EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In a study that was reported from this laboratory, the mitogenic potency of an apparent mol wt (appMr) of 15,000 precursor form of human insulin-like growth factor-II (hIGF-II) was shown to be greater than that of completely processed hIGF-II for human fetal-derived fibroblasts, and both were more potent than rIGF-I. Since it is generally acknowledged that the stimulation of cell replication by the IGFs is mediated by IGF-I receptors, we undertook to determine whether differences between the receptors' affinity for the two Mr forms of hIGF-II and recombinant IGF-I (rIGF-I) or between its efficiency to couple specific growth factor occupancy to the activation of protein kinase could explain the greater replicating potential of appMr 15,000 hIGF-II. Equilibrium dissociation, i.e. Kd, and inhibition, i.e. Ki, constants were determined by measuring the ability of rIGF-I, hIGF-II, appMr 15,000 hIGF-II, insulin, and the antireceptor monoclonal antibody alpha IR-3 to compete with 125I-labeled rIGF-I and hIGF-II for binding to purified preparations of IGF-I receptors prepared from an enriched source of fetal membrane, i.e. human term placenta. The results of these experiments established that 1) hIGF-II and appMr 15,000 hIGF-II bind to the IGF-I receptor with the same affinity as rIGF-I, e.g. with Kd and Ki values between 0.03-0.07 nM; 2) the total binding capacity, i.e. Ro, for IGF-I binding was not statistically different from the Ro calculated for IGF-II binding; and 3) the statistical analysis of 12 data sets from the competitive binding experiments for goodness of fit indicated that a 1-site model for IGF-I and -II binding was a better fit of the data than a 2-site model. Measurements of the stimulation of IGF-I receptor autophosphorylation at low ligand concentrations established that appMr 15,000 hIGF-II and hIGF-II were more effective than rIGF-I in coupling receptor occupancy to the activation of its protein kinase. At saturating ligand concentrations, the 3 had similar potencies. The original preparation of appMr 15,000 hIGF-II contains a mixture of forms with acidic isoelectric points (pIs) and was more potent than Mr 7,500 IGF-II in stimulating receptor autophosphorylation. These results are consistent with the relative potencies of this preparation, hIGF-II, and rIGF-I in stimulating the replication of 12-week-old fetal dermal fibroblasts.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Binding specificities and transducing function of the different molecular weight forms of insulin-like growth factor-II (IGF-II) on IGF-I receptors. 165 23

Several groups including us reported that basic proteins and polycations activate the insulin receptor tyrosine-specific protein kinase (TPK) in vitro. However, some inconsistency has become obvious in the observations. The most intriguing was the brief description by Morrison et al. [(1989) J. Biol. Chem. 264, 9994-10001] that polylysine had no effect on the IGF-I receptor TPK despite its 84% identity to the insulin receptor TPK. In the present study, we used highly purified IGF-I and insulin receptor TPKs in an effort to solve the discrepancies noted in the recent publications and to reveal the mechanism by which polycations stimulate the receptor TPKs. We report that the IGF-I receptor TPK is stimulated by polycations and basic proteins in a manner similar to their effects on the insulin receptor TPK. When effects of polylysine and polyarginine on both receptor TPKs were closely compared, subtle qualitative differences were found: Polylysine stimulated autophosphorylation and exogenous substrate phosphorylation activities of both insulin receptor TPK and IGF-I receptor TPK similarly. In contrast, another polycation, polyarginine, affected both TPKs in a manner quite different from polylysine: Polyarginine stimulated insulin receptor autophosphorylation to a greater extent than polylysine did while it had a very small effect on the IGF-I receptor autophosphorylation as well as the exogenous substrate phosphorylation activities of the two receptor TPKs. We have further extended the studies to include the domains of natural proteins which contain a polylysine-like sequence.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Aggregation of IGF-I receptors or insulin receptors and activation of their kinase activity are simultaneously caused by the presence of polycations or K-ras basic peptides. 166 Nov 48

The pathways depicted in Figure 1 summarize the data discussed in this article. In neurons, the binding of insulin and IGF-I to their respective receptors triggers autophosphorylation of the receptor beta-subunits. IGF-II binds to both neuronal insulin and IGF-I receptors and can stimulate autophosphorylation of either receptor type. In addition to enhancing insulin and IGF-I receptor autophosphorylation, all 3 peptides stimulate the tyrosine phosphorylation of a 70 kDa protein with a similar time course and dose response to receptor phosphorylation. The identity of pp70 is unknown, although the close temporal relationship between pp70 phosphorylation and neurite outgrowth suggests a potential role for this protein. Subsequent to these very early events, two neuronal serine kinases are activated by insulin. One has S6 kinase activity and may represent either the pp90rsk or pp70 class of S6 kinases. Since S6 kinases are activated by direct phosphorylation rather than by second messengers, it is likely that a neuronal S6 kinase kinase exists. The activation of S6 kinase is likely to mediate insulin's effects on neuronal protein synthesis or other growth-related processes. The second serine kinase that is activated by insulin is PKC epsilon. This enzyme is largely restricted to the nervous system, so this signalling pathway may be neuronal-specific. The mechanism of activation of PKC epsilon is unknown, although preliminary data suggests that enhanced phosphorylation of the enzyme is involved. Studies are currently underway to investigate the potential role of diacylglycerol, a potential second messenger generated from either phosphotidylinositol or phosphotidylcholine hydrolysis, in the activation of PKC epsilon by insulin.
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PMID:Regulation of protein phosphorylation by insulin and insulin-like growth factors in cultured fetal neurons. 166 64

Quiescent Swiss 3T3 cells can be stimulated to reenter the cell cycle by various mitogens used in synergistic combinations with insulin-like growth factors (IGFs). The cells constitutively secrete an IGF-binding protein (IGFBP), which can modulate the interaction of IGFs with their receptors and could, therefore, alter cellular responsiveness to IGFs. We have now characterized the IGFBP secreted by Swiss 3T3 cells and tested whether its secretion is regulated by heterologous mitogens. Ligand blotting using [125I]IGF-I revealed a major IGFBP of 40,000 mol wt, and treatment of the cells with tunicamycin reduced the mol wt of this protein to about 32,000. mRNA from Swiss 3T3 cells hybridized to a 32P-labeled oligonucleotide (50-mer) complementary to rat IGFBP-3. Taken together, these results indicate that the principal IGFBP secreted by Swiss 3T3 cells is probably the N-glycosylated IGFBP-3. Production of this IGFBP by Swiss 3T3 cells was stimulated by 50-150% by the mitogens bombesin, vasopressin, platelet-derived growth factor, epidermal growth factor, and 12-O-tetradecanoylphorbol 13-acetate and also by IGF-I. The increased production of IGFBP was first detected after 4-6h of incubation and was then maintained for 48-72 h. Agents that elevate intracellular cAMP and the glucocorticoid dexamethasone reduced IGFBP output. In cells in which protein kinase-C had been down-modulated, the stimulation of IGFBP output by 12-O-tetradecanoylphorbol 13-acetate was abolished, but the stimulation induced by the other mitogens was not prevented. Thus, the production of IGFBP by Swiss 3T3 cells can be regulated by a number of different signalling pathways.
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PMID:Mitogens regulate the production of insulin-like growth factor-binding protein by Swiss 3T3 cells. 170 79

Insulin and the insulin-like growth factors (IGF) I and II are structurally related peptides that elicit a large number of similar biological effects in target cells. Three well-characterized receptor complexes bind one or more of these peptides with high affinity. Two of these receptors, denoted as type I, are ligand-activated tyrosine kinases with similar heterotetrameric alpha 2 beta 2 subunit structures which bind insulin or IGF-I, respectively, with highest affinity. Ligand-stimulated tyrosine autophosphorylation of these receptors further activates their intrinsic tyrosine kinase activities both in vitro and in intact cells. Rapid signal transduction follows such receptor autophosphorylation and tyrosine kinase activation, leading to increased serine phosphorylation of many cellular proteins and decreased serine phosphorylation of several others. Experiments in our laboratory have identified three distinct insulin-activated serine kinase activities in cell-free extracts that appear to account for the insulin-stimulated serine phosphorylation of the insulin receptor itself, ATP citrate lyase, and acetyl CoA carboxylase, respectively. A third receptor in this group binds IGF-I and II, lacks kinase activity and is denoted as type II IGF receptor. Amino acid sequences of this receptor deduced from isolated rat cDNA clones show a high degree of homology with those of the bovine cation-independent mannose 6-phosphate (Man-6-P) receptor. We demonstrated that these receptors are indeed identical. The IGF-II/Man-6-P receptor rapidly recycles between the cell surface membrane and intracellular membrane compartments, providing for the rapid uptake of both IGF-II and mannose 6-phosphate-linked lysosomal enzymes. Insulin action markedly increases the proportion of receptors in the plasma membrane and the uptake of bound ligands. We also observe that large amounts of the extracellular domain of the IGF-II/Man-6-P receptor are released into the serum of fetal, neonatal and adult rats. The biological role of this receptor in IGF-II function is yet to be determined.
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PMID:Multifunctional glycoprotein receptors for insulin and the insulin-like growth factors. 255 7

The synthesis of IGF-II mRNA in sheep foetal tissues is considerably higher than IGF-I. IGF-II probably has a paracrine role in the foetus; however it is likely that IGF-I originates mainly from the foetal liver and has an endocrine function. Although in the adult system IGF-I is tightly bound to serum carrier proteins it is potentially biologically active. Galactopoiesis in the goat mammary gland provides a useful model for demonstrating the importance of circulating IGF-I as a mediator of GH action. Ligand-receptor interactions involved in the stimulation of Swiss 3T3 fibroblasts by IGF-I, II and insulin were examined. It was found that the potency of binding to type I receptors was IGF-I greater than IGF-II much greater than insulin by competitive binding assays and chemical cross-linking studies, and that some cell lines secrete an IGF binding protein which is specific for IGF-I and II and which acts as an inhibitor in cellular binding assays. Maximal stimulation of DNA synthesis induced by IGF-I, II and insulin in the presence of synergising mitogens were similar. While the actions of the IGFs were consistent with type I receptor binding insulin appeared to act through its own receptor. The reduction of EGF receptor affinity following the addition of IGF-I and insulin to 3T3 cells may involve a protein kinase that is not sensitive to phorbol esters. 3T3 cell nuclei contain endogenous inositol phospholipids and their corresponding kinases and monoesterases.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:From animal to molecule: aspects of the biology of insulin-like growth factors. 285 64

Insulin-like growth factor (IGF) I receptor was purified from Triton X-100-solubilized human placental membranes by wheat germ agglutinin-Sepharose chromatography followed by immunoaffinity chromatography using alpha IR-3, a monoclonal antibody directed against the IGF-I receptor. Purification of 3200-fold and 2800-fold was achieved from wheat germ agglutinin-Sepharose eluates with regard to IGF-I binding and kinase activities. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing conditions revealed two major protein bands corresponding to the alpha and beta subunits of the receptor, which accounted for at least 90% of the protein content. The purified receptor bound 10-20 micrograms of IGF-I/mg of protein and was more than 95% free of contamination by insulin receptor. It sedimented in glycerol gradients as a single species with a sedimentation coefficient of 13.7 S and gave three protein bands with Mr = approximately 300,000 on sodium dodecyl sulfate-polyacrylamide gel electrophoresis under nonreducing conditions, indicating that alpha 2 beta 2 is an intact form of the IGF-I receptor. The purified receptor, when incubated with [gamma-32P] ATP, became phosphorylated at tyrosine residues of its beta subunit. This was stimulated 3-fold by IGF-I. It also had IGF-I-stimulated tyrosine kinase activity (5264 pmol of 32P incorporated/min/mg of protein) toward a synthetic peptide corresponding to the autophosphorylation site of pp60src. These data strongly suggest that it is a tyrosine-specific protein kinase.
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PMID:Purification of insulin-like growth factor I receptor from human placental membranes. 301 95

In previous studies it was shown that bovine GH (bGH) and glucagon, when individually added to primary rat hepatocyte cultures, modestly stimulated IGF-I mRNA levels 1.8- to 2.5-fold, but when combined, synergized to stimulate IGF-I mRNA levels by 10- to 12-fold. In the present study we have explored further the mechanism of this effect in primary rat hepatocyte cultures. Like glucagon, the addition of 3-isobutyl-1-methylxanthine (100 microM) or (Bu)2cAMP (150 microM) augmented IGF-I mRNA levels 1.8- to 2.0-fold, but when combined with bGH (50 ng/ml), they augmented levels up to 12-fold. The half-life of IGF-I mRNA, determined by incubating hepatocytes with actinomycin-D was 12 h. Although bGH did not affect the decay rate, glucagon (100 ng/ml) or (Bu)2cAMP (100 microM) reduced the rate of loss by about 70%. 4 beta-Phorbol 12 beta-myristate 13 alpha-acetate minimally stimulated IGF-I mRNA levels 1.2- to 1.4-fold, but displayed no synergism when added with bGH, glucagon, or (Bu)2cAMP. The stimulatory effect of bGH plus glucagon was inhibited 80% after preincubation with 4 beta-phorbol 12 beta-myristate 13 alpha-acetate (10 microM) for 24 h. The addition of staurosporine, sphingosine, or H-7 [1-(5-isoquinolinyl sulfonyl)2-methyl piperazine] inhibited the stimulatory effect of bGH plus glucagon on hepatocyte IGF-I mRNA by 80%, 90%, and 85%, respectively. Preincubation with cycloheximide (10 micrograms/ml) blocked the synergistic effect of bGH plus either glucagon or (Bu)2cAMP by 65-80%. The effect of glucagon, mediated via the activation of adenylate cyclase, involves in part the posttranscriptional stabilization of IGF-I mRNA levels. The effect of GH, mediated in part by the activation of protein kinase-C, appears to be at the level of transcription. The synergistic augmentation of hepatocyte IGF-I mRNA levels by GH and glucagon involves the activation of PKA and PKC, but also appears to require the synthesis of one or more protein(s).
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PMID:The augmentation of insulin-like growth factor-I messenger ribonucleic acid in cultured rat hepatocytes: activation of protein kinase-A and -C is necessary, but not sufficient. 750 34

Insulin-like growth factors (IGFs) are thought to be important regulators of adrenocortical growth and steroidogenesis. IGFs are usually complexed with a family of specific IGF-binding proteins (IGFBPs) in serum, other body fluids, and in conditioned media of a variety of cell types. IGFBPs may either inhibit or potentiate the effects of IGFs. In the present study we have investigated the gene expression of the IGFBPs and IGF receptors in human fetal (HFA) and adult (HAA) adrenals. Northern blotting and/or reverse transcription polymerase chain reaction (RT-PCR) methods were used. IGFBP secretion into the cell culture medium was studied in primary cell cultures by Western ligand blotting and by radioimmunoassays. IGFBP-1 mRNA expression was low in adrenals: Northern blots were negative, but RT-PCR revealed IGFBP-1 mRNA in HFA. IGFBP-2 mRNA was equally expressed in both HFA and HAA with no differences in signal intensities by Northern blotting. IGFBP-3 mRNA was detected in HFA but not in HAA by Northern blotting. IGFBP-4 mRNA was expressed equally in both HFA and HAA. IGFBP-5 and -6 mRNA expression was more abundant in HAA than in HFA. IGF-I and type I and type II IGF receptor mRNAs were equally expressed in both HFA and HAA. 12-O-tetradecanoyl phorbol-13-acetate (TPA), a protein kinase regulator, upregulated IGFBP-1 in HFA cultures as determined by RIA, but ACTH was without effect. IGFBP-2 was not regulated by TPA or ACTH neither at protein nor at mRNA level. IGFBP-3 was downregulated by TPA both at protein and mRNA levels, but it was not affected by ACTH.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Insulin-like growth factor binding proteins in the human adrenal gland. 751 44

Insulin-like growth factor binding protein-3 (IGFBP-3) is the major carrier of insulin-like growth factor I and II in the circulation. IGFBP-3 is secreted by various tissues and cell lines as a glycosylated phosphoprotein. We have identified two major serine phosphorylation sites located at amino acids 111 and 113 of the human protein. These serine residues and neighboring amino acids potentially involved in defining a protein kinase recognition sequence were mutated to alanine using PCR. Single and double point mutants were stably transfected into CHO-cells and analyzed for their level of phosphorylation. Mutation of both serines reduced phosphorylation by > 80% in the full-length protein and completely abolished phosphorylation in a 17 kDa IGFBP-3 fragment, derived from digestion with EndoProteinase Lys-C. The 17 kDa fragment contained serines 111 and 113. S111A/S113A, a double serine-to-alanine mutant at positions 111 and 113, showed a strongly reduced glycosylation pattern that appears to be the result of amino acid substitutions rather than lack of phosphorylation. Mutant S111A/S113A, despite being non-phosphorylated and non-glycosylated, is functionally similar to the wild-type IGFBP-3 in terms of IGF-I binding. These results enhance our understanding on the functional role of glycosylation and phosphorylation of IGFBP-3.
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PMID:Identification of the major sites of phosphorylation in IGF binding protein-3. 753 Feb 53

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