EC:2.7.11.13 - FACTA Search

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)

1. In the human airway epithelium, VIP/PACAP receptors are distributed in nerve fibers and in epithelial cells but their role in transepithelial ion transport have not been reported. Here, we show that human bronchial epithelial Calu-3 cells expressed the VPAC(1) receptor subtype which shares similar high affinity for VIP and PACAP-27. 2. The stoichiometric binding parameters characterizing the (125)I-VIP and (125)I-PACAP-27 binding to these receptors were determined. 3. We found that VIP (EC(50) approximately 7.6 nM) and PACAP-27 (EC(50) approximately 10 nM) stimulated glibenclamide-sensitive and DIDS-insensitive iodide efflux in Calu-3 cells. 4. The protein kinase A (PKA) inhibitor, H-89 and the protein kinase C (PKC) inhibitor, chelerythrine chloride prevented activation by both peptides demonstrating that PKA and PKC are part of the signaling pathway. This profile corresponds to the pharmacological signature of CFTR. 5. In the cystic fibrosis airway epithelial IB3-1 cell lacking functional CFTR but expressing VPAC(1) receptors, neither VIP, PACAP-27 nor forskolin stimulated chloride transport. 6. Ussing chamber experiments demonstrated stimulation of CFTR-dependent short-circuit currents by VIP or PACAP-27 applied to the basolateral but not to the apical side of Calu-3 cells monolayers. 7. This study shows the stimulation in human bronchial epithelial cells of CFTR-dependent chloride secretion following activation by VIP and PACAP-27 of basolateral VPAC(1) receptors.
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PMID:Activation of VPAC1 receptors by VIP and PACAP-27 in human bronchial epithelial cells induces CFTR-dependent chloride secretion. 1474 18

Lipopolysaccharide (LPS) endotoxin of Gram-negative bacteria compromises the integrity of the airway epithelial barrier and initiates migration of leukocytes across the epithelium. The goal of the present study was to identify the role of extracellular regulated kinase (ERK1/2) transduction pathways in these processes. The first aim was to determine whether LPS induces ERK1/2 activation and changes in epithelial permeability in epithelial cells alone or only in the presence of immune cells. The second aim was to determine whether the changes in the epithelial permeability were diminished by ERK1/2 blockade. The third aim was to investigate the role of protein kinase C (PKC) activation as an upstream event in activation of ERK1/2. In vitro 20 microg/ml LPS challenge reduced epithelial barrier function, and induced ERK1/2 phosphorylation in primary cultures of bovine tracheal epithelium and in the transformed human airway epithelial cell line, Calu-3. LPS initiated migration of neutrophil-like and monocyte-like transformed HL-60 cell across sheets of Calu-3 cells. The migration rate and the associated changes in the electrical resistance, permeability to albumin, and ERK1/2 phosphorylation were all blocked by calphostin C, the specific blocker of PKC and by PD98059 (2'-amino-3'-methoxyflavone), a selective cell-permeable inhibitor of MAP kinase kinase. In rats, in vivo perfusion of the lumen of an isolated segment of trachea with LPS (0.1 mg/ml) initiated migration of neutrophils and increased the permeability to albumin. Again, these effects were markedly inhibited by PD98059 and calphostin C (by > 50%). We conclude that epithelial ERK1/2 is activated by endotoxin via PKC and is an important pathway in regulation of epithelial permeability.
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PMID:Endotoxin induces leukocyte transmigration and changes in permeability of the airway epithelium via protein-kinase C and extracellular regulated kinase activation. 1502 24

In past studies, we demonstrated regulation of CFTR Cl channel function by protein kinase C (PKC)-epsilon through the binding of PKC-epsilon to RACK1 (a receptor for activated C-kinase) and of RACK1 to human Na(+)/H(+) exchanger regulatory factor (NHERF1). In this study, we investigated the site of RACK1 binding on NHERF1 using solid-phase and solution binding assays and pulldown, immunoprecipitation, and (36)Cl efflux experiments. Recombinant RACK1 binding to glutathione S-transferase (GST)-tagged PDZ1 domain of NHERF1 was 10-fold higher than its binding to GST-tagged PDZ2 domain of NHERF1. PDZ1 binds to RACK1 in a dose-dependent manner and vice versa, with similar binding constants of 1.67 and 1.26 microg, respectively. Interaction of the PDZ1 domain with RACK1 was not blocked by binding of activated PKC-epsilon to RACK1. A GST-tagged PDZ1 domain pulled down endogenous RACK1 from Calu-3 cell lysate. An internal 11-amino acid motif embedding the GYGF carboxylate binding loop of PDZ1 binds to RACK1, inhibits binding of recombinant NHERF1 and RACK1, pulls down endogenous RACK1 from Calu-3 cell lysate, and blocks coimmunoprecipitation of endogenous RACK1 with endogenous NHERF1 but does not affect cAMP-dependent activation of CFTR. A similar amino acid sequence in the PDZ2 domain did not bind RACK1. Our results indicate binding of Calu-3 RACK1 predominantly to the PDZ1 domain of NHERF1 at a site encompassing the GYGF loop of the PDZ1 domain and a site on RACK1 distinct from a PKC-epsilon binding site. CFTR activation by cAMP-generating agent is not affected by loss of RACK1-NHERF1 interaction.
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PMID:Role of a PDZ1 domain of NHERF1 in the binding of airway epithelial RACK1 to NHERF1. 1507 2

Direct binding of nonmuscle F-actin and the C2-like domain of PKC-delta (deltaC2-like domain) is involved in hormone-mediated activation of epithelial Na-K-2Cl cotransporter isoform 1 (NKCC1) in a Calu-3 airway epithelial cell line. The goal of this study was to determine the site of actin binding on the 123-amino acid deltaC2-like domain. Truncations of the deltaC2-like domain were made by restriction digestion and confirmed by nucleotide sequencing. His6-tagged peptides were expressed in bacteria, purified, and analyzed with a Coomassie blue stain for predicted size and either a 6xHis protein tag stain or an INDIA His6 probe for expression of the His6 tag. Truncated peptides were tested for competitive inhibition of binding of activated, recombinant PKC-delta with nonmuscle F-actin. Peptides from the NH2-terminal region, but not the COOH-terminal region, of the deltaC2-like domain blocked binding of activated PKC-delta to F-actin. The deltaC2-like domain and three NH2-terminal truncated peptides of 17, 83, or 108 amino acids blocked binding, with IC50 values ranging from 1.2 to 2.2 nmol (6-11 microM). NH2-terminal deltaC2-like peptides also prevented methoxamine-stimulated NKCC1 activation and pulled down endogenous actin from Calu-3 cells. The proximal NH2 terminus of the deltaC2-like domain encodes a beta1-sheet region. The amino acid sequence of the actin-binding domain is distinct from actin-binding domains in other PKC isotypes and actin-binding proteins. Our results indicate that F-actin likely binds to the beta1-sheet region of the deltaC2-like domain in airway epithelial cells.
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PMID:Involvement of NH2 terminus of PKC-delta in binding to F-actin during activation of Calu-3 airway epithelial NKCC1. 1559 Aug 96

Activity of Na+-K+-2Cl- co-transport (NKCC1) in epithelia is thought to be highly regulated through phosphorylation and dephosphorylation of the transporter. Previous functional studies from this laboratory suggested a role for protein phosphatase 2A (PP2A) as a serine/threonine protein phosphatase involved in the regulation of mammalian tracheal epithelial NKCC1. We expand on these studies to characterize serine/threonine protein phosphatase(s) necessary for regulation of NKCC1 function and the interaction of the phosphatase(s) with proteins associated with NKCC1. NKCC1 activity was measured as bumetanide-sensitive 86Rb uptake or basolateral to apical 86Rb flux in primary cultures of human tracheal epithelial cells or in Calu-3 airway epithelial cells grown on Transwell filter inserts. Preincubation with 0.1 nm okadaic acid, a PP2A >> phosphatase 1 (PP1) inhibitor, increased NKCC1 activity 3.5-fold in human tracheal epithelial cells and 4.1-fold in Calu-3 cells. Calyculin, a PP1 >> PP2A inhibitor, did not alter NKCC1 activity or percent bumetanide-sensitive flux. The effect of OA was dose-dependent with an IC50 of 0.4 nm. The alpha1-adrenergic agonist methoxamine increased NKCC1 activity and transiently increased PP2A activity 3.8-fold but did not alter PP1 activity. OA augmented methoxamine-dependent stimulation of NKCC1 activity. PP1, PP2A, and PP2C but not PP2B were detected in lysates from Calu-3 cells by immunoblot analysis. PP1 was not detected in immunoprecipitates of NKCC1 and vice versa. PP2A co-immunoprecipitated with NKCC1 and protein kinase C-delta (PKC-delta) and was pulled down by a recombinant N terminus of NKCC1 consisting of amino acids 1-286. One novel finding is co-precipitation of STE20-related proline-alanine-rich kinase, a regulatory kinase for NKCC1, with PP2A and PKC-delta. The results suggest a model of actin serving as a scaffold for binding and association of PKC-delta, PP2A, and STE20-related proline-alanine-rich kinase. The role of the complex of serine/threonine protein kinases and a protein phosphatase is probably the maintenance of optimal phosphorylation of NKCC1 coincident with its physiological function in epithelial absorption and secretion.
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PMID:Role for protein phosphatase 2A in the regulation of Calu-3 epithelial Na+-K+-2Cl-, type 1 co-transport function. 1589 83

Integrins are adhesion receptors that transmit signals bidirectionally across the plasma membrane. In our previous report we have shown that the squamous lung cancer cell line, Calu-1, binds to collagen type IV (Coll IV) through beta1-integrin and results in phosphorylation of focal adhesion kinase (FAK) (Ann Thorac Surg 2004; 78:450-457). Considering the critical role of FAK in cell migration, proliferation, and survival, here we investigated potential mechanisms of its activation and regulation in Calu-1 cells. We observed the phosphorylation of Tyr397 of FAK (the autophosphorylation site of FAK) and paxillin, the immediate downstream substrate of FAK following the adhesion of Calu-1 cells to Coll IV. FAK remains phosphorylated during proliferation either on Coll IV or on uncoated plates for 72 h, as determined by peroxivanadate treatment. Exposure of Calu-1 cells with 60 microM genistein, reduces FAK phosphorylation (7.6 fold) and cell proliferation. Extracellular signal regulated kinases (ERKs) were also phosphorylated after Coll IV attachment. Disruption of Calu-1 cell cytoskeleton integrity by 1-5 muM Cytochalasin D resulted in the inhibition of cell adhesion (50% to 75%, p<0.19 - 6.6 x 10(7)) and ERKs phosphorylation (2 fold) without any effect on FAK phosphorylation. Protein Kinase C inhibitor, Calphostin C at 100 and 250 nM concentrations did not block Coll IV induced FAK phosphorylation but activated the ERKs in a dose dependent manner. beta1-integrin is essential for Coll IV induced FAK activation, but it is not physically associated with FAK as determined by immunodetection assay. Collectively, this report defines the existence of multiple and potentially parallel Coll IV/beta1-integrin mediated signaling events in Calu-1 cells, which involve FAK, ERKs, and PKC.
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PMID:Activation of focal adhesion kinase in human lung cancer cells involves multiple and potentially parallel signaling events. 1596 58

We examined the mechanisms underlying anion secretion mediated by protease-activated receptor 2 (PAR2) and its role in the regulation of ion transport, using polarized human airway Calu-3 cells. PAR2 stimulation by trypsin and a PAR2-activating peptide (PAR2AP), especially from the basolateral aspect, caused transient Cl(-) secretion due to cytosolic Ca(2+) mobilization. Antagonists of PI-PLC (U73122, ET-18-OCH(3)) and inositol 1,4,5-triphosphate (xestospongin C (Xest C)) were without effect on the PAR2AP-mediated Cl(-) secretion, whereas it was attenuated by D609 (a PC-PLC inhibitor) and phorbol 12-myristate 13 acetate (PMA, a PKC activator). Even 30 min after removal of PAR2AP after a 10-min-exposure, cells were still poorly responsive to PAR2 stimulation, but the reduced responsiveness was upregulated by a PKC inhibitor, GF109203X (GFX). Pretreatment with PAR2AP did not affect responses to anion secretagogues, such as isoproterenol, forskolin, thapsigargin, 1-ethyl-2-benzimdazolinone, and adenosine, but ATP-induced responses were significantly reduced. Nystatin permeabilization studies revealed that the presence of PAR2AP prevented ATP-induced increments in basolateral membrane K(+) conductance without affecting apical membrane Cl(-) conductance. ATP-elicited Ca(2+) mobilization, which was sensitive to D609 and PMA, was inhibited by the pretreatment with PAR2AP, and this inhibition was blunted by the presence of GFX. Collectively, stimulation of PAR2 generates a brief response of Cl(-) secretion through PC-PLC-mediated pathway, followed by not only auto-desensitization of PAR2 itself but also cross-desensitization of a PC-PLC-coupled purinoceptor. The two types of desensitization seem likely to have PKC-mediated downregulation of PC-PLC in common.
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PMID:Ion transport regulated by protease-activated receptor 2 in human airway Calu-3 epithelia. 1602 39

Regulation of the CFTR Cl channel function involves a protein complex of activated protein kinase Cepsilon (PKCepsilon) bound to RACK1, a receptor for activated C kinase, and RACK1 bound to the human Na(+)/H(+) exchanger regulatory factor (NHERF1) in human airway epithelial cells. Binding of NHERF1 to RACK1 is mediated via a NHERF1-PDZ1 domain. The goal of this study was to identify the binding motif for human NHERF1 on RACK1. We examined the site of binding of NHERF1 on RACK1 using peptides encoding the seven WD40 repeat units of human RACK1. One WD repeat peptide, WD5, directly binds NHERF1 and the PDZ1 domain with similar EC(50) values, blocks binding of recombinant RACK1 and NHERF1, and pulls down endogenous RACK1 from Calu-3 cell lysate in a dose-dependent manner. The remaining WD repeat peptides did not block RACK1-NHERF1 binding. An 11-amino acid peptide encoding a site on the PDZ1 domain blocks binding of the WD5 repeat peptide with the PDZ1 domain. An N-terminal 12-amino acid segment of the WD5 repeat peptide, which comprises the first of four antiparallel beta-strands, dose-dependently binds to the PDZ1 domain of NHERF1 and blocks binding of the PDZ1 domain to RACK1. These results suggest that the binding site might form a beta-turn with topology sufficient for binding of NHERF1. Our results also demonstrate binding of NHERF to RACK1 at the WD5 repeat, which is distinct from the PKCepsilon binding site on the WD6 repeat of RACK1.
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PMID:The N-terminus of the WD5 repeat of human RACK1 binds to airway epithelial NHERF1. 1692 2

Previous studies from this laboratory demonstrated a role for protein kinase C (PKC)epsilon in the regulation of cAMP-dependent cystic fibrosis transmembrane regulator (CFTR) Cl channel function via binding of PKCepsilon to RACK1, a receptor for activated C kinase, and of RACK1 to human Na(+)/H(+) exchanger regulatory factor (NHERF1). In the present study, we investigated the role of RACK1 in regulating CFTR function in a Calu-3 airway epithelial cell line. Confocal microscopy and biotinylation of apical surface proteins demonstrate apical localization of RACK1 independent of actin. Mass spectrometric analysis of NHERF1 revealed copurification of tubulin, which, in in vitro binding assays, selectively binds to NHERF1, but not RACK1, via a PDZ1 domain. In binding and pulldown assays, we show direct binding of a PDZ2 domain to NHERF1, pulldown of endogenous NHERF1 by a PDZ2 domain, and inhibition of NHERF1-tubulin binding by a PDZ1 domain. Downregulation of RACK1 using double-stranded silencing RNA reduced the amount of RACK1 by 77.5% and apical expression of biotinylated CFTR by 87.4%. Expression of CFTR, NHERF1, and actin were not altered by treatment with siRACK1 or by nontargeting control silencing RNA, which, in addition, did not affect RACK1 expression. On the basis of these results, we model a RACK1 proteome consisting of PKCepsilon-RACK1-NHERF1-NHERF1-tubulin with a role in stable expression of CFTR in the apical plasma membrane of epithelial cells.
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PMID:Role of the scaffold protein RACK1 in apical expression of CFTR. 1740 24

In the airway epithelia, extracellular adenosine modulates a number of biological processes. However, little is known about adenosine's role in the inflammatory responses of airway epithelial cells. Recent studies suggest that the chronic elevation of extracellular adenosine in mice leads to pulmonary inflammation and fibrosis. Yet, the underlying molecular mechanism has not been well understood and little attention has been paid to the role of airway epithelia in adenosine-triggered inflammation. In the present work, we examined the role of adenosine in releasing IL-6 from airway epithelia. In Calu-3 human airway epithelial cells, apical but not basolateral adenosine elicited robust, apically polarized release of IL-6, along with proinflammatory IL-8. Both protein kinase A and protein kinase C mediated the adenosine-induced IL-6 release, at least partly via phosphorylation of CREB. Protein kinase C appeared to phosphorylate CREB through activating ERK. In addition, A2A but not A2B adenosine receptors were specifically required for the adenosine-induced IL-6 release. Furthermore, in rat bronchoalveolar lavage fluid, adenosine triggered the release of IL-6 as well as proinflammatory IL-1beta. Adenosine also mediated the release of a considerable portion of the LPS-induced IL-6 in rat bronchoalveolar lavage fluid. Our findings provide a possible molecular link between extracellular adenosine elevation and lung inflammation and fibrosis.
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PMID:Adenosine promotes IL-6 release in airway epithelia. 1832 29

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