Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The epidermal growth factor (EGF) receptor is a transmembrane polypeptide of 170 000 daltons (Da) with a cytoplasmically facing protein kinase domain. The regulation of the tyrosine kinase activity of the EGF receptor by added EGF and by receptor association state was studied in an in vitro system. The rate of autophosphorylation of the solubilized and purified EGF receptor was found to be independent of receptor concentration. To determine whether the zero-order kinetics observed point to intrapeptide phosphorylation, we measured the sedimentation characteristics of the undenatured solubilized receptor. The receptor was found to exist in two association-dissociation states-a monomeric 7.7S form and a dimeric 12S form. The 7.7S form is an active tyrosine kinase; it has high basal activity, and the activity is not further stimulated by EGF; it appears to be an EGF-independent form of the receptor kinase. The 12S form is devoid of catalytic activity, but in the presence of EGF it dissociates into the active monomeric form. Freshly purified receptor preparations contain mainly the monomeric receptor, have high basal kinase activity, and show low EGF stimulatability (less than 1.3-fold). Aging of the receptor results in progressive dimerization and decay of EGF-independent kinase activity (and increase in EGF stimulatability). All of these processes are reversed in the presence of EGF or dithiothreitol.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Intrapeptide autophosphorylation of the epidermal growth factor receptor: regulation of kinase catalytic function by receptor dimerization. 299 18

The effect of autophosphorylation and protein kinase C-catalyzed phosphorylation on the tyrosine-protein kinase activity and ligand binding affinity of the epidermal growth factor (EGF) receptor has been studied. Kinetic parameters for the phosphorylation by the receptor kinase of synthetic peptide substrates having sequences related to the 3 in vitro receptor autophosphorylation sites (tyrosine residues 1173 (P1), 1148 (P2), and 1068 (P3)) were measured. The Km of peptide P1 (residues 1164-1176) was significantly lower than that for peptides P2 (residues 1141-1151) or P3 (residues 1059-1072). The tyrosine residue 1173 was also the most rapidly autophosphorylated in purified receptor preparations, consistent with previous observations for the receptor in intact cells (Downward, J., Parker, P., and Waterfield, M. D. (1984) Nature 311, 483-485). Variation in the extent of receptor autophosphorylation from 0.1 to 2.8 mol of phosphate/mol of receptor did not influence kinase activity or EGF binding affinity either for purified receptor or receptor in membrane preparations. Phosphorylation of the EGF receptor by protein kinase C was shown to cause a 3-fold decrease in the affinity of purified EGF receptor for EGF and to reduce the receptor kinase activity. In membrane preparations, phosphorylation of the EGF receptor by protein kinase C resulted in conversion of high affinity EGF binding sites to a low affinity state. This suggests that activation of protein kinase C by certain growth promoting agents and tumor promoters is directly responsible for modulation of the affinity of the EGF receptor for its ligand EGF. The regulation of the EGF receptor function by protein kinase C is discussed.
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PMID:Autophosphorylation and protein kinase C phosphorylation of the epidermal growth factor receptor. Effect on tyrosine kinase activity and ligand binding affinity. 299 13

The insulin receptor is an insulin-activated, tyrosine-specific protein kinase. Previous studies have shown that autophosphorylation of tyrosine residues on the Mr 95,000 is associated with an activation of the protein kinase activity toward exogenous protein substrates. We have employed the highly purified insulin receptor, immobilized on insulin-Sepharose or eluted in an active form, to define the metal/ATP requirements for kinase activation, the relationship of receptor autophosphorylation to activation, and the kinetic properties of the autophosphorylated, activated receptor kinase. Prior incubation of the immobilized receptor with 2 mM ATP, 10 mM Mg (or 10 mM Mn), followed by removal of these reactants, served to abolish the upward curvilinearity in the rate of histone 2b (tyrosine) phosphorylation measured subsequently. This treatment also markedly increased the rate of histone 2b phosphorylation as compared to that observed with the unmodified, immobilized receptor, as estimated under conditions that per se minimized further activation. The extents of maximal activation of receptor histone 2b (tyrosine) kinase obtained on preincubation with MgATP or MnATP are identical; however, the affinity of the receptor for MnATP is approximately 10-fold higher than that for MgATP. The higher affinity of the receptor for MnATP is observed for both autophosphorylation/autoactivation and histone 2b tyrosine kinase activity (Km MnATP approximately 0.01 mM; Km MgATP approximately 0.1 mM). Autophosphorylation/autoactivation per se does not significantly alter the apparent affinity for MeATP (or protein substrate, as previously reported) but increases Vmax. Activation of receptor histone 2b (tyrosine) kinase is due to tyrosine-specific autophosphorylation of the Mr 95,000 (beta) subunit; thus the extent of total 32P incorporation into the beta subunit correlates precisely with the extent of kinase activation, both over time and at a wide variety of Me2+ ATP concentrations. Sequential treatment of the autophosphorylated receptor with elastase and trypsin yields a single, basically charged 32P-peptide, Mr less than 2000. The functional properties of the unphosphorylated and fully phosphorylated receptor were compared after elution from insulin-Sepharose. The insulin binding characteristics of the two forms of the receptor were indistinguishable; the kinase properties differed greatly; whereas the histone 2b activity of the unphosphorylated receptor was low in the basal state, and activated 10-fold by insulin, the fully autophosphorylated receptor exhibits maximal histone 2b kinase in the basal state and is unaffected by insulin addition.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Kinetic properties of the insulin receptor tyrosine protein kinase: activation through an insulin-stimulated tyrosine-specific, intramolecular autophosphorylation. 300 34

The insulin receptor is an integral membrane glycoprotein (Mr approximately 300,000) composed of two alpha-subunits (Mr approximately 130,000) and two beta-subunits (Mr approximately 95,000) linked by disulphide bonds. This oligomeric structure divides the receptor into two functional domains such that alpha-subunits bind insulin and beta-subunits possess tyrosine kinase activity. The amino acid sequence deduced from cDNA of the single polypeptide chain precursor of human placental insulin receptor revealed that alpha- and beta-subunits consist of 735 and 620 residues, respectively. The alpha-subunit is hydrophilic, disulphide-bonded, glycosylated and probably extracellular. The beta-subunit consists of a short extracellular region which links the alpha-subunit through disulphide bridges, a hydrophobic transmembrane region and a longer cytoplasmic region which is structurally homologous with other tyrosine kinases like the src oncogene product and EGF receptor kinases. The cellular function of insulin receptors is dual: transmembrane signalling and endocytosis of hormone. The binding of insulin to its receptor on the cell membrane induces transfer of signal from extracellular to cytoplasmic receptor domains leading to activation of cell metabolism and growth. In addition, hormone-receptor complexes are internalized leading to intracellular proteolysis of insulin, whereas receptors are recycled to the membrane. These phenomena are kinetically well-characterized, but their molecular mechanisms remain obscure. Insulin receptor in different tissues and animal species are homologous in their structure and function, but show also significant differences regarding size of alpha-subunits, binding kinetics, insulin specificity and receptor-mediated degradation. We suggest that this heterogeneity of receptors may be linked to the diversity in insulin effects on metabolism and growth in various cell types. The purified insulin receptor phosphorylates its own beta-subunit and exogenous protein and peptide substrates on tyrosine residues, a reaction which is insulin-sensitive, Mn2+-dependent and specific for ATP. Tyrosine phosphorylation of the beta-subunit activates receptor kinase activity, and dephosphorylation with alkaline phosphatase deactivates the kinase. In intact cells or impure receptor preparations, a serine kinase is also activated by insulin. The cellular role of two kinase activities associated with the insulin receptor is not known, but we propose that the tyrosine- and serine-specific kinases mediate insulin actions on metabolism and growth either through dual-signalling or sequential pathways.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Protein kinase activity of the insulin receptor. 301 97

beta-Adrenergic receptor kinase (beta-AR kinase) is a cytosolic enzyme that phosphorylates the beta-adrenergic receptor only when it is occupied by an agonist [Benovic, J. Strasser, R. H., Caron, M. G. & Lefkowitz, R. J. (1986) Proc. Natl. Acad. Sci. USA 83, 2797-2801.] It may be crucially involved in the processes that lead to homologous or agonist-specific desensitization of the receptor. Stimulation of DDT1MF-2 hamster smooth muscle cells or S49 mouse lymphoma cells with a beta-agonist leads to translocation of 80-90% of the beta-AR kinase activity from the cytosol to the plasma membrane. The translocation process is quite rapid, is concurrent with receptor phosphorylation, and precedes receptor desensitization and sequestration. It is also transient, since much of the activity returns to the cytosol as the receptors become sequestered. Stimulation of beta-AR kinase translocation is a receptor-mediated event, since the beta-antagonist propranolol blocks the effect of agonist. In the kin- mutant of the S49 cells (lacks cAMP-dependent protein kinase), prostaglandin E1, which provokes homologous desensitization of its own receptor, is at least as effective as isoproterenol in promoting beta-AR kinase translocation to the plasma membrane. However, in the DDT1MF-2 cells, which contain alpha 1-adrenergic receptors coupled to phosphatidylinositol turnover, the alpha 1-agonist phenylephrine is ineffective. These results suggest that the first step in homologous desensitization of the beta-adrenergic receptor may be an agonist-promoted translocation of beta-AR kinase from cytosol to plasma membrane and that beta-AR kinase may represent a more general adenylate cyclase-coupled receptor kinase that participates in regulating the function of many such receptors.
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PMID:Beta-agonist- and prostaglandin E1-induced translocation of the beta-adrenergic receptor kinase: evidence that the kinase may act on multiple adenylate cyclase-coupled receptors. 301 28

We have determined glucose transport, insulin binding, and insulin-receptor kinase activity in adipose tissue from morbidly obese patients with and without non-insulin-dependent diabetes mellitus (NIDDM). The insulin sensitivity and responsiveness of glucose transport in freshly isolated adipocytes were significantly reduced in NIDDM subjects compared with nondiabetics. This was due in part to decreased insulin binding in adipocytes. Reduced specific 125I-labeled insulin binding was also observed in crude detergent extracts and partially purified insulin receptors from adipose tissue. In addition, the basal and insulin-stimulated tyrosine-specific protein kinase activity per milligram of protein was significantly decreased in NIDDM patients compared with nondiabetics. The differences between maximally insulin-stimulated and basal kinase activities expressed by insulin-binding activity were also significantly reduced in NIDDM subjects. We conclude that insulin resistance in morbidly obese patients with NIDDM is due to both insulin-binding and postbinding defects. One of the postbinding defects in NIDDM appears to be impaired insulin-receptor kinase activity of fat tissue.
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PMID:Insulin-receptor kinase activity of adipose tissue from morbidly obese humans with and without NIDDM. 303 15

The mechanism by which the protein kinase activity of the epidermal growth factor (EGF) receptor is activated by binding of growth factor was investigated. Detergent-solubilized receptor in monomeric form was isolated by sucrose density gradient centrifugation and both its kinase and autophosphorylation activities monitored. In a low ionic strength medium and with MnCl2 as an activator, the activity of the monomeric receptor was EGF-independent. However, with 0.25 M ammonium sulfate present, the MnCl2-stimulated kinase activity was strikingly EGF-dependent. In contrast, the kinase activity expressed in the presence of MgCl2 showed growth factor control in the absence of added salt. Under the conditions of these experiments there was apparently little tendency for growth factor to induce aggregation of the receptor, indicating that the allosteric activation of the receptor kinase by EGF occurred via an intramolecular mechanism. Whereas detergent-solubilized receptor was the subject of these studies, the kinase activity of cell surface receptors might also be controlled by an intramolecular mechanism. These results indicate that an individual receptor molecule has the potential to function as a transmembrane signal transducer.
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PMID:Growth factor control of epidermal growth factor receptor kinase activity via an intramolecular mechanism. 325 89

The ontogeny of the structural and functional characteristics of insulin receptors is determined by examining insulin binding, subunit structure, autophosphorylation, and tyrosine-specific protein kinase activity in partially purified solubilized liver receptors from fetal (approximately 21 days postconception), neonatal (1- and 7-day-old), and adult rats. Specific 125I-labeled insulin binding to these receptor preparations in the presence of different insulin concentrations was higher in fetal and neonatal rats compared with that in the adult rats. The electrophoretic mobilities of the alpha- and beta-subunits on sodium dodecyl sulfate-polyacrylamide gel electrophoresis autoradiography were similar at different stages of development. Insulin-stimulated autophosphorylation of insulin receptors was similar in the different groups. With fixed amounts of protein, the tyrosine-specific protein kinase activity in the presence of different insulin concentrations (1 X 10(-8) to 1 X 10(-6) M) was significantly higher in the fetal and neonatal rats than in adult rats. However, when expressed as a function of insulin-binding activity, the insulin-stimulated tyrosine-specific protein kinase activity in fetal and neonatal rats appears to be similar to that in adult rats because of decreased insulin binding in the latter group. These results demonstrate the structural and functional similarities of hepatic insulin receptors in fetal, neonatal, and adult rats. The relative differences in insulin-mediated biological functions in fetal and adult rat livers as reported previously are due to alterations in a step(s) distal to activation of insulin-receptor kinase.
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PMID:Subunit structure, autophosphorylation, and tyrosine-specific protein kinase activity of hepatic insulin receptors in fetal, neonatal, and adult rats. 330 86

Previous studies in this laboratory have shown that insulin treatment of Xenopus oocytes leads to an increase in phosphorylation of ribosomal protein S6. To investigate the mechanism of this increase, S6 kinase activity was measured in lysates of oocytes exposed to insulin. Insulin caused a rapid 4- to 6-fold increase in S6 kinase activity, which was maximal by 20 min and which could be reversed by removal of insulin prior to homogenization. Dose-response curves showed a detectable increase in specific activity at 1 nM insulin with a maximal effect at 100 nM. Treatment of oocytes with puromycin did not prevent this increase in S6 kinase activity, suggesting activation rather than synthesis of the enzyme. DEAE-Sephacel chromatography of extracts from insulin-treated oocytes revealed two peaks of S6 kinase activity, and the specific activity of the peak eluting at 300 nM NaCl was increased 3-fold in oocytes treated with insulin. The same peak of S6 kinase activity was increased 40% within 10 min in oocytes injected with highly purified insulin-receptor kinase. These results indicate that the insulin-dependent increase in S6 phosphorylation is due, at least in part, to activation of an S6 protein kinase, and this activation may result from the action of the insulin receptor at an intracellular location.
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PMID:Activation of a ribosomal protein S6 protein kinase in Xenopus oocytes by insulin and insulin-receptor kinase. 351 7

The metal: ATP characteristics of insulin- and epidermal growth factor-(EGF)-stimulated protein kinase activities were examined in Nonidet P40 extracts of rat liver plasma membranes. The two kinase activities were capable of utilizing either manganese or magnesium, although differences were observed. Insulin-stimulated 32P incorporation into an Mr 95 000 protein exhibited a higher affinity for ATP in the presence of manganese compared to magnesium. At 200 microM ATP, insulin stimulated 32P incorporation into the Mr 95 000 protein 3- to 5-fold after 5 min in the presence of either metal. At 1 mM ATP, insulin-stimulated 32P incorporation was significantly greater in the presence of magnesium. In contrast, EGF-stimulated 32P incorporation into an Mr 170 000 protein exhibited similar ATP dependencies in the presence of magnesium or manganese. Basal phosphorylation of the Mr 170 000 protein was 2- to 3-fold higher in the presence of manganese, however. Since the higher basal phosphorylation persisted after chromatography on wheat germ lectin-Sepharose, it may represent an inherent activity of the receptor kinase. In the presence of magnesium: ATP, low concentrations of manganese enhanced both insulin- and EGF-stimulated phosphorylation of angiotensin II suggesting involvement of a second metal binding site which regulates the kinase activity. The results presented show major differences in the metal: ATP properties of the two major hormonally regulated protein kinase activities observed in detergent-extracted liver membranes.
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PMID:Metal: ATP characteristics of insulin- and epidermal growth factor-stimulated phosphorylation in detergent extracts of rat liver plasma membranes. 352 12


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