EC:3.1.3.16 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.16 (calcineurin)
17,112 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The addition of either okadaic acid or calyculin A desensitizes human platelets to thrombin. One objective of this study was to determine which step(s) leading to secretion reactions may be affected by these protein phosphatase inhibitors. In a dose-dependent manner, okadaic acid or calyculin A inhibits phosphatidylinositol metabolism and Ca(2+)-transients. In all cases, calyculin A was approximately 10-fold more potent than okadaic acid, and it had maximal effects at a concentration of 1 microM. Although thrombin-induced rises in [Ca2+]i were diminished, an increase in the phosphorylation state of myosin light chains (MLC) was still observed. Changes in this phosphorylation were diminished, however, following the addition of thrombin to calyculin A-treated platelets that were loaded with dimethyl-BAPTA. These data demonstrate that calyculin A and okadaic acid lower agonist-induced Ca(2+)-transients, which in turn prevents responses such as secretion reactions. Calyculin A/okadaic acid-induced phosphorylation events were not diminished in BAPTA-loaded platelets, suggesting that these phosphorylations are Ca(2+)-insensitive. Thus, a second objective of this study was to identify the protein kinase(s) that was(were) responsible for the calyculin A-induced phosphorylations. In a platelet lysate system, calyculin A caused an increase in the incorporation of [32P]phosphate into p50. This phosphorylation event was identical to that observed in the intact platelet and was not mimicked by cAMP, cGMP, Ca2+, or a Ca2+/phospholipid/diacylglycerol mixture. Kinase activity was removed after the lysate was incubated with p13suc1-Sepharose. This suggests that a p13suc1-sensitive protein kinase, e.g., a cell cycle-dependent protein kinase, is responsible for the calyculin A-sensitive phosphorylation events.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibitors of protein phosphatase type 1 and 2A attenuate phosphatidylinositol metabolism and Ca(2+)-transients in human platelets. Role of a cdc2-related protein kinase. 132 63

Prior to confluence, cultures of Madin Darby canine kidney (MDCK) cells expressed gap junctional communication, as assessed by fluorescent dye transfer, as well as relatively high levels of an anti-connexin43 immunoreactive component referred to as connexin43 (Cx43). After confluence, dye coupling and levels of Cx43 were dramatically reduced. Immunofluorescence analysis of the distribution of Cx43 in subconfluent cultures showed punctate labeling on the plasma membrane at regions of cell apposition and a more diffuse labeling in perinuclear regions. Western blots of total cell homogenates showed that the dephosphorylated form of Cx43 was more abundant than the phosphorylated forms. Phosphorylation of Cx43 was not significantly affected by 8-Bromo-cAMP or 8-Bromo-cGMP. However, 12-O-tetradecanoylphorbol-13-acetate (TPA) inhibited dye coupling and induced an increase in the amount of phosphorylated forms of Cx43 at the expense of the dephosphorylated form. This effect occurred as rapidly as 5 min after TPA treatment without apparent changes in distribution of Cx43 or cell morphology. These results suggest that second messenger pathways involving protein kinase C, but not cAMP- or cGMP-dependent protein kinase, led to changes in electrophoretic mobility of Cx43, revealed by Western blot, consistent with an alteration in the state of phosphorylation of the gap junction protein. Treatments with staurosporine, a protein kinase inhibitor, or okadaic acid, a protein phosphatase inhibitor, either alone or in combination with TPA, indicated that the abundance of the dephosphorylated form of Cx43 in MDCK cells was due to low kinase activity. It was also found that lowering the concentration of extracellular Ca2+, which reduced cell contact, did not affect the abundance, the state of phosphorylation, or the TPA-induced phosphorylation of Cx43. These results suggest that neither extracellular Ca2+ nor cell contact is required for basal or TPA-induced phosphorylation of Cx43.
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PMID:Connexin43 in MDCK cells: regulation by a tumor-promoting phorbol ester and Ca2+. 132 99

Chromostatin is a 20-residue peptide derived from chromogranin A (CGA), the major soluble component of secretory granules in adrenal medullary chromaffin cells. One known biological function of chromostatin is to inhibit the secretagogue-evoked catecholamine secretion from chromaffin cells. Putative receptors are present on the chromaffin-cell plasma membrane, and the activation of such receptors leads to the inhibition of L-type voltage-sensitive calcium channels. We report here that exposure of chromaffin cells to chromostatin modifies neither cAMP and cGMP levels nor protein kinase C activity but does provoke the activation of soluble protein phosphatase (PPase) type 2A in a dose-dependent manner compatible with the peptide concentration inhibiting catecholamine secretion. The activation of the PPase as well as the inhibition of both secretagogue-induced Ca2+ entry and catecholamine secretion by chromostatin were all blocked by okadaic acid, a specific PPase inhibitor. We suggest that chromostatin directly or indirectly stimulates PPase-2A, dephosphorylating a target protein and lowering its activity in the secretory process.
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PMID:Chromostatin inhibits catecholamine secretion in adrenal chromaffin cells by activating a protein phosphatase. 132 34

Long-term desensitization of the AMPA-selective glutamate receptors in Purkinje cells was examined in rat cerebellar slices by means of the wedge recording method. It was not induced by application of AMPA alone, but occurred regularly when slices were conditioned by perfusion with 0.5 mM 8-bromo-cGMP (but not cAMP derivatives) or the protein phosphatase inhibitors, okadaic acid and calyculin A. Phorbol esters also showed a similar effect. The 8-bromo-cGMP desensitization was antagonized by KT5823, an inhibitor of protein kinase G, while the effect of calyculin A was inhibited by polymyxin B, H-7, or K252a. These results suggest that AMPA receptors are persistently desensitized due to concerted action of both an agonist and an enzymatic system involving protein kinases G and C and a protein phosphatase inhibitor.
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PMID:Protein kinases and phosphatase inhibitors mediating long-term desensitization of glutamate receptors in cerebellar Purkinje cells. 132 54

The ATP.Mg-dependent protein phosphatase activating factor (FA) has been identified and purified to near homogeneity from brain. In this report, as evidenced on SDS-polyacrylamide gel electrophoresis followed by autoradiography, factor FA has further been identified as a cAMP and Ca(2+)-independent brain kinase that could phosphorylate synapsin I, a neuronal protein that coats synaptic vesicles, binds to cytoskeleton, and is believed to be involved in the modulation of neurotransmission. Kinetic study further indicated that factor FA could phosphorylate synapsin I with a low Km value of about 2 microM and with a molar ratio of 1 mol of phosphate per mole of protein. Peptide mapping analysis revealed that factor FA specifically phosphorylated the tail region of synapsin I but on a unique site distinct from those phosphorylated by Ca2+/calmodulin-dependent protein kinase II and cAMP-dependent protein kinase, the two well-established synapsin I kinases. Functional study further revealed that factor FA could phosphorylate this unique specific site on the tail region of synapsin I and thereby inhibit cross-linking of synapsin I with microtubules. The results further suggest the possible involvement of factor FA as a synapsin I kinase in the regulation of axonal transport process of synaptic vesicles via the promotion of vesicles motility during neurotransmission.
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PMID:Identification of the ATP.Mg-dependent protein phosphatase activator (FA) as a synapsin I kinase that inhibits cross-linking of synapsin I with brain microtubules. 133 16

Cytokines such as interleukin-1, which are found in the brain after trauma, regulate expression of nerve growth factor (NGF) mRNA and protein in hippocampal cultures. We have investigated possible mechanisms by which Il-1 beta regulates NGF in hippocampal cells. The induction of NGF mRNA by Il-1 beta was blocked by a receptor antagonist indicating that this effect is receptor mediated. Il-1 beta elicited a dramatic induction of c-fos mRNA and a slight elevation of c-jun mRNA in a time dependent manner which may allow for a role in the induction of NGF mRNA expression. We examined whether specific second messenger pathways were involved in mediating the action of Il-1 beta in the hippocampus. Activation of cAMP with forskolin or treatment with 8-Br-cAMP had no effect on NGF mRNA levels. Moreover, exposure of hippocampal cultures to Il-1 beta evoked no change in cAMP levels, indicating that this second messenger system played little or no role in the regulation of NGF expression by Il-1 beta in these cells. Further, interleukin-1 elicited no change in membrane inositol phosphate turnover, nor did it affect intracellular calcium levels. Treatment of cell cultures with the phorbol ester PMA elicited an increase in NGF mRNA, suggesting that activation of protein kinase C (PKC) may mediate NGF mRNA expression. However, prolonged treatment of cultures with PMA to desensitize PKC did not eliminate the Il-1 beta induction of NGF mRNA. Il-1 beta, therefore, did not appear to activate NGF expression via cAMP, Ca2+, or a PKC isoform that is downregulated by prolonged PMA treatment. However, a phosphorylation event may be involved in the signal transduction mechanism, as treatment with okadaic acid to inhibit protein phosphatase 2a potentiated the induction of NGF mRNA by Il-1 beta. The results presented indicate that Il-1 beta acts via its receptor to induce a rise in NGF expression. Identification of the specific second messenger pathway has remained elusive; however, a phosphorylation event appears to be intermediary. Moreover, the induction of c-fos and c-jun may represent a final common path in activation of NGF gene expression by different signals such as Il-1 beta and PMA.
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PMID:Mechanisms of nerve growth factor mRNA regulation by interleukin-1 beta in hippocampal cultures: role of second messengers. 133 37

The superoxide anion generation in Ehrlich ascites tumour (EAT) cells increased more than two-fold in the presence of the tumour promoter, tetradecanoyl phorbol myristate acetate (TPA). Epinephrine and dibutryl cAMP (Bt2 cAMP) inhibited in a dose-dependent manner, both basal and TPA-triggered superoxide generation in EAT cells. The kinetics of inhibition of superoxide generation showed a maximum inhibition between 30 and 40 min of preincubation with epinephrine or Bt2 cAMP of EAT cells and coincided with an increase in activity of a phosphoprotein phosphatase. In TPA-treated EAT cells, epinephrine or Bt2 cAMP increased the phosphatase activity in a dose-dependent manner. In vitro EGTA, EDTA and sodium fluoride inhibited phosphatase activity. Superoxide generation in response to TPA in Triton-permeabilized EAT cells was inhibited by inclusion of the phosphatase in the assay. Taken together, these results clearly suggest that the phosphatase activity in EAT cells develops as a result of protein kinase A (PKA) and protein kinase C (PKC)-mediated phosphorylation of the phosphatase which then mediates dephosphorylation of the PKC-triggered phosphorylation of proteins to inhibit respiratory burst. A cross-talk between PKA and PKC pathways negatively modulates superoxide generation in EAT cells.
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PMID:Mechanism of inhibition by cyclic AMP of protein kinase C-triggered respiratory burst in Ehrlich ascites tumour cells. 133 69

Recent studies have detailed the ability of activating transcription factor-2 (ATF-2) to mediate adenoviral E1a stimulation of gene expression; however, an endogenous regulator for the transcriptional activity of this protein has not been described. To characterize the regulation of ATF-2 activity, we have expressed full-length and truncated peptides corresponding to various regions of the ATF-2 protein in bacteria and the baculovirus insect cell system. Bacterially expressed truncated (350-505) but not full-length ATF-2, was able to bind a consensus cAMP response element-containing oligonucleotide, suggesting the N-terminal moiety may serve as a negative regulator of DNA-binding activity. In contrast, the full-length ATF-2 protein expressed in Spodoptera frugiperda (Sf9) cells using a recombinant baculovirus was fully competent to bind DNA. Protein phosphatase 2A reversed the DNA-binding activity by dephosphorylating the ATF-2 polypeptide. Microtubule-associated protein kinase catalyzed the phosphorylation and stimulated the DNA-binding activity of bacterially expressed full-length ATF-2. Phosphopeptide mapping of phosphorylated ATF-2 proteins identified a single peptide in the N-terminal moiety of ATF-2 phosphorylated by p42 or p54 microtubule-associated protein kinase. Therefore, we propose that phosphorylation of this regulatory site is sufficient to induce an allosteric structural change in the ATF-2 protein, which allows dimerization and subsequent DNA binding.
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PMID:Activating transcription factor-2 DNA-binding activity is stimulated by phosphorylation catalyzed by p42 and p54 microtubule-associated protein kinases. 133 44

Intracellular movement of vesiculated pigment granules in angelfish melanophores is regulated by a signalling pathway that triggers kinesin and dyneinlike microtubule motor proteins. We have tested the relative importance of intracellular Ca2+ ([Ca2+]i) vs cAMP ([cAMP]i) in the control of such motility by adrenergic agonists, using fluorescence ratio imaging and many ways to artificially stimulate or suppress signals in these pathways. Fura-2 imaging reported a [Ca2+]i elevation accompanying pigment aggregation, but this increase was not essential since movement was not induced with the calcium ionophore, ionomycin, nor was movement blocked when the increases were suppressed by withdrawal of extracellular Ca2+ or loading of intracellular BAPTA. The phosphatase inhibitor, okadaic acid, blocked aggregation and induced dispersion at concentrations that suggested that the protein phosphatase PP-1 or PP-2A was continuously turning phosphate over during intracellular motility. cAMP was monitored dynamically in single living cells by microinjecting cAMP-dependent kinase in which the catalytic and regulatory subunits were labeled with fluorescein and rhodamine respectively (Adams et al., 1991. Nature (Lond.). 349:694-697). Ratio imaging of F1CRhR showed that the alpha 2-adrenergic receptor-mediated aggregation was accompanied by a dose-dependent decrease in [cAMP]i. The decrease in [cAMP]i was both necessary and sufficient for aggregation, since cAMP analogs or microinjected free catalytic subunit of A kinase-blocked aggregation or caused dispersal, whereas the cAMP antagonist RpcAMPs or the microinjection of the specific kinase inhibitor PKI5-24 amide induced aggregation. Our conclusion that cAMP, not calcium, controls bidirectional microtubule dependent motility in melanophores might be relevant to other instances of non-muscle cell motility.
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PMID:Intracellular cyclic AMP not calcium, determines the direction of vesicle movement in melanophores: direct measurement by fluorescence ratio imaging. 134 51

1. The monoamine dopamine and the amino acid glutamate are major neurotransmitters in the basal ganglia implicated in the normal functions of the striatum and in extrapyramidal disease states. To study the effects of these neurotransmitters on gene transcription in striatal neurons, we treated rats with dopamine (monoamine) agonists and with glutamate agonists and monitored the induction of Fos-like protein in striatal neurons. We administered the indirect monoamine agonists cocaine and amphetamine intraperitoneally and gave the glutamate agonist quinolinic acid by direct intrastriatal injection. We identified the phenotypes of the responsive neurons by immunohistochemistry and by enzyme histochemistry in double staining protocols. 2. Both the indirect monoamine agonists and the glutamate receptor agonist stimulated rapid nuclear expression of Fos-like protein in specific classes of striatal neurons. The induction by cocaine and amphetamine was blocked by pretreatment with the dopamine D1-like receptor antagonist SCH23390, and the induction by quinolinic acid was blocked by pretreatment with MK-801, a noncompetitive antagonist of the N-methyl-D-aspartate (NMDA) glutamate receptor. 3. The monoamine and glutamate agonists both induced Fos-like protein exclusively in striatal neurons that constitutively expressed the protein phosphatase inhibitor DARPP-32 (dopamine and cAMP-regulated phosphoprotein). 4. The dopamine agonists failed to induce detectable Fos-like protein in striatal neurons expressing enkephalin, even though many such neurons expressed DARPP-32. By contrast, many enkephalinergic neurons did express Fos-like protein in response to glutamatergic stimulation. 5. Glutamate agonist stimulation, but not dopamine agonist stimulation, induced Fos-like protein in a subpopulation of striatal interneurons, namely, a group of neurons exhibiting NADPH-diaphorase activity. 6. These findings suggest that stimulation of dopamine D1-like receptors (or related monoamine receptors) and glutamate NMDA receptors activates neuron-specific programs of immediate-early gene expression in the striatum. Our findings further suggest that monoamine and glutamate may act cooperatively at the transcriptional level on a functionally defined subset of striatal neurons.
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PMID:Dopamine and glutamate agonists stimulate neuron-specific expression of Fos-like protein in the striatum. 135 24

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