EC:2.7.11.1 - FACTA Search

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)

Tau protein-prepared post-mortem from brains of Alzheimer's disease patients was treated with protein phosphatase 1 catalytic subunit, 2A catalytic subunit, and 2B (calcineurin). Dephosphorylation was monitored by immunoblotting with two monoclonal antibodies, TAU-1 and SMI31, which recognize in tau the dephospho- and phospho-states, respectively, of proline-directed protein kinase phosphorylation sites. Out of the three enzymes tested, protein phosphatase 2A was only effective in dephosphorylating tau at these Alzheimer-type epitopes.
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PMID:Dephosphorylation of tau protein from Alzheimer's disease patients. 751 23

Specificity of protein kinases and phosphatases may be achieved through compartmentalization with preferred substrates. In neurons, adenosine 3', 5'-monophosphate (cAMP)-dependent protein kinase (PKA) is localized at postsynaptic densities by association of its regulatory subunit with an A kinase anchor protein, AKAP79. Interaction cloning experiments demonstrated that AKAP79 also binds protein phosphatase 2B, or calcineurin (CaN). A ternary complex of PKA, AKAP, and CaN was isolated from bovine brain, and colocalization of the kinase and the phosphatase was established in neurites of cultured hippocampal neurons. The putative CaN-binding domain of AKAP79 is similar to that of the immunophilin FKBP-12, and AKAP79 inhibited CaN phosphatase activity. These results suggest that both PKA and CaN are targeted to subcellular sites by association with a common anchor protein and thereby regulate the phosphorylation state of key neuronal substrates.
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PMID:Association of protein kinase A and protein phosphatase 2B with a common anchoring protein. 752 41

L-Selectin initiates leukocyte attachment to venular endothelium during lymphocyte recirculation through lymph nodes, leukocyte recruitment into sites of inflammation, and the hematogenous spread of lymphoid malignancies. The density of L-selectin at the cell surface is a major determinant of binding activity and entry into tissues. Post-transcriptional shedding is one control mechanism; however, the extent and physiologic relevance of pre-translational regulation has not been defined. The current study shows that mitogen-/IL-2-driven proliferation of human T cells first increased then markedly decreased the expression of L-selectin on the blast population. The prevalence of specific mRNA showed parallel changes, implying that receptor density is controlled, in part, at the pretranslational level. We used the IL-2-independent Jurkat cell line to determine whether signaling through C-type protein kinases and intracellular calcium regulated L-selectin mRNA directly. Selective pharmacologic activation of these pathways with phorbol esters and calcium ionophore, respectively, resulted in opposite effects on both L-selectin density and mRNA levels. Phorbol esters induced receptor shedding followed by progressive increases in L-selectin density and steady state levels of mRNA. Addition of a calcium ionophore with the phorbol ester blocked both the reexpression of surface receptor and the increase in mRNA. Treatment with ionophore alone resulted in a steady decline in L-selectin expression and mRNA levels. Cyclosporin A, a specific inhibitor of calcineurin, blocked the impact of ionophore on both basal and phorbol-induced levels of L-selectin mRNA. Ionophore alone did not induce apoptosis, significantly alter cell cycle kinetics, or increase transcription of the IL-2 gene under conditions that suppressed L-selectin. Thus, calcineurin seems to be a proximal enzyme in a novel regulatory cascade that suppresses L-selectin expression independent of its known effects on proliferating T cells. In light of the findings in Jurkat, we propose that the protein kinase pathway up-regulates L-selectin mRNA and surface expression early in mitogen-driven T cell proliferation. Chronic elevation of intracellular calcium in repeatedly stimulated T cells then down-regulates expression at the pretranslational level through prolonged activation of calcineurin.
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PMID:Regulation of L-selectin mRNA in Jurkat cells. Opposing influences of calcium- and protein kinase C-dependent signaling pathways. 753 69

Ionomycin stimulated membrane-associated protein kinase Cs (PKCs) activity in C6 rat glioma cells as much as the potent PKCs stimulator 12-O-tetradecanoyl phorbol 13-acetate (TPA). However, while TPA, as expected, powerfully stimulated the phosphorylation of the PKCs' 85-kDa myristoylated alanine-rich protein kinase C substrate (MARCKS) protein, ionomycin unexpectedly did not. Instead, ionomycin reduced the basal MARCKS phosphorylation. Pretreating the glioma cells with ionomycin prevented TPA-stimulated PKCs from phosphorylating the MARCKS protein. The stimulation of membrane PKCs activity and the prevention of MARCKS phosphorylation by ionomycin required external Ca2+ because they were both abolished by adding 5 mM EGTA to the culture medium. Recently (Chakravarthy, B. R., Isaacs, R. J., Morley, P., Durkin, J. P., and Whitfield, J. F. (1995) J. Biol. Chem. 270, 1362-1368), we proposed that Ca2+ x calmodulin complexes block MARCKS phosphorylation by the activated PKCs in keratinocytes stimulated by raising the external Ca2+ concentration. In the present experiments calmodulin prevented MARCKS phosphorylation by TPA-stimulated PKCs in glioma cell lysates, and this blockade was lifted by a calmodulin antagonist, the calmodulin-binding domain peptide. But, physiologically more significant, pretreating intact glioma cells with a cell-permeable calmodulin antagonist, calmidazolium, prevented ionomycin from blocking MARCKS phosphorylation by PKCs in unstimulated and TPA-stimulated cells. The effect of ionomycin on MARCKS phosphorylation was not due to the stimulation of Ca2+ x calmodulin-dependent phosphoprotein phosphatase, calcineurin, because cyclosporin A, a potent inhibitor of this phosphatase, did not stop ionomycin from preventing MARCKS phosphorylation. The ability of ionomycin to prevent TPA-stimulated PKCs from phosphorylating MARCKS depended on whether ionomycin was added before, with, or after TPA. Maximum blockade occurred when ionomycin was added before TPA but was less effective when added with or after TPA. These results indicate that Ca2+ x calmodulin can profoundly affect PKCs' signaling at the substrate level.
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PMID:Ca2+ x calmodulin prevents myristoylated alanine-rich kinase C substrate protein phosphorylation by protein kinase Cs in C6 rat glioma cells. 755 16

The cytokine lymphotoxin (LT)alpha is known to play a role in B cell activation. As the engagement of the B cell antigen CD40 is known to lead to B cell proliferation and differentiation, we studied LT alpha expression in human B cells after CD40 ligation. We demonstrate that anti-CD40 monoclonal antibody (mAb) induces strong LT alpha mRNA and surface-expression in human tonsil B cells. Induction of LT alpha mRNA and surface expression by CD40 ligation is inhibited by the protein tyrosine kinase (PTK) inhibitors herbimycin and genistein in a dose-dependent manner. The protein kinase C (PKC)-specific inhibitors sphingosine and bis-indolylmaleimide caused negligible inhibition of anti-CD40-induced LT alpha mRNA and surface expression. No inhibition is observed with the protein kinase (PKA) inhibitors H89 and HA1004. Cross-linking of the transmembrane phosphatase CD45 to CD40 by using goat-anti-mouse F(ab')2 fragments strongly inhibits CD40-mediated LT alpha expression in human B cells, confirming the role of PTK activation in CD40-mediated induction of LT alpha expression. Inhibitors of the serine/threonine protein phosphatases PP1 and PP2A, okadaic acid and calyculin induce LT alpha mRNA expression. In contrast, cyclosporin A, an inhibitor of the serine/threonine phosphatase calcineurin has no effect on anti-CD40-induced LT alpha expression. These results suggest that induction of LT alpha expression in B cells following engagement of CD40 involves activation of protein tyrosine kinases.
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PMID:CD40-mediated lymphotoxin alpha expression in human B cells is tyrosine kinase dependent. 758 8

Alterations in situ in the phosphorylation state of the microtubule-associated protein tau were examined in response to increasing intracellular levels of Ca2+ through N-methyl-D-aspartate (NMDA)-receptor activation, or activating cyclic AMP (cAMP)-dependent protein kinase (cAMP-PK), in rat cerebral-cortical slices. Increasing intracellular concentrations of Ca2+ by treatment of the brain slices with the glutamate analogue NMDA in depolarizing conditions (55 mM KCl) resulted in dephosphorylation of tau. Addition of KCl+NMDA to the slices resulted in a 40% decrease in 32P incorporation into tau, whereas addition of KCl or NMDA alone had no effect on tau phosphorylation. The KCl+NMDA-induced dephosphorylation of tau was blocked by the non-competitive NMDA-receptor antagonist MK801. Determine the involvement of the Ca2+/calmodulin-dependent phosphatase, calcineurin, in the KCl+NMDA-induced dephosphorylation of tau, slices were pretreated with the calcineurin inhibitor Cyclosporin A. Pretreatment of the rat brain slices with Cyclosporin A completely abolished the dephosphorylation of tau induced by the addition of KCl+NMDA. The dephosphorylation of tau in situ was site-selective, as indicated by the loss of 32P label from only a few select peptides. Activation of cAMP-PK by stimulating adenylate cyclase in rat cerebral-cortical slices with forskolin resulted in a 73% increase over control levels in 32P incorporation into immunoprecipitated tau. Two-dimensional phosphopeptide mapping revealed that most of the sites on tau phosphorylated in brain slices in response to increased cAMP levels were the same as those phosphorylated on isolated tau by purified cAMP-PK. Although the state of tau phosphorylation is certainly regulated by many protein phosphatases and kinases in vivo, to our knowledge this study provides the first direct evidence of a specific protein phosphatase and kinase that modulate the phosphorylation state of tau in situ.
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PMID:Modulation of the phosphorylation state of tau in situ: the roles of calcium and cyclic AMP. 761 80

1. In previous work we have shown that in the snail Helix aspersa neuron F1 carbamylcholine (CCh) and other muscarinic agonists enhance the inward current carried through high voltage-activated Ca2+ channels by Ba2+ (HVA-ICa). It was also found that cyclic nucleotides, inositol trisphosphate or arachidonic acid are not involved in this modulation. Moreover, despite the effect of CCh being blocked by intracellular injection of EGTA, neither protein kinase C nor Ca(2+)-calmodulin-dependent protein kinase II appeared to play a role. 2. In the present paper, the intracellular mechanism of this muscarinic modulation was investigated further by studying the effects of inhibitors of Ser-Thr protein phosphatases (PP) on both the HVA-ICa of neuron F1 and its enhancement by CCh. 3. Intracellular injections in the F1 neuron of either microcystin LR or okadaic acid, both inhibitors of PP1 and PP2A, mimic the action of CCh on the HVA-ICa and occlude the effects of CCh on this current. In contrast, cyclosporin A, an inhibitor of PP2B (calcineurin), affects neither the HVA Ca2+ current itself nor its modulation by CCh. 4. The efficacy of PP inhibitors was tested in F1 neurons in which serotonin (5-HT) induces an inward current involving intracellular increases in cAMP and a protein kinase A-dependent closing of K+ channels. We found that intracellular injection of either microcystin LR or okadaic acid mimicked the 5-HT-induced inward current and occluded the effect of further application of 5-HT.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Enhancement by muscarinic agonists of a high voltage-activated Ca2+ current via phosphorylation in a snail neuron. 765 75

Rat brain sodium channels are phosphorylated at multiple serine residues by cAMP-dependent protein kinase. We have identified soluble rat brain phosphatases that dephosphorylate purified sodium channels. Five separable forms of sodium channel phosphatase activity were observed. Three forms (two, approximately 234 kDa and one, 192 kDa) are identical or related to phosphatase 2A, since they were 85-100% inhibited by 10 nM okadaic acid and contained a 36-kDa polypeptide recognized by a monoclonal antibody directed against the catalytic subunit of phosphatase 2A. Immunoblots performed using antibodies specific for isoforms of the B subunit of phosphatase 2A indicate that the two major peaks of phosphatase 2A-like activity, A1 and B1, are enriched in either B' or B alpha. The remaining two activities (approximately 100 kDa each) probably represent calcineurin. Each was relatively insensitive to okadaic acid, was active only in the presence of CaCl2 and calmodulin, and contained a 19-kDa polypeptide recognized by a monoclonal antibody raised against the B subunit of calcinerurin. Treatment of synaptosomes with okadaic acid to inhibit phosphatase 2A or cyclosporin A to inhibit calcineurin increased apparent phosphorylation of sodium channels at cAMP-dependent phosphorylation sites, as assayed by back phosphorylation. These results indicate that phosphatase 2A and calcineurin dephosphorylate sodium channels in brain, and thus may counteract the effect of cAMP-dependent phosphorylation on sodium channel activity.
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PMID:Identification of soluble protein phosphatases that dephosphorylate voltage-sensitive sodium channels in rat brain. 770 24

Although protein phosphatases appear to be highly controlled in intact cells, relatively little is known about the physiological regulation of their activity. DARPP-32, a dopamine- and cAMP-regulated phosphoprotein of apparent M(r) 32,000, is phosphorylated in vitro by casein kinase I, casein kinase II, and cAMP-dependent protein kinase on sites phosphorylated in vivo. DARPP-32 phosphorylated on Thr-34 by cAMP-dependent protein kinase is a potent inhibitor of protein phosphatase 1 and an excellent substrate for calcineurin, a Ca2+/calmodulin-dependent protein phosphatase. Here we provide evidence, using both purified proteins and brain slices, that phosphorylation of DARPP-32 on Ser-137 by casein kinase I inhibits the dephosphorylation of Thr-34 by calcineurin. This inhibition occurs only when phospho-Ser-137 and phospho-Thr-34 are located on the same DARPP-32 molecule and is not dependent on the mode of activation of calcineurin. The results demonstrate that the inhibition is due to a modification in the properties of the substrate which alters its dephosphorylation rate. Thus, casein kinase I may play a physiological role in striatonigral neurons as a modulator of the regulation of protein phosphatase 1 via DARPP-32.
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PMID:Dopamine- and cAMP-regulated phosphoprotein DARPP-32: phosphorylation of Ser-137 by casein kinase I inhibits dephosphorylation of Thr-34 by calcineurin. 770 5

T cell activation is triggered by antigen stimulation and is characterized by the production of a wide range of cytokines and other immunomodulators crucial for the growth and development of other haemopoietic cells. Activation also induces the T cells to express, on their cell surface, receptors that enable the T cell to respond to the various cytokines generated during an immune response. One well characterized event that occurs when mature T cells are activated is the production of the cytokine IL2 and the acquisition by the T cell of IL2 receptors. Interaction between IL2 and its cellular receptor then directs T cell growth. Expression of the IL2 gene in T cells is regulated by signalling pathways that originate from the T cell antigen receptor complex (TCR). This review discusses the role of p21ras in these events. The TCR regulates the activity of p21ras, and a range of experiments have shown that p21ras couples the TCR to an intracellular kinase cascade involving the serine/threonine kinase Raf-1 and the MAP kinase ERK2. Analysis of more distal receptor signals shows that p21ras controls a signalling pathway that cooperates with a calcium/calcineurin controlled signalling system to stimulate the transcriptional factor NFAT and hence the IL2 gene. These studies identify p21ras as a critical signalling molecule in immune cells.
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PMID:Regulation and function of p21ras in T lymphocytes. 772 60

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