Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Calponin is a smooth muscle-specific, thin filament-associated protein which has been implicated in the regulation of contraction via its interaction with actin and inhibition of the cross-bridge cycling rate. Calponin is phosphorylated by protein kinase C (PKC) and Ca2+/calmodulin-dependent protein kinase II (CaM kinase II), primarily at S175, with loss of actin binding and inhibition of the actin-activated myosin MgATPase. We previously isolated calponin phosphatase from chicken gizzard smooth muscle and identified it as a type 2A protein phosphatase [Winder et al. (1992) Biochem. J. 286, 197-203]. The methods used to detect phosphatase activity in that study would additionally have detected type 1 and 2C phosphatases, but not type 2B phosphatase (Ca2+/CaM-dependent phosphatase or calcineurin). We have, therefore, examined the expression of type 2B phosphatase in smooth muscle and its ability to dephosphorylate calponin. Western blotting with polyclonal antibodies to the brain enzyme revealed the expression of type 2B phosphatase in chicken gizzard, and immunofluorescence microscopy confirmed the presence of the phosphatase in isolated smooth muscle cells (rabbit and toad stomach). The purified brain phosphatase dephosphorylated calponin (phosphorylated by PKC or CaM kinase II) in a Ca2+/CaM-dependent manner. Dephosphorylation by calcineurin restored actin-binding and actin-activated myosin MgATPase inhibition which had been reduced by PKC-catalyzed phosphorylation. We conclude that calponin dephosphorylation may be catalyzed not only by type 2A phosphatase but also by type 2B phosphatase, raising the possibility that both phosphorylation and dephosphorylation of calponin could be regulated by Ca2+/CaM.
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PMID:Dephosphorylation of calponin by type 2B protein phosphatase. 761 14

Glucocorticoid hormones (GC) have profound effects on the development and homeostasis of the immune system. In this communication we present evidence that GC regulate Ca(2+)-mediated pathways of T cell activation by a mechanism that involves abrogation of the autophosphorylation of the multifunctional Ca2+/calmodulin kinase (CaM kinase II) and induction of protein phosphatase activity. Primary human T cells were stimulated with the combination of ionomycin and phorbol ester in the presence or absence of dexamethasone (Dex) (10(-6)-10(-12) M). Stimulation of T cells resulted in a rapid activation of CaM kinase II and protein kinase C (PKC) activity as determined by the phosphorylation of synthetic peptide substrates recognized by these enzymes. Dex inhibited the activity of CaM kinase II but not PKC activity in a dose-dependent fashion (minimum effective dose 10(-10) M). Stimulation of 32P-labeled T cells induced a rapid increase in the phosphorylation level of CaM kinase II which was inhibited by Dex. The inhibitory effect of Dex on this enzyme was fully reversed in the presence of the phosphatase inhibitor okadaic acid (250 nM) or RU 486, a glucocorticoid antagonist. These results suggest that GC inhibit the activation of CaM kinase during T cell activation through a mechanism that involves both the GC receptor and protein phosphatases 2A and/or 1. Inhibition of protein phosphorylation through the induction of protein phosphatase activity may represent a novel mechanism for the diverse effects of GC on eukaryotic cells.
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PMID:Glucocorticoid-mediated regulation of protein phosphorylation in primary human T cells. Evidence for induction of phosphatase activity. 763 35

The role of persistent protein phosphorylation upon gonadotropin releasing hormone (GnRH) stimulated luteinizing hormone (LH) release was investigated by the use of the selective inhibitors of protein phosphatase type 1 (PP1) and 2A (PP2A), okadaic acid (OA) and calyculin A. Pre-incubation of cultured rat pituitary cells with OA (24 h) or calyculin A (30 min) resulted in inhibition of GnRH-stimulated LH release with significant inhibition being detected at 10 nM and 30 nM for OA and calyculin A, respectively. The inactive OA analog norokadone and the protein tyrosine phosphatase inhibitor vanadyl hydroperoxide had no significant effect on GnRH-induced LH release. The stimulatory effects of the protein kinase C (PKC) activator 12-O-tetradecanoylphorbol 13-acetate (TPA, 50 ng/ml) or the Ca2+ ionophore, ionomycin (1 micron), upon LH release were also abolished by pretreatment with OA (10-20 nM) or calyculin A (30 nM). Stimulation of LH release by high K+ (28 mM) or residual LH release stimulated by GnRH in Ca(2+)-free medium were also blocked by OA. These observations indicate that protein dephosphorylation is involved positively in GnRH-stimulated LH release. The site of action of the protein phosphatases PP1 and PP2A is most likely downstream to Ca2+ elevation and PKC activation by GnRH.
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PMID:Involvement of protein phosphatases in gonadotropin releasing hormone regulated gonadotropin secretion. 764 55

The delta isoenzyme of protein kinase C (PKC-delta), purified from the plasma membrane of the hepatopancreas of the shrimp Penaeus monodon is specifically phosphorylated at tyrosine residues, as demonstrated by specific dephosphorylation by phosphotyrosyl protein phosphatase from the hepatopancreas of the shrimp Penaeus monodon. The specific activity of purified PKC-delta was 200 units/mg of protein. The subunits of M(r) 66,000, 62,000, and 58,000 of PKC-delta were not autophosphorylated after the addition of phosphatidylserine and diolein. However, the purified PKC-delta was active and catalyzed the phosphorylation of myelin basic protein. The kinase activity of the purified PKC-delta could be decreased after treatment with phosphotyrosyl protein phosphatase.
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PMID:Purification of the delta isoenzyme of protein kinase C from the hepatopancreas of the shrimp Penaeus monodon with phosphorylation on tyrosine residues. 765 May 14

Inorganic lead inhibits neurite initiation in cultured rat hippocampal neurons at concentrations as low as 100 nM. Conflicting reports suggest that Pb2+ may stimulate or inhibit protein kinase C, adenylyl cyclase, phosphodiesterase, and calmodulin, or increase intracellular free Ca2+ concentrations. Therefore, Pb2+ may alter the activities of Ca2+/calmodulin-dependent protein kinase (CaM kinase) or protein kinases C or A. We cultured rat hippocampal neurons in 100 nM PbCI2 alone or in combination with kinase or calmodulin inhibitors. Inhibiting protein kinase C with calphostin C exacerbated the inhibition of neurite initiation caused by PbCI2, but inhibiting protein kinase A with KT5720, CaM kinase with KN62, or calmodulin with calmidazolium completely reversed the effects of PbCI2. These results indicate that Pb2+ may inhibit neurite initiation by inappropriately stimulating protein phosphorylation by CaM kinase or cyclic AMP-dependent protein kinase (PKA), possibly by stimulating calmodulin. This hypothesis is supported by findings that other treatments that should increase protein phosphorylation (okadaic acid, a protein phosphatase inhibitor, and Sp-cAMPS, a PKA activator) also reduced neurite initiation. Whole-cell intracellular free Ca2+ ion concentrations were not significantly altered by 100 nM PbCI2 at 4, 12, 24, or 48 hr. Therefore, the hypothesized stimulatory effects of Pb2+ exposure on calmodulin, CaM kinase, or PKA are probably not caused by increases in whole-cell intracellular free Ca2+, but may be attributable either to intracellular Pb2+ or to localized increases in [Ca2+]in that are not reflected in whole-cell measurements.
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PMID:Inorganic lead may inhibit neurite development in cultured rat hippocampal neurons through hyperphosphorylation. 767 45

Electron microscopy studies demonstrate unequivocally that the observed oligonucleosome-sized secondary DNA fragmentation in human promyelocytic HL-60 cells treated with the topoisomerase inhibitors camptothecin and teniposide is correlated with the morphological changes in cell structure typical of programmed cell death (apoptosis). Since apoptosis has been associated with potential involvement of intracellular signaling linked to the Ca2+/calmodulin and protein kinase C transduction pathways, we also investigated the effects of signaling modulators on camptothecin- and teniposide-induced secondary DNA fragmentation in HL-60 cells. Neither calcium chelators, calcium/calmodulin inhibitors (calmidazolium or cyclosporine A), protein kinase C stimulation by TPA, protein phosphatase inhibition by okadaic acid, protein kinase inhibition by staurosporine, calphostin C, genistein or H7, nor cell cycle alterations by caffeine had any detectable effect. Interestingly, most of these intracellular signaling modulators were able to induce DNA fragmentation in HL-60 cells by themselves. These results may suggest that even though modulation of these signaling pathways was unable to prevent topoisomerase inhibitor-induced apoptosis, their sole deregulations could induce apoptosis in HL-60 cells. In contrast, aphidicolin blocked camptothecin-induced secondary DNA fragmentation, indicating that replication-induced DNA damage is required for camptothecin- but not teniposide-induced secondary DNA fragmentation. Zinc, 3-aminobenzamide, and spermine also modulated both camptothecin- and teniposide-induced secondary DNA fragmentation without significant alteration of topoisomerase-mediated primary DNA strand breaks. Hence, poly(ADP-ribosyl)ation and chromatin structure may be important in modulating oligonucleosome-sized DNA fragmentation associated with apoptosis in HL-60 cells treated with topoisomerase inhibitors.
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PMID:Apoptosis and its modulation in human promyelocytic HL-60 cells treated with DNA topoisomerase I and II inhibitors. 768 16

Protein phosphorylation and subsequent dephosphorylation was studied in digitonin-permeabilized neuroblastoma SH-SY5Y cells by measuring the incorporation of [32P]phosphate into myelin basic protein (MBP). 1,2-Dioctanoyl-sn-glycerol (DOG) and calcium synergistically induced phosphorylation of MBP, which was inhibited by the protein kinase C (PKC) pseudosubstrate peptide (PKC19-36). The phosphorylation increased for 10 min when a net dephosphorylation started to appear. The dephosphorylation was inhibited by okadaic acid. Regardless of calcium concentration, the presence of DOG was necessary for significant effects of okadaic acid on MBP phosphorylation. H7 and staurosporine dose-dependently inhibited the phosphorylation of MBP, induced by DOG and calcium in the presence of okadaic acid. Different PKC pseudosubstrate peptides were applied and all showed an inhibitory effect on the phosphorylation of MBP under these conditions. These results demonstrate the presence, in SH-SY5Y cells, of a protein phosphatase, possibly protein phosphatase 2A, with a high basal activity that counteracts PKC-induced phosphorylation.
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PMID:An okadaic acid-sensitive protein phosphatase counteracts protein kinase C-induced phosphorylation in SH-SY5Y cells. 768 46

Calcium- and lipid-dependent protein kinase (PKC) activity in the ovary of the pseudopregnant rat is masked by an endogenous inhibitor of PKC. These studies were undertaken to examine the mechanism of action of the endogenous inhibitor of PKC in the rat ovary. The addition of the phosphatase inhibitors calyculin-A (0.09 nM), microcystin-LR (6.4 nM), and okadaic acid (10 nM) resulted in the loss of PKC inhibitory activity and an increase in basal PKC activity in rat ovarian cytosol. In phosphatase assays, significant dephosphorylation of histone-III-S or myelin basic protein that had been phosphorylated by PKC occurred within 4 min after the addition of ovarian cytosol from the pseudopregnant rat. This dephosphorylation was prevented from the pseudopregnant rat. This dephosphorylation was prevented by the addition of calyculin-A (0.73 nM) and was removed by fractionation of ovarian cytosol on diethylaminoethyl cellulose. No inhibition of PKC activity was observed when the PKC-specific peptides AcMBP-(4-14) and [Ser25]PKC-(19-31) were used as the substrate for phosphorylation. In addition, rat ovarian cytosol did not exhibit phosphatase activity when the peptide AcMBP-(4-14) was used as the substrate. Addition of ovarian cytosol resulted in dephosphorylation of phosphorylase-alpha phosphorylated by phosphorylase kinase, but not dephosphorylation of histone-II-A or histone-VIII-S phosphorylated by PKA. The data suggest that the endogenous inhibitor of PKC in the rat ovary is a protein phosphatase.
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PMID:The endogenous inhibitor of protein kinase-C in the rat ovary is a protein phosphatase. 768 49

We have stably introduced expression vectors for the glucocorticoid receptor and a sensitive, hormone-responsive reporter (mouse mammary tumor virus-luciferase) into a human breast carcinoma-derived cell line. Employing this cell line, we have conducted a detailed examination of the induction of glucocorticoid-regulated genes and the phosphorylation of glucocorticoid receptor following pharmacologic manipulation of cell signaling pathways. The hormone response can be enhanced from 2 to 10-fold by activators of protein kinase A, protein kinase C, and inhibitors of protein phosphatase. Forskolin and 8-bromoadenosine 3':5'-cyclic monophosphate (BrcAMP), but not BrcGMP, enhance the hormone effect, yet surprisingly, phosphodiesterase inhibitors, isobutylmethylxanthine and Ro20-1724, strongly inhibit hormone-mediated induction of the reporter gene. These treatments do not alter cellular receptor content, dexamethasone binding, nor hormone-mediated receptor down-regulation. Tryptic peptide analysis of 32P-labeled receptor reveals that neither BrcAMP, isobutylmethylxanthine, nor the tumor promoter and protein kinase C activator, 12-O-tetradecanoyl-phorbol-13-acetate, detectably alter the state of glucocorticoid receptor phosphorylation. The only agent which alters receptor phosphorylation is the protein phosphatase inhibitor okadaic acid, but only at concentrations higher than required for maximum effects on glucocorticoid receptor transactivation. We propose that these effectors do not modify receptor directly but alter its interaction with transcription complexes.
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PMID:Modulation of cell signaling pathways can enhance or impair glucocorticoid-induced gene expression without altering the state of receptor phosphorylation. 769 81

The involvement of serine/threonine protein-phosphatases in the production of superoxide (respiratory burst) by human neutrophils was investigated using calyculin A, a potent inhibitor of both protein phosphatases type 1 and 2A, and okadaic acid, which preferentially inhibits protein phosphatase type 2A. Treatment of neutrophils with calyculin A (25-75 nM) or okadaic acid (1-4 microM) had no stimulatory effect but potently enhanced total superoxide production induced by an optimal fMLP (N-formyl-methionyl-leucyl-phenylalanine) concentration (0.1 microM). The maximum increase plateaued with 50-75 nM calyculin A and 2-4 microM okadaic acid, reaching approximately 120 and 200% of control values, respectively. Unlike calyculin A, okadaic acid also primed the initial rate of superoxide production, suggesting that protein phosphatases may down-regulate both initiation and termination of respiratory burst. Optimal stimulation of the respiratory burst by PMA (160 nM) was inhibited by calyculin A and okadaic acid, with an IC50 of 60 nM and 2 microM, respectively, although both drugs caused protein hyperphosphorylation. The inhibition was partially prevented by a nonstimulatory concentration of A23187, indicating a role of calcium in the inhibitory effects of the drugs. Unlike the optimal respiratory burst, suboptimal respiratory burst induced by PMA (1-7 nM) was enhanced by calyculin A and okadaic acid. Unprimed and primed respiratory bursts were depressed by a selective antagonist of protein kinase C (GF 109203X), indicating positive regulation of these responses by protein kinase C. Thus, the use of calyculin A and okadaic acid distinguishes two regulatory processes of superoxide production.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Contrasting effects of calyculin A and okadaic acid on the respiratory burst of human neutrophils. 772 Jul 81


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