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 long terminal repeat (LTR) of the human T-cell leukemia virus type I (HTLV-I) contains an imperfect repeat of 21 nucleotides which governs the response to the virus trans-activator protein tax and to cyclic AMP. In a murine thymocyte cell line defective in the catalytic subunit of protein kinase A, the response of the HTLV-I LTR to cyclic AMP is abolished and the response to tax is substantially diminished. This report shows that a factor present in nuclear extracts of wild-type cells binds to the HTLV-I 21-nucleotide sequence and that this binding activity is missing from the extracts of protein kinase A-defective cells. Treatment of nuclear extracts of protein kinase A-defective cells with the bovine protein kinase A catalytic subunit restores the binding activity, whereas treatment of wild-type nuclear extracts with a protein phosphatase destroys the binding activity. The binding factor is referred to as protein kinase A-dependent factor (PKAF). These results indicate that in murine thymocytes the response of the HTLV-I LTR to cyclic AMP depends upon the binding of a phosphorylated protein to the 21-nucleotide repeat sequence and that the response to tax is partially dependent upon binding of the phosphorylated protein. The results suggest a model in which the phosphorylation of a transcription factor by protein kinase A regulates HTLV-I gene expression.
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PMID:Protein kinase A-dependent binding of a nuclear factor to the 21-base-pair repeat of the human T-cell leukemia virus type I long terminal repeat. 230 43

Phosphotyrosyl-protein phosphatase activity of human erythrocyte cytosol can be resolved into two fractions by DEAE-cellulose chromatography followed by P-cellulose chromatography. Both 32P-Tyr-phosphatases are able to dephosphorylate 32P-Tyr of poly (Glu-Tyr) 4:1 but not angiotensin II and synthetic peptide Asp-Ala-Glu-Tyr-Ala-Ala-Arg-Arg-Gly, previously phosphorylated on tyrosine residues by rat spleen tyrosine-protein kinase. Both 32P-Tyr-phosphatase activities distinctly differ from either 32P-Ser-casein phosphatase activity or "acid" and "alkaline" p-nitrophenylphosphatase activities with regard to catalytic and physico-chemical properties such as substrate specificity, chromatographic behaviour, response to various effectors.
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PMID:Partial purification and characterization of phosphotyrosyl-protein phosphatase(s) from human erythrocyte cytosol. 242 49

Calmodulin-dependent protein phosphatase from bovine brain and heart was assayed for phosphotyrosine and phosphoserine phosphatase activity using several substrates: 1) smooth muscle myosin light chain (LC20) phosphorylated on tyrosine or serine residues, 2) angiotensin I phosphorylated on tyrosine, and 3) synthetic phosphotyrosine- or phosphoserine-containing peptides with amino acid sequences patterned after the autophosphorylation site in Type II regulatory subunit of the cAMP-dependent protein kinase. The phosphatase was activated by Ni2+ and Mn2+, and stimulated further by calmodulin. In the presence of Ni2+ and calmodulin, it exhibited similar kinetic constants for the dephosphorylation of phosphotyrosyl LC20 (Km = 0.9 microM, and Vmax = 350 nmol/min/mg) and phosphoseryl LC20 (Km = 2.6 microM, Vmax = 690 nmol/min/mg). Dephosphorylation of phosphotyrosyl LC20 was inhibited by phosphoseryl LC20 with an apparent Ki of 2 microM. Compared to the reactions with phosphotyrosyl LC20 as the substrate, reactions with phosphotyrosine-containing oligopeptides exhibited slightly higher Km and lower Vmax values. The reaction with the phosphoseryl peptide based on the Type II regulatory subunit sequence exhibited a slightly higher Km (23 microM), but a much higher Vmax (4400 nmol/min/mg) than that with its phosphotyrosine-containing counterpart. Micromolar concentrations of Zn2+ inhibited the phosphatase activity; vanadate was less potent, and 25 mM NaF was ineffective. The study provides quantitative data to serve as a basis for comparing the ability of the calmodulin-dependent protein phosphatase to act on phosphotyrosine- and phosphoserine-containing substrates.
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PMID:Characterization of the phosphotyrosyl protein phosphatase activity of calmodulin-dependent protein phosphatase. 242 55

The intracellular mechanisms by which cardiac Ca current (ICa) and the delayed outward K current (IK) are modulated during beta-adrenergic or muscarinic stimulation were investigated at the level of both single-channel and whole-cell currents in single ventricular myocytes of guinea-pigs. Superfusion of cells with beta-adrenergic agonist increased the amplitude of whole-cell ICa in a dose-dependent manner. In the single-channel recording, neither the amplitude of elementary current nor the total number of active channels was affected but the number of blank records was markedly reduced resulting in a larger amplitude of the ensemble average current. Intracellular dialysis of cells with cyclic AMP (cAMP) or the catalytic (C) subunit of cAMP-dependent protein kinase (cAMP-PK) produced a dose-dependent increase in the amplitude of ICa and IK. A non-hydrolysable ATP analogue, AMP-PNP, reduced whereas ATP gamma S enhanced the effects of beta-agonist on ICa and IK, suggesting an involvement of protein phosphorylation during the enhancement of these currents. The regulatory subunit of cAMP-PK, the heat-stable protein-kinase inhibitor (PKI) and type-1 protein phosphatase antagonized the beta-adrenergic enhancement of ICa and IK, but did not eliminate ICa. Acetylcholine (ACh) reduced the amplitude of ICa when ICa was enhanced by either beta-adrenergic agonist, forskolin or 3-isobutyl-1-methyl-xanthine but did ACh not when ICa was enhanced by intracellular dialysis with cAMP or C subunit, suggesting that muscarinic inhibition occurs at the level of adenylate cyclase. Non-hydrolysable GTP analogue, GMP-PNP, uncoupled both beta-adrenergic and muscarinic modulation of ICa. Pertussis toxin selectively eliminated the effect of ACh on ICa. Based on these results, we concluded that the activities of the Ca channel and the delayed outward K channel are controlled by the action of neurotransmitters, which are mediated by GTP-binding proteins and cAMP-dependent protein phosphorylation. It is suggested that phosphorylation of 'Ca-channel-related protein' leads to an increased open probability without changing the total number of channels or the elementary current amplitude.
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PMID:Intracellular control of calcium and potassium currents in cardiac cells. 243 80

Binding of epidermal growth factor (EGF) stimulates tyrosyl protein kinase activity of its receptor in the epidermis. This tyrosine residue phosphorylation is thought to be one mechanism by which EGF mediates its effects such as growth stimulation. To modulate a cellular response to EGF, an enzyme which dephosphorylates phosphotyrosyl residues should be present to oppose the effect of the tyrosyl kinase activity of the EGF receptor. We have identified an enzyme in the neonatal mouse epidermis which has the ability to dephosphorylate tyrosyl residues in vitro on EGF receptors. This phosphatase is a soluble protein with a molecular weight greater than 10,000 daltons and shows optimum activity at neutral pH. This epidermal tyrosyl protein phosphatase is not inhibited by tartrate, ATP, and micromolar levels of zinc, but is inhibited by millimolar levels of zinc, magnesium, manganese, and fluoride. Unlike other well-known phosphotyrosyl phosphatases, alkaline phosphatase, and calcineurin, this enzyme is not inhibited by EDTA. Thus, we have identified and partially characterized a possibly unique phosphotyrosyl phosphatase from the epidermis.
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PMID:Identification of a phosphotyrosyl-protein phosphatase in mouse epidermis. 253 66

The cytosolic fractions from epidermal growth factor (EGF)-treated A431 cells exhibit a marked increase in activities of ATP.Mg-dependent protein phosphatase and its activating factor (protein kinase FA) when compared to controls in the absence of EGF. By contrast, the Triton X-100-solubilized membrane fractions from the same EGF-treated cells exhibit a corresponding decrease in protein kinase FA activity. The EGF-dependent activation of protein kinase FA and ATP.Mg-dependent protein phosphatase occurred within physiological concentrations of EGF (ED50 = 5 x 10(-10) M). The changes of kinase and phosphatase activities which were measured concomitantly exhibit very similar characteristics as to EGF sensitivity and time dependence. The EGF-induced kinase and phosphatase activation occurred very rapidly, reaching the maximal activity levels within 3 min. Moreover, the EGF effect is transient; both EGF-stimulated phosphatase and kinase activities returned to control levels within 30 min. Taken together, the results suggest that EGF may induce the activation of kinase FA in the membrane and thereby promotes the activation of ATP.Mg-dependent phosphatase in the cytosol. Exposure of A431 cells to exogenous phospholipase C also resulted in the activation of endogenous kinase FA and ATP.Mg-dependent phosphatase in a similar pattern produced by EGF. This further suggests that phospholipase C can mimic EGF to mediate the activation of kinase FA and ATP.Mg-dependent phosphatase in A431 cells. By its dual role as a multisubstrate protein kinase and as an activating factor of multisubstrate protein phosphatase, protein kinase FA may represent a transmembrane signal of EGF.
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PMID:Epidermal growth factor induces activation of protein kinase FA and ATP.Mg-dependent protein phosphatase in A431 cells. 253 20

Protein phosphatase inhibitor-1 was purified from bovine adipose tissue. The protein had an apparent molecular mass of 32 kDa by SDS/PAGE and a Stokes' radius of 3.4 nm. It was phosphorylated by cAMP-dependent protein kinase on a threonyl residue; this phosphorylation was necessary for inhibition of protein phosphatase-1. Bovine adipose tissue inhibitor-1 was compared directly with rabbit skeletal muscle inhibitor-1 and with a 32000-Mr, dopamine- and cAMP-regulated phosphoprotein from bovine brain (DARPP-32), also an inhibitor of protein phosphatase-1. By the following biochemical and immunochemical criteria, bovine adipose tissue inhibitor-1 was found to be very similar and possibly identical to DARPP-32 and was clearly distinct from skeletal muscle inhibitor-1: molecular mass by SDS/PAGE; Stokes' radii; phosphorylation on threonine residues; Staphylococcus-aureus-V8-protease-generated peptide patterns analyzed by SDS/PAGE; tryptic phosphopeptide maps analysed by two-dimensional thin-layer electrophoresis/chromatography; elution on reverse-phase HPLC; chymotryptic peptide maps as analysed by reverse-phase HPLC; amino acid composition; antibody recognition by immunoprecipitation and immunoblotting; effect of cyanogen bromide cleavage on protein phosphatase inhibitor activity. Based on these results we conclude that bovine brain and adipose tissue contain an identical phosphoprotein inhibitor of protein phosphatase-1 (DARPP-32), which is distinct from that of skeletal muscle (inhibitor-1).
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PMID:Inhibitors of protein phosphatase-1. Inhibitor-1 of bovine adipose tissue and a dopamine- and cAMP-regulated phosphoprotein of bovine brain are identical. 254

Calmodulin (CaM)-dependent enzymes, such as CaM-dependent phosphodiesterase (CaM-PDE), CaM-dependent protein phosphatase (CN), and CaM-dependent protein kinase II (CaM kinase II), are found in high concentrations in differentiated mammalian neurons. In order to determine whether neuroblastoma cells express these CaM-dependent enzymes as a consequence of cellular differentiation, a series of experiments was performed on human SMS-KCNR neuroblastoma cells; these cells morphologically differentiate in response to retinoic acid and phorbol esters [12-O-tetradecanoylphorbol 13-acetate (TPA)]. Using biotinylated CaM overlay procedures, immunoblotting, and protein phosphorylation assays, we found that SMS-KCNR cells expressed CN and CaM-PDE, but did not appear to have other neuronal CaM-binding proteins. Exposure to retinoic acid, TPA, or conditioned media from human HTB-14 glioma cells did not markedly alter the expression of CaM-binding proteins; 21-day treatment with retinoic acid, however, did induce expression of novel CaM-binding proteins of 74 and 76 kilodaltons. Using affinity-purified polyclonal antibodies, CaM-PDE immunoreactivity was detected as a 75-kilodalton peptide in undifferentiated cells, but as a 61-kilodalton peptide in differentiated cells. CaM kinase II activity and subunit autophosphorylation was not evident in either undifferentiated or neurite-bearing cells; however, CaM-dependent phosphatase activity was seen. Immunoblot analysis with affinity-purified antibodies against CN indicated that this enzyme was present in SMS-KCNR cells regardless of their state of differentiation. Although SMS-KCNR cells did not show a complete pattern of neuronal CaM-binding proteins, particularly because CaM kinase II activity was lacking, they may be useful models for examination of CaM-PDE and CN expression. It is possible that CaM-dependent enzymes can be used as sensitive markers for terminal neuronal differentiation.
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PMID:Expression of calmodulin-dependent phosphodiesterase, calmodulin-dependent protein phosphatase, and other calmodulin-binding proteins in human SMS-KCNR neuroblastoma cells. 254 Feb 70

The glycogen-binding (G) subunit of protein phosphatase-1G is phosphorylated stoichiometrically by glycogen synthase kinase-3 (GSK3), and with a greater catalytic efficiency than glycogen synthase, but only after prior phosphorylation by cyclic AMP-dependent protein kinase (A-kinase) at site 1. The residues phosphorylated are the first two serines in the sequence AIFKPGFSPQPSRRGS-, while the C-terminal serine (site 1) is one of the two residues phosphorylated by A-kinase. These findings demonstrate that (i) the G subunit undergoes multisite phosphorylation in vitro; (ii) phosphorylation by GSK3 requires the presence of a C-terminal phosphoserine residue; (iii) GSK3 can synergise with protein kinases other than casein kinase-2.
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PMID:Multisite phosphorylation of the glycogen-binding subunit of protein phosphatase-1G by cyclic AMP-dependent protein kinase and glycogen synthase kinase-3. 254 90

Inhibitor-1 is a potent and specific inhibitor of protein phosphatase 1. Phosphorylation by cAMP-dependent protein kinase is required for expression of its inhibitor activity. In the present study, we have used immobilized inhibitor-1 preparations to study the mechanism underlying protein phosphatase 1 inhibition. Protein phosphatase 1 bound to phosphorylated inhibitor-1 covalently coupled to Sepharose or Affi-Gel beads but did not bind to immobilized preparations of dephosphorylated inhibitor-1 or bovine serum albumin. Phosphorylated inhibitor-1 coupled to Sepharose or Affi-Gel beads retained its ability to inhibit protein phosphatase 1, although the apparent IC50 was decreased about 500-fold. The extent of protein phosphatase 1 binding to immobilized phosphorylated inhibitor-1 was comparable to the degree of protein phosphatase inhibition when the inhibitor protein was present at a concentration near the IC50. The efficiency of protein phosphatase 1 binding to immobilized phosphorylated inhibitor-1 was dependent on the inhibitor concentration on the matrix. Taken together these data indicate that the inhibition of protein phosphatase 1 by phosphorylated inhibitor-1 is a consequence of the binding of the inhibitor protein to one or more sites on protein phosphatase 1.
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PMID:Immobilized inhibitor-1 binds and inhibits protein phosphatase 1. 254 51


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