosis behavior requires concurrent activation of brain IGF-I receptors. The present study confirmed this finding and sought to identify the downstream signaling pathways involved in estrogen/IGF-I priming of lordosis. Intracerebroventricular infusions of a selective IGF-I receptor antagonist were administered to ovariectomized rats every 12 h beginning 1 h before the first of two daily E(2) injections. IGF-I receptor blockade partially inhibits lordosis if the antagonist is infused throughout the 2-d estrogen treatment period but not if it is administered only during the first or last 12 h of estrogen treatment. Because E(2) and IGF-I can activate phosphatidylinositol-3-kinase (PI3K) and MAPK, we infused agents that block PI3K and/or MAPK activity as described above. Both PI3K inhibitors (wortmannin and LY294002) and MAPK inhibitors (PD98059 and U0126) partially attenuate lordosis when administered during estrogen priming. None of these drugs modifies lordosis if they are infused only once, during the last 12 h of estrogen treatment. When both wortmannin and PD98059 are infused during E(2) priming, lordosis behavior is completely abolished. These data suggest that activation of both PI3K and MAPK by E(2) and IGF-I mediates hormonal facilitation of lordosis behavior.
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PMID:Participation of growth factor signal transduction pathways in estradiol facilitation of female reproductive behavior. 1293 54

Insulin-like growth factors (IGFs) play an important role in regulating vascular smooth muscle cell (VSMC) proliferation and directed migration. IGFs exert these biological actions through the activation of the IGF-I receptor and its downstream signaling network. While the involvement of the IRS-PI3 kinase-Akt pathway in mediating the chemotactic and mitogenic actions of IGFs is clear, the role of the mitogen-activated protein kinase (MAPK) signaling pathway is still under debate. In this study, the role of ERK1 and 2 in mediating the chemotactic and mitogenic actions of IGF-I in cultured porcine VSMCs was investigated. IGF-I treatment caused a significant increase in the phosphorylation state, as well as the kinase activity, of ERK1 and 2. Compared to the strong and sustained MAPK activation induced by platelet-derived growth factor-BB, the IGF-I-induced MAPK activation was weaker and more transient. Specific inhibition of the MAPK activation by PD98059 or U0126, two selective MEK inhibitors, significantly inhibited IGF-I-stimulated cell proliferation, and reduced the number of cells that migrated towards IGF-I. The p38 MAPK inhibitor SB203580 had no such effect. Likewise, depletion of ERK1/2 using antisense oligonucleotides abolished the IGF-I-induced VSMC migration and proliferation. These results suggest that the chemotactic and mitogenic responses of VSMCs to IGF-I require the activation of ERK1 and 2.
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PMID:The chemotactic and mitogenic responses of vascular smooth muscle cells to insulin-like growth factor-I require the activation of ERK1/2. 1294 91

Caveolae are lipid raft microdomains that regulate endocytosis and signal transduction. IGF-I receptor (IGF-IR) localizes in caveolae and tyrosine phosphorylates caveolin 1, supporting a role for these subcellular regions in the compartmentalization of IGF-I signaling. Src homology 2/alpha-collagen related protein (Shc) is the main mediator of IGF-I mitogenic action, coupling IGF-IR phosphorylation to Ras-MAPK activation. Here we show that IGF-I induces Shc tyrosine phosphorylation in the caveolae with a time course significantly different from that observed in the nonraft cellular fractions. In the same time, IGF-I recruits growth factor receptor bound protein 2 (Grb2) to caveolae and activates p42/p44 MAPKs in these microdomains. Src family kinases regulate IGF-I action through an Shc-dependent mechanism. In R-IGF-IRWT cells, IGF-I causes Fyn enrichment in the caveolae with a time course consistent with Shc phosphorylation and Grb2 recruitment in these regions. Finally, we have observed that after IGF-I stimulation, IGF-IR and Fyn colocalize in lipid raft caveolin 1-enriched microdomains. As insulin and IGF-I share common substrates, the effect of insulin on these cellular processes was measured. Here we show that insulin also induces Shc phosphorylation and Grb2 recruitment to caveolae, but with a significantly different time course compared with IGF-I. Our results suggest that 1) IGF-I causes the colocalization of signaling proteins in caveolae through a phosphorylation-regulated mechanism; and 2) the time course of phosphorylation and recruitment of substrates in caveolae by insulin receptor and IGF-IR could determine the specific actions of these receptors.
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PMID:Specificity of insulin-like growth factor I and insulin on Shc phosphorylation and Grb2 recruitment in caveolae. 1296 75

IGF-I stimulates cell division in numerous cell types after activation of the IGF-I receptor, a transmembrane heterotetramer linked to the ras-raf-MAPK and phosphatidylinositol 3-kinase signaling pathways. The WT1 Wilms' tumor suppressor is a zinc finger-containing transcription factor that is involved in a number of developmental processes, as well as in the etiology of certain neoplasias. In the present study, we demonstrated that IGF-I reduced WT1 expression in osteosarcoma-derived Saos-2 cells in a time- and dose-dependent manner. This effect was mediated through the MAPK signaling pathway, as shown by the ability of the specific inhibitor UO126 to abrogate IGF-I action. Furthermore, the effect of IGF-I involved repression of transcription from the WT1 gene promoter, as demonstrated using transient transfection assays. Taken together, our results suggest that the WT1 gene is a novel downstream target for IGF-I action. Reduced levels of WT1 may facilitate IGF-I-stimulated cell cycle progression. Most importantly, inhibition of WT1 gene expression by IGF-I may have significant implications in terms of cancer initiation and/or progression.
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PMID:The WT1 Wilms' tumor suppressor gene: a novel target for insulin-like growth factor-I action. 1296 88


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