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)

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

Neutrophils from cystic fibrosis (CF) patients have been shown previously to be defective in their response (beta-glucuronidase exocytosis, NADPH oxidase activation) to the chemotactic peptide FMLP. In this work, we attempted to identify the defective step in this response. We showed that stimulated CF and control neutrophils do not differ in the formation of inositol phosphates. On the other hand, direct stimulation of protein kinase C with phorbol myristate acetate (PMA) revealed a subnormal stimulation of beta-glucuronidase exocytosis in CF neutrophils. Furthermore, retroinhibition exerted by PMA-activated protein kinase C on stimulated inositol phosphates or on beta-glucuronidase exocytosis was marginal or absent in CF neutrophils, whereas it was significant in the case of control neutrophils. Our observations suggest that the CFTR gene is expressed in neutrophils and is involved in protein kinase C-mediated actions.
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PMID:Defective protein kinase C-mediated actions in cystic fibrosis neutrophils. 189 35

In comparison to skin fibroblasts from normal subjects, those from patients with cystic fibrosis (CF): (1) bound [20-3H] phorbol 12,13-dibutyrate (PDBu) with a higher affinity Kd = 25.8 vs 12.8 nM respectively) but expressed a similar number of total phorbol ester binding sites (about 2.5 pmol PDBu bound/mg of protein); (2) exhibited a faster and higher response to 4 beta-phorbol 12 beta-myristate 13 alpha-acetate (PMA) for the stimulation of [35S]-labelled glycoconjugate release, but were equally sensitive to the synergistic effect of A23187 on this process; and (3) secreted glycoconjugates with similar [35S]-sulfate and [14C]-leucine to [14C]-glucosamine labelling ratios. Taken together, these results provide further evidence for abnormal protein kinase C (PKC) regulation of macromolecule secretion in CF disease.
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PMID:Further evidence for abnormal protein kinase C regulation of macromolecule secretion in fibroblasts from cystic fibrosis patients. 196 13

Secretory chloride channels can be activated by adenosine 3',5'-monophosphate (cAMP)-dependent protein kinase in normal airway epithelial cells but not in cells from individuals with cystic fibrosis (CF). In excised, inside-out patches of apical membrane of normal human airway cells and airway cells from three patients with CF, the chloride channels exhibited a characteristic outwardly rectifying current-voltage relation and depolarization-induced activation. Channels from normal tissues were activated by both cAMP-dependent protein kinase and protein kinase C. However, chloride channels from CF patients could not be activated by either kinase. Thus, gating of normal epithelial chloride channels is regulated by both cAMP-dependent protein kinase and protein kinase C, and regulation by both kinases is defective in CF.
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PMID:Cl- channels in CF: lack of activation by protein kinase C and cAMP-dependent protein kinase. 215 86

Apical membrane chloride channels control chloride secretion by airway epithelial cells. Defective regulation of these channels is a prominent characteristic of cystic fibrosis. In normal intact cells, activation of protein kinase C (PKC) by phorbol ester either stimulated or inhibited chloride secretion, depending on the physiological status of the cell. In cell-free membrane patches, PKC also had a dual effect: at a high calcium concentration, PKC inactivated chloride channels; at a low calcium concentration, PKC activated chloride channels. In cystic fibrosis cells, PKC-dependent channel inactivation was normal, but activation was defective. Thus it appears that PKC phosphorylates and regulates two different sites on the channel or on an associated membrane protein, one of which is defective in cystic fibrosis.
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PMID:Regulation of chloride channels by protein kinase C in normal and cystic fibrosis airway epithelia. 215 86

In cystic fibrosis (CF) phosphorylation-dependent activation of outwardly rectifying apical membrane Cl- channels is defective. To further understand regulation of this channel we examined several other mechanisms of channel activation in normal and CF cells. Previous studies have shown that strong membrane depolarization can activate channels in excised cell-free membrane patches. Here we show that such activation is dependent on both the absolute membrane voltage and the duration of depolarization. Moreover, activation was reversible by membrane hyperpolarization. In some cases, excising patches of membrane from the cell caused channel activation, even in the absence of depolarization. However, the frequency of channel activation with patch excision increased when bath temperature was increased from 23 to 37 degrees C. Although the channel remained in the activated state when temperature was reduced to 23 degrees C, subsequent hyperpolarization inactivated the channel. In cell-attached patches, neither depolarization nor increasing bath temperature to 37 degrees C activated channels, suggesting that neither is physiologically important in regulation of the channel. Thus changes in membrane voltage and bath temperature appear to cause a nonenzymatic change in the channel's conformation; the interactions between voltage and temperature suggest that they may affect the same process. To determine if a proteolytic alteration of the channel could also cause activation, we added trypsin to the cytosolic surface of excised membrane patches. Trypsin activated channels, which could not then be inactivated by either hyperpolarization or phosphorylation with PKC, suggesting that trypsin removed or altered a region of the channel involved in inactivation. All of these interventions activated Cl- channels from both normal and CF cells. Thus many aspects of Cl- channel activation are normal in CF; only phosphorylation-dependent activation is defective.
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PMID:Activation of normal and cystic fibrosis Cl- channels by voltage, temperature, and trypsin. 255 52

To investigate myeloid cell maturation, we established a panel of monoclonal antibodies that recognize myeloid cell nuclear antigens. One of these monoclonal antibodies was used to purify a specific protein complex (PC) from a human spleen. This PC, which is present at high levels in peripheral blood monocytes and granulocytes, contains a protein that is the cystic fibrosis (CF) antigen. The purified PC was shown to inhibit the activity of casein kinase I and II but not cAMP-dependent protein kinase, protein kinase C, v-abl tyrosine kinase, or insulin receptor tyrosine kinase. The observed Ki values for casein kinases I and II purified from several sources were 1 microM or less. Furthermore, the addition of the purified PC to a nuclear extract from human cells was able to prevent protein kinase-mediated stimulation of RNA polymerase activity. The unique inhibitory character of the PC and its elevated levels in monocytes and granulocytes and of the CF antigen in CF patients implies that this complex may be associated with myeloid cell functions and perhaps with the cause or consequence of the clinical manifestations of CF.
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PMID:A protein containing the cystic fibrosis antigen is an inhibitor of protein kinases. 265 77

The opening and closing of chloride (Cl-) channels in the apical membrane of epithelial cells is regulated by hormones, neurotransmitters and enterotoxins (intestine) acting through a variety of intracellular messengers, including cyclic nucleotides (cAMP, cGMP), calcium (Ca) and diacylglycerol (DAG). The chloride impermeability of epithelial membranes observed in cystic fibrosis (CF) patients does not result from a defect in the Cl- conducting properties of the channel or in channel recruitment but stems either from a defect in a key regulator of the channel, presumably a phosphoprotein, or from the hyperactivation of a channel closing mechanism, presumably a protein phosphatase or a down-regulating protein kinase (i.e. protein kinase C). In vitro phosphorylation of isolated intestinal brush border membranes has revealed the existence of a 25,000 molecular weight proteolipid (p25) acting as cosubstrate for both cGMP- and cAMP-dependent protein kinases and cross-reacting with antibodies directed against the cytoplasmic tail of the band 3 anion exchanger from erythrocytes. The putative role of p25 in Cl- channel regulation and its relationship to an unidentified GTP-binding protein recently implicated in Cl- channel activation is discussed on the basis of a regulatory model indicating potential sites of the CF defect at a molecular level.
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PMID:The molecular basis of chloride channel dysregulation in cystic fibrosis. 270 19

The ability of the tumor-promoting phorbol ester 4 beta-phorbol 12 beta-myristate 13 alpha-acetate (PMA) to induce protein kinase C (PKC) translocation and lysosomal enzyme release was examined in skin fibroblasts from normal subjects and from patients with cystic fibrosis (CF). As compared to normal fibroblasts, those CF exhibited: (i) an increased sensitivity to the effect of PMA on the disappearance of PKC from cytosolic fractions as well as a greater and earlier recovery, in the membrane fraction, of the PKC activity lost in the cytosolic fraction; (ii) an earlier response to PMA for its effect on beta-N-acetylglucosaminidase release. In contrast, the inactive phorbol ester 4 alpha-phorbol 12,13-didecanoate (4 alpha PDD) proved ineffective in inducing PKC translocation and beta-N-acetylglucosaminidase release in both normal and CF fibroblasts. The data suggest a defect in the regulation of PKC activity in CF fibroblasts, which may lead to altered secretion.
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PMID:Phorbol ester-induced protein kinase C translocation and lysosomal enzyme release in normal and cystic fibrosis fibroblasts. 334 34

Individuals with cystic fibrosis have a defect in the CFTR protein, a chloride channel regulated by cAMP-dependent protein kinase (PKA). The majority of the phosphorylation sites of PKA are located in the R domain of CFTR. It has been postulated that this domain may act as a gate for the chloride channel. Of the many possible mechanisms whereby the R domain could gate the channel, including interdomain interactions, charge distribution, or conformational change, we investigated the possibility that phosphorylation leads to conformational changes in the R domain. To test this hypothesis, a protocol for purification of human R domain peptide synthesized in a bacterial expression system was developed. Purified R domain was phosphorylated by PKA, and CD spectra were obtained. As a result of phosphorylation by PKA, a significant spectral change, indicative of a reduction in the alpha-helical content, was found. CD spectra of the R domain of a shark homologue of CFTR indicated similar changes in conformation as a result of phosphorylation by PKA. In contrast, phosphorylation of the human R domain by PKC, which has only a small influence on CFTR channel activity, failed to elicit CD spectral changes, indicating no conformational change comparable to those induced by PKA phosphorylation. These observations provide the first structural characterization of the R domain and suggest that the gating of the CFTR chloride channel by PKA may involve a conformational change in the R domain.
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PMID:Phosphorylation by cAMP-dependent protein kinase causes a conformational change in the R domain of the cystic fibrosis transmembrane conductance regulator. 751 14


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