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)

An anti-peptide antibody raised to the C-terminal sequence of the cystic fibrosis transmembrane conductance regulator (CFTR) was used to examine CFTR immunoreactivity in the T84 colonocyte cell line. Immunoblots of T84 cell lysates detected CFTR as a 170-kDa protein that appeared as a broad band or doublet in SDS/PAGE. This protein comigrated with the predominant immunoblot signal detected in human pancreas and colon. An equivalent protein was detected as a prominent substrate for protein kinase A and for protein kinase C in T84 cell immunoprecipitates with this antibody. The immunoprecipitated protein resembled the protein detected by immunoblot in that both proteins showed the same change in electrophoretic mobility after digestion by N-Glycanase. The precipitated protein was indentified as CFTR by two criteria. First, the same protein was immunoprecipitated with an antibody to a different CFTR peptide, [Lys102]CFTR-(102-116). Second, two-dimensional phosphopeptide mapping was used to compare the immunoprecipitated protein with a bacterially expressed protein known to contain most of the predicted protein kinase A phosphorylation sites in CFTR. Because the six most prominent peptides in each map were equivalent, these maps confirm that the precipitated protein is CFTR. By using these antibodies for immunofluorescence and immunoperoxidase staining, CFTR was localized to the apical region of T84 cells grown in tumors and in monolayers. Thus, T84 cells express CFTR at sufficient levels to permit identification and immunochemical studies of this protein in its endogenously occurring form.
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PMID:Characterization of the cystic fibrosis transmembrane conductance regulator in a colonocyte cell line. 137 42

Regulation of epithelial chloride flux, which is defective in patients with cystic fibrosis, may be mediated by phosphorylation of the cystic fibrosis transmembrane conductance regulator (CFTR) by cyclic AMP-dependent protein kinase (PKA) or protein kinase C (PKC). Part of the R-domain of CFTR (termed CF-2) was expressed in and purified from Escherichia coli. CF-2 was phosphorylated on seryl residues by PKA, PKC, cyclic GMP-dependent protein kinase (PKG), and calcium/calmodulin-dependent protein kinase I (CaM kinase I). Direct amino acid sequencing and peptide mapping of CF-2 revealed that serines 660, 700, 737, and 813 as well as serine 768, serine 795, or both were phosphorylated by PKA and PKG, and serines 686 and 790 were phosphorylated by PKC. CFTR was phosphorylated in vitro by PKA, PKC, or PKG on the same sites that were phosphorylated in CF-2. Kinetic analysis of phosphorylation of CF-2 and of synthetic peptides confirmed that these sites were excellent substrates for PKA, PKC, or PKG. CFTR was immunoprecipitated from T84 cells labeled with 32Pi. Its phosphorylation was stimulated in response to agents that activated either PKA or PKC. Peptide mapping confirmed that CFTR was phosphorylated at several sites identified in vitro. Thus, regulation of CFTR is likely to occur through direct phosphorylation of the R-domain by protein kinases stimulated by different second messenger pathways.
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PMID:Phosphorylation of the cystic fibrosis transmembrane conductance regulator. 137 74

Epithelial cells utilize at least two types of apical Cl- channels, the cAMP-activated cystic fibrosis transmembrane conductance regulator (CFTR) and the Ca2+/calmodulin-dependent Cl- channel. While phorbal ester (PMA) activates only CFTR-dependent Cl- secretion and the Ca2+ ionophore A23187 only the Ca2+/calmodulin-dependent Cl- secretion, PMA and A23187 share the ability to down-regulate expression of the CFTR gene at the transcriptional level. Since both PMA and A23187 can activate protein kinases, we hypothesized that protein kinase pathways may be involved in the regulation of CFTR gene expression. Exposure of HT-29 human colon carcinoma cells to the protein kinase C activator SC9 down-regulated CFTR mRNA levels in a dose-dependent fashion, similar to that seen with PMA. The reduction in CFTR transcript levels by SC9 and PMA was blocked by H7, an inhibitor of protein kinases. In a similar fashion, the down-regulation of CFTR transcript levels by A23187 was blocked by H7 as well as staurosporine, another protein kinase inhibitor. Interestingly, both H7 and staurosporine themselves increased CFTR mRNA levels. Quantification of CFTR gene transcription rate showed a reduction by SC9 (similar to that with PMA and A23187) that was prevented by H7 and that H7 by itself increased CFTR transcription. Together, these observations suggest that protein kinase pathways, likely including protein kinase C, are involved in the regulation of CFTR gene expression, with activation or inhibition of protein kinase activity down-regulating or up-regulating CFTR gene expression, respectively.
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PMID:Expression of the cystic fibrosis transmembrane conductance regulator gene can be regulated by protein kinase C. 137 89

To help elucidate the function of the cystic fibrosis transmembrane conductance regulator (CFTR), we have undertaken a cross-species analysis of the DNA sequence which encodes this protein. We have isolated and characterized the cDNA of the bovine homologue of CFTR. The deduced amino acid sequence shows high overall identity with the published sequences from human and mouse, although there is marked variability between the different potential functional domains. The region around human amino acid 508, which is deleted in 70% of cystic fibrosis chromosomes, is highly conserved across species; of the missense cystic fibrosis mutations reported to date, all of the amino acids in the normal human sequence are conserved in the bovine and mouse sequences. A single amino acid encoded by the human cDNA (Ser-434) is missing in the bovine sequence, and there are two amino acids encoded by the bovine sequence which are absent in the human. These all stem from in-frame 3-base omissions within the sequences. In addition to the cow, we amplified the DNA sequences encoding a portion of the R-domain from sheep, monkey, rabbit, and guinea pig. These sequences show relatively low overall sequence identity (63%), but nearly all of the potential protein kinase A and protein kinase C phosphorylation sites are conserved over all of the species examined. Our results suggest functional significance for certain highly conserved residues and putative domains within CFTR.
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PMID:A cross-species analysis of the cystic fibrosis transmembrane conductance regulator. Potential functional domains and regulatory sites. 171 1

We have previously shown that fibroblasts from patients with cystic fibrosis (CF) display a higher response to 4 beta-phorbol 12-myristate 13-acetate (PMA) than control fibroblasts for stimulation of both protein kinase C (PKC) cytosol-to-membrane translocation and glycoconjugate secretion. In this study we took advantage of these cells with differential responsiveness to PMA to investigate the endogenous substrate(s) involved in PKC stimulation of glycoconjugate secretion after verification of cystic fibrosis transmembrane conductance regulator gene expression in control and CF fibroblasts. We show that a 57-kDa protein that was associated with cytoskeleton and was identified as vimentin by immunoblotting emerged as a good candidate for mediating PKC stimulation of glycoconjugate secretion. 1) Its phosphorylation by PMA was abolished by PKC inhibition or depletion. 2) In both control and CF fibroblasts, the PMA-induced increase in its phosphorylation preceded the phorbol ester stimulation of glycoconjugate secretion. 3) For both processes, the concentration-response curves were superimposable, with higher maximal levels for CF fibroblasts relative to controls. 4) PMA-stimulated 57-kDa protein phosphorylation, like PMA-stimulated glycoconjugate secretion, was significantly increased by Ca2+. 5) Increased PMA phosphorylation of the 57-kDa protein as a result of okadaic acid inhibition of intracellular phosphatases was reflected in increased PMA stimulation of glycoconjugate secretion. In conclusion, 1) PMA phosphorylation of a cytoskeletal 57-kDa protein, identified as vimentin, appears to be an intermediate step in PKC stimulation of constitutive glycoconjugate secretion in human skin fibroblasts; and 2) this process is impaired in CF disease.
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PMID:Phosphorylation of vimentin is an intermediate step in protein kinase C-mediated glycoconjugate secretion. 751 22

Recent evidence suggests that protein kinase A (PKA)-activated Cl- channels in heart are encoded by an isoform of the epithelial cystic fibrosis transmembrane conductance regulator gene (CFTR). Macroscopic current measurements indicate that a similar time-independent Cl- conductance can be activated through a protein kinase C (PKC)-dependent pathway in guinea pig and feline ventricle. However, it is presently not clear whether PKC is activating the same population of channels as PKA or a separate class of Cl- channels. even though the regulatory (R) domain of CFTR is known to contain consensus phosphorylation sites for both PKA and PKC. In the present study we directly compare the properties of single Cl- channels activated by PKC and PKA in cell-attached patches of guinea pig ventricular myocytes. Pipette and bath solutions contained N-methyl-D-glucamine and Cs+ or tetraethylammonium as substitutes for Na+ and K+, respectively, and Cl- concentration in the patch pipette was either 150 mmol/L or 40 mmol/L. Bath application of phorbol 12,13-dibutyrate or phorbol 12-myristate 13-acetate (PDBu or PMA; 50 nmol/L), activators of PKC, resulted in the appearance of unitary Cl- channels with a mean conductance of 9.31 +/- 0.94 pS (n = 8) and 8.8 pS (n = 2), respectively, and reversal potentials were close to predicted ECl. Addition of staurosporine (500 nmol/L) reduced open probability (Po) of channels activated by PDBu. Bath application of the phosphodiesterase inhibitor 3-isobutyl-1-methyl-xanthine (IBMX, 500 mumol/L) resulted in the activation of Cl- channels with a conductance (mean 8.76 +/- 0.67 pS, n = 3) similar to those activated by PDBu.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Unitary chloride channels activated by protein kinase C in guinea pig ventricular myocytes. 753 Jun 7

Swelling activates and protein kinase C (PKC) downregulates Cl- channels in cultured nonpigmented ciliary epithelial (NPE) cells. We now report that the PKC inhibitor staurosporine upregulates whole cell Cl- currents isosmotically. The kinetics and current-voltage relationship are similar to those of volume-activated Cl- channels of these cells. These properties are inconsistent with cloned ClC-0, ClC-1, ClC-2, and MDR1 channels but could reflect the cystic fibrosis transmembrane conductance regulator (CFTR) channel or the Cl- channel regulator pICln. CFTR mRNA was undetectable by Northern analysis of cultured NPE cells or ciliary body tissue. In contrast, a human pICln probe obtained by polymerase chain reaction cloning and showing 90% identity with the rat cDNA clone detected high levels of transcripts in NPE cells. The level was low in tissue, where the NPE message was diluted by RNA from other cells. We conclude that NPE cells display staurosporine-activated Cl- channels [gSt(Cl)] likely identical with the volume-activated channels. The same cells expressing gSt(Cl) transcribe mRNA for a novel homologue (pHCBICln) of pICln that may regulate Cl- transport into the aqueous humor.
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PMID:PKC-sensitive Cl- channels associated with ciliary epithelial homologue of pICln. 753 80

Activation of protein kinase C (PKC) inhibits adenosine 3',5'-cyclic monophosphate (cAMP)-stimulated fluid secretion in rat pancreatic ducts (N. Ashton, R. L. Evans, and B. E. Argent. J. Physiol. Lond. 452: 99P, 1992). Using the patch-clamp technique, we have investigated whether this inhibition of fluid secretion results from an effect of PKC on cystic fibrosis transmembrane conductance regulator (CFTR) Cl channels. Exposure to 100 nM 4 beta-phorbol 12,13-dibutyrate (PDBu) had no effect on CFTR current density in unstimulated duct cells, but caused a 31% increase in the magnitude of CFTR currents recorded from cells stimulated with cAMP. Furthermore, prolonged (2-4 h) exposure of stimulated duct cells to 100 nM PDBu (a condition that should downregulate PKC) significantly slowed the rate at which CFTR currents run down after establishing a whole cell recording. A similar effect was observed with calphostin C (500 nM), a specific inhibitor of PKC. Thus, although inhibition of ductal fluid secretion by PDBu is unlikely to be explained by an effect on CFTR, modulation of PKC activity can affect both the magnitude and stability of CFTR currents in pancreatic duct cells.
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PMID:Protein kinase C regulates the magnitude and stability of CFTR currents in pancreatic duct cells. 753 51

Recent electrophysiologic studies have provided evidence suggesting that as many as six different Cl- conductances can be identified in the sarcolemma of cardiac myocytes isolated from various animal species and areas of the heart. These include Cl- conductances activated by stimulation of protein kinase A, protein kinase C, extracellular ATP, intracellular Ca2+, membrane stretch, and a basally active Cl- conductance. Many basic biophysical and pharmacological properties of these channels are presently unknown, and the only molecular information presently available suggests that the cAMP-activated Cl- conductance is due to cardiac expression of an isoform of the cystic fibrosis transmembrane conductance regulator (CFTR) Cl- channel normally found in epithelial cells. We used the polymerase chain reaction (PCR) to amplify four distinct regions corresponding to the cardiac CFTR gene product from several cardiac tissues to determine if the molecular distribution of CFTR matches the distribution of cAMP-dependent Cl- channels in native myocytes. Amplification of regions corresponding to the first nucleotide binding domain (NBD1), transmembrane segments (TS) VII-XII, and the regulatory (R) domain showed a precise correlation to tissues that electrophysiologically exhibit sarcolemmal cAMP-dependent Cl- channels, whereas region TS I-VI exhibited a distribution independent of the presence of cAMP-dependent Cl- channels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A plethora of cardiac chloride conductances: molecular diversity or a related gene family. 754 94

The cystic fibrosis transmembrane conductance regulator (CFTR) plays a central role in transepithelial ion transport by acting as a tightly regulated apical chloride channel. Regulation is achieved by the concerted action of ATP at conserved nucleotide binding folds and serine phosphorylation at multiple sites by protein kinases A (PKA) and C (PKC). A previous investigation concluded that activation by PKA is critically dependent on phosphorylation at four of the nine predicted PKA sites in the R domain (S660A, S737A, S795A, S813A), because a "Quad" mutant lacking these sites could not be activated. We show in the present work that not only can this mutant be phosphorylated and activated, but a mutant in which all 10 predicted PKA sites have been altered still retains significant PKA-activated function. Potentiation of the PKA response by PKC is also preserved in this mutant. Thus CFTR may be regulated by cryptic PKA sites which also mediate interactions between different kinases. Such hierarchical phosphorylation of CFTR by obvious and cryptic PKA sites could provide a metered response to secretagogues.
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PMID:Protein kinase A (PKA) still activates CFTR chloride channel after mutagenesis of all 10 PKA consensus phosphorylation sites. 768 77


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