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:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The binding of [125I]insulin-like growth factor-I ([125I]IGF-I) to human skin fibroblasts (HSF) is regulated by multiple factors. In monolayers of HSF, IGF-I binds to both the type I IGF receptor and IGF-binding proteins (BPs) associated with the cell surface. [125I]IGF-I binding to both of these proteins depends markedly on the sodium chloride concentration of the binding buffer. In monolayers of HSF, replacing 120 mM NaCl with isoosmotic concentrations of sucrose increases binding of [125I]IGF-I by 2- to 6-fold. Enhancement of [125I]IGF-I binding in the absence of sodium chloride is also seen in HSF in suspension, in human erythrocytes, in monolayers of HEP G2 cells and FRTL5 cells, and in membranes prepared from human placentae. Kinetic analysis of [125I]IGF-I binding to HSF monolayers reveals that association rates are increased and dissociation rates are decreased in the absence of sodium chloride. The binding of [125I]alpha IR-3, a monoclonal antibody to the human type I IGF receptor, to monolayers and suspensions of HSF also depends on the sodium ion concentration; it is 5- to 7-fold higher in the absence of sodium chloride. Binding of [125I]IGF-I to monolayers of HSF also depends on NaCl under conditions where alpha IR-3 saturates the type I IGF receptor but does not affect IGF-BPs. These findings demonstrate that sodium chloride has a marked effect on the interaction of IGF-I with the type I IGF receptor in the plasma membrane and with BPs associated with the surface of intact HSFs. Since an effect is also evident in membranes prepared from intact tissues (human placenta), occurs at 4 C, and occurs with cells devoid of BPs, a mechanism involving receptor or BP translocation seems unlikely, at least as the sole explanation for these findings. Sodium ions (and other ions) may induce a conformational change in the receptor and BPs and cause decreased availability of both the IGF-I-binding site and the alpha IR-3 epitope on the receptor and the IGF-binding site on the BP.
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PMID:Multiple factors influence insulin-like growth factor-I binding to human skin fibroblasts. 254 51

Insulin-like growth factor-I (IGF-I) in human hepatoma cells (HEP-G2) has, in addition to its effect on cell growth, short-term metabolic effects acting through its own receptor. We have demonstrated that normal human hepatocytes, compared with HEP-G2 cells, have virtually no IGF-I binding sites. Because the rate of growth is the major difference between the hepatoma and the normal liver, we asked if normal liver might express IGF-I binding sites under physiologic growth conditions. Indeed, whereas adult rat hepatocytes have low IGF-I binding sites similar to those in human liver, hepatocytes from regenerating liver after 3 d subtotal hepatectomy have an approximately sixfold increase (P less than 0.005) and those from fetal rat liver a approximately 12-fold increase (P less than 0.005), to levels comparable to those in the HEP-G2 cells. The specificity of 125I IGF-I binding to its receptor was demonstrated by competition studies with monoclonal antibodies directed toward the IGF-I and the insulin receptors, with unlabeled IGF-I and insulin and by affinity labeling experiments. Thus, if IGF-I has any short-term metabolic functions in the adult human liver, it is not through interaction with its own receptor. Autocrine regulation by IGF-I of liver growth appears possible since IGF-I binding sites are expressed under pathological and physiological conditions of growth. The mechanism that couples these two phenomena remains to be elucidated.
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PMID:Insulin-like growth factor I binding in hepatocytes from human liver, human hepatoma, and normal, regenerating, and fetal rat liver. 283 49

In the present work we have investigated activation of phosphorylation of plasma membrane insulin-like growth factor-I receptors (IGF-IR) by diethylstilbestrol (DES). Insulin-like growth factor-I (IGF-I) stimulated the activity of membrane protein tyrosine kinase(s) (PTK) in both normal and DES-treated hamster kidneys. The level of IGF-I-stimulated PTK(s) almost doubled after 15 days of DES treatment. Autophosphorylation experiments revealed that phosphorylation of a 95 kDa band (presumably the beta subunit of IGF-IR) was 2-fold higher in the membranes of kidney from DES-treated animals compared with controls. To understand the mechanism of activation of IGF-I-dependent PTK by DES, we investigated the relationship between the binding capacity of IGF-I to membrane proteins and the level of IGF-IR. The binding of [125I]IGF-I to membranes from the DES-treated group was 30% higher than that of age-matched normal kidney (P < 0.001). Scatchard analysis of the binding data for both normal and DES-treated hamster kidney revealed a single class binding site for IGF-I with a dissociation constant (Kd) of 4.1 and 4.6 nM and a maximum binding capacity (Bmax) of 1786 and 2086 fmol/200 micrograms protein respectively. Therefore, the difference observed in [125I]IGF-I binding between DES-treated and normal kidney membranes may be partially due to an increase in the number of IGF-I binding sites, with no change in the affinity of the receptors for IGF-I. An enhanced level of IGF-IRs in membranes from DES-treated animals was visualized by autoradiography following affinity labeling of membrane proteins subjected to SDS-PAGE. Under reducing conditions a molecular band of 132 kDa was evident. The 132 kDa band represents the alpha-subunit of IGF-IRs. Northern blot analyses revealed that DES treatment increased the level of IGF-IR mRNA 2-fold compared with that of controls. These findings suggest that an enhanced level of IGF-IR coupled with qualitative changes may be responsible for the activation of IGF-I-dependent PTK on DES exposure. Whether the stimulation of IGF-IR phosphorylation by exposure to a carcinogenic dose of DES may be a factor in the induction of renal cancer in Syrian hamsters is not clear.
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PMID:Activation of phosphorylation of plasma membrane insulin-like growth factor-I receptors in the kidney of Syrian hamsters by diethylstilbestrol. 778 52

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

To assess the expression pattern of basic fibroblast growth factor (FGF-2) and one of its receptors (FGFR-1/flg) during autoimmune inflammation of the CNS, FGF-2, and FGFR1/flg peptide and mRNA levels were examined by immunocytochemistry, by in situ hybridisation and by Northern blot analysis in T cell-mediated EAE of the Lewis rat. In naive control animals as well as in animals injected with non-encephalitogenic, PPD-reactive T lymphocytes, FGF-2 immunoreactivity was low and confined to blood vessels and to a few spinal cord neurons. In rats injected with encephalitogenic, MBP-reactive T lymphocytes, however, FGF-2-immunoreactive cells were detected from day 4 after T cell transfer onward, i.e., from the onset of clinical symptoms. The number of FGF-2 immunoreactive cells was highest between days 6 and 10 after T cell transfer. Increased FGF-2 peptide expression was paralleled by increased FGF-2 mRNA expression on macrophages/microglia in the spinal cord. By 21 days after T cell transfer, i.e. after complete recovery, FGF-2 peptide and mRNA expression had fully subsided. Based on morphological criteria and on double labeling with the macrophage/microglia-binding lectin GSI-B4 two cell types expressed FGF-2: 1) round macrophages within the core, and 2) activated microglia at the edges of white and grey matter perivascular lesions. Paralleling the temporal and spatial expression pattern of FGF-2, FGFR-1/flg immunoreactivity was induced on activated macrophages/microglia but also on reactive astrocytes bordering perivascular inflammatory lesions. In situ hybridisation analysis furthermore showed that macrophages/microglia expressed the FGFR-1/flg mRNA, and that receptor mRNA expression paralleled ligand mRNA expression. Macrophage/microglia-derived FGF-2 could serve two main functions in EAE: 1) regulate microglial activation in an autocrine fashion, and 2) help to target astrocyte-derived insulin-like growth factor-I (IGF-I) to potentially injured oligodendrocytes in demyelination.
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PMID:Differential expression of fibroblast growth factor-2 and receptor by glial cells in experimental autoimmune encephalomyelitis (EAE) 928 Jul 53

Insulin, insulin-like growth factor-I (Igf-I), and insulin-like growth factor-II (Igf-II) are known to enhance growth in mouse preimplantation embryos. The addition of insulin, Igf-I, and Igf-II to mouse embryos in culture results in an increase in protein synthesis, cell number, and the proportion of embryos developing to the blastocyst stage. To study the role of the insulin-like growth factors in early human development, the timing of gene expression of insulin, IGF1, IGF2, and their receptors was analysed. Reverse transcription polymerase chain reaction (RT-PCR) was used to examine the presence of transcripts in preimplantation embryos. Following reverse transcription, strategically designed nested primers were used for amplification from cDNA. Transcripts for all three receptors (insulin receptor, IGF1R, IGF2R) were present in human oocytes and preimplantation embryos. However, of the ligands, only IGF2 transcripts were detected. This is consistent with expressed patterns seen in the mouse. As in the human, mouse Igf2 is the only ligand in the family expressed and has been shown to have an autocrine effect on preimplantation development. It has previously been shown that insulin and Igf-I are produced by the mouse maternal reproductive tract and have a paracrine effect on the preimplantation embryo. We speculate that a similar relationship exists in the human and that preimplantation development may be regulated by IGFs from both embryonic (IGF-II) and maternal (insulin and IGF-I) sources.
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PMID:Expression of mRNA for the insulin-like growth factors and their receptors in human preimplantation embryos. 913 13

Insulin-like growth factor-I (IGF-I) induces neuronal differentiation in vitro. In the present study, we examined the signaling pathway underlying IGF-I-mediated neurite outgrowth. In SH-SY5Y human neuroblastoma cells, treatment with IGF-I induced concentration- and time-dependent tyrosine phosphorylation of the type I IGF receptor (IGF-IR) and extracellular signal-regulated protein kinases (ERK) 1 and 2. These effects of IGF-I were blocked by a neutralizing antibody against IGF-IR. Whereas IGF-IR phosphorylation was observed within 1 min, maximal phosphorylation of ERKs was not reached for 30 min. Both IGF-IR and ERK phosphorylation were maintained for at least 24 h. Also, the concentration dependence of IGF-I-stimulated IGF-IR and ERK tyrosine phosphorylation paralleled that of IGF-I-mediated neurite outgrowth. We further examined the role of mitogen-activated protein kinase activation in IGF-I-stimulated neuronal differentiation using the mitogen-activated protein kinase/ERK kinase inhibitor PD98059. Whereas PD98059 had no effect on IGF-IR phosphorylation, PD98059 reduced IGF-I-mediated ERK tyrosine phosphorylation and ERK phosphorylation of the substrate Elk-1. PD98059 also produced a parallel reduction of IGF-I-stimulated neurite outgrowth. Finally, consistent with its ability to block neuronal differentiation, PD98059 inhibited IGF-I-dependent changes of GAP-43 and c-myc gene expression. Together these results suggest that activation of ERKs is essential for IGF-I-stimulated neuronal differentiation.
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PMID:Insulin-like growth factor-I-mediated neurite outgrowth in vitro requires mitogen-activated protein kinase activation. 926 Nov 37

The molecular mechanisms behind phenotypic modulation of smooth muscle cells (SMCs) remain unclear. In our recent paper, we reported the establishment of novel culture system of gizzard SMCs (Hayashi, K., H. Saga, Y. Chimori, K. Kimura, Y. Yamanaka, and K. Sobue. 1998. J. Biol. Chem. 273: 28860-28867), in which insulin-like growth factor-I (IGF-I) was the most potent for maintaining the differentiated SMC phenotype, and IGF-I triggered the phosphoinositide 3-kinase (PI3-K) and protein kinase B (PKB(Akt)) pathway. Here, we investigated the signaling pathways involved in de-differentiation of gizzard SMCs induced by PDGF-BB, bFGF, and EGF. In contrast to the IGF-I-triggered pathway, PDGF-BB, bFGF, and EGF coordinately activated ERK and p38MAPK pathways. Further, the forced expression of active forms of MEK1 and MKK6, which are the upstream kinases of ERK and p38MAPK, respectively, induced de-differentiation even when SMCs were stimulated with IGF-I. Among three growth factors, PDGF-BB only triggered the PI3-K/PKB(Akt) pathway in addition to the ERK and p38MAPK pathways. When the ERK and p38MAPK pathways were simultaneously blocked by their specific inhibitors or an active form of either PI3-K or PKB(Akt) was transfected, PDGF-BB in turn initiated to maintain the differentiated SMC phenotype. We applied these findings to vascular SMCs, and demonstrated the possibility that the same signaling pathways might be involved in regulating the vascular SMC phenotype. These results suggest that changes in the balance between the PI3-K/PKB(Akt) pathway and the ERK and p38MAPK pathways would determine phenotypes of visceral and vascular SMCs. We further reported that SMCs cotransfected with active forms of MEK1 and MKK6 secreted a nondialyzable, heat-labile protein factor(s) which induced de-differentiation of surrounding normal SMCs.
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PMID:Changes in the balance of phosphoinositide 3-kinase/protein kinase B (Akt) and the mitogen-activated protein kinases (ERK/p38MAPK) determine a phenotype of visceral and vascular smooth muscle cells. 1033 Apr 2

PSM/SH2-B has been described as a cellular partner of the FcepsilonRI receptor, insulin receptor (IR), insulin-like growth factor-I (IGF-I) receptor (IGF-IR), and nerve growth factor receptor (TrkA). A function has been proposed in neuronal differentiation and development but its role in other signaling pathways is still unclear. To further elucidate the physiologic role of PSM we have identified additional mitogenic receptor tyrosine kinases as putative PSM partners including platelet-derived growth factor (PDGF) receptor (PDGFR) beta, hepatocyte growth factor receptor (Met), and fibroblast growth factor receptor. We have mapped Y740 as a site of PDGFR beta that is involved in the association with PSM. We have further investigated the putative role of PSM in mitogenesis with three independent experimental strategies and found that all consistently suggested a role as a positive, stimulatory signaling adapter in normal NIH3T3 and baby hamster kidney fibroblasts. (1) PSM expression from cDNA using an ecdysone-regulated transient expression system stimulated PDGF-BB-, IGF-I-, and insulin- but not EGF-induced DNA synthesis in an ecdysone dose-responsive fashion; (2) Microinjection of the (dominant negative) PSM SH2 domain interfered with PDGF-BB- and insulin-induced DNA synthesis; and (3) A peptide mimetic of the PSM Pro-rich putative SH3 domain-binding region interfered with PDGF-BB-, IGF-I-, and insulin- but not with EGF-induced DNA synthesis in NIH3T3 fibroblasts. This experiment was based on cell-permeable fusion peptides with the Drosophila antennapedia homeodomain which effectively traverse the plasma membrane of cultured cells. These experimental strategies independently suggest that PSM functions as a positive, stimulatory, mitogenic signaling mediator in PDGF-BB, IGF-I, and insulin but not in EGF action. This function appears to involve the PSM SH2 domain as well as the Pro-rich putative SH3 domain binding region. Our findings support the model that PSM participates as an adapter in various mitogenic signaling mechanisms by linking an activated (receptor) phospho-tyrosine to the SH3 domain of an unknown cellular partner.
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PMID:PSM, a mediator of PDGF-BB-, IGF-I-, and insulin-stimulated mitogenesis. 1064 78

Growth factor receptor tyrosine kinases (RTK) have been implicated in tumor growth, metastasis and angiogenesis, and are thus considered promising targets for therapeutic intervention in malignant diseases. We present a novel drug discovery strategy to find inhibitors of RTKs based on comparative screening of compound libraries employing functional cellular assays. Cell lines stably expressing HER2 and the receptors for hepatocyte growth factor (HGF), vascular endothelial growth factor (VEGF), insulin-like growth factor-I (IGF-I) and epidermal growth factor (EGF) have been established. All cell lines are based on FDC-P1, a murine myeloid progenitor cell line which allows a direct comparison of results obtained in primary screens. In addition, the same cell lines are suitable for compound optimization and for animal studies. Using this strategy we report the identification of promising lead candidates for further drug development which are highly selective, non-cytotoxic and cell permeable with potencies in the low micromolar range.
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PMID:A comparative cell-based high throughput screening strategy for the discovery of selective tyrosine kinase inhibitors with anticancer activity. 1076 94


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