Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Our laboratory has developed a protocol for the isolation of a 140-kDa protein that forms an anion-selective channel when reconstituted into planar lipid bilayers. Polyclonal antibodies have been raised against the 38-kDa component of this purified protein. This channel has a linear current-voltage relationship and is not activated by protein kinase A (PKA) plus ATP. Using the same antibody and a modified purification protocol (eliminating the ion exchange chromatography steps), we isolated and reconstituted two other anion channels from tracheal membrane vesicles. In vitro phosphorylation of these isolated proteins by PKA and ATP revealed four bands migrating at 52, 85, 120, and 174 kDa. Immunoprecipitation experiments with anti-CFTR antibodies indicate that the 174-kDa phosphoprotein was CFTR. Upon incorporation of these isolated proteins into planar bilayers, an anion channel that exhibited a marked outward rectification in symmetrical Cl- solutions with a slope conductance of 82 pS at depolarizing voltages was observed. PKA and ATP increased channel activity but only from one side of the bilayer. However, channel activity was unaffected by addition of ATP alone from either side of the membrane. DIDS (100 microM) applied to the opposite side of the bilayer to which PKA and ATP act, blocked channel activity. A linear anion-selective channel with a conductance of 16 pS could be also resolved after inhibition of the outwardly rectified anion channel by DIDS in the presence of PKA and ATP. This small conductance channel was inhibited by 300 microM diphenylamine-2-carboxylic acid. Immunodepletion of the 174-kDa phosphoprotein from the preparation prevented activation of the 82-pS outwardly rectified anion channel by PKA and ATP. However, the PKA-dependent in vitro phosphorylation of the 52-, 85-, and 120-kDa phosphoproteins was unaffected by the absence of CFTR. Our results suggest a direct regulatory relationship between an outwardly rectified anion channel and CFTR.
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PMID:Cystic fibrosis transmembrane conductance regulator is required for protein kinase A activation of an outwardly rectified anion channel purified from bovine tracheal epithelia. 753 Feb 44

The cystic fibrosis gene product, CFTR, is a Cl- channel that possesses specific binding sites for cytosolic ATP and is activated by cAMP-dependent protein kinase. Most recently, it was reported that CFTR localizes at the surface apical compartment of normal airway epithelial cells, but accumulates in the cytosol of airway cells from CF patients with the delta F508 mutation. In order to explore whether the same difference exists in normal and CF established cell lines that are commonly used in physiological and pharmacological investigations of the CF defect, we employed monoclonal antibodies raised against synthetic peptides corresponding to two different regions of the CFTR protein. One antibody (MATG 1061) was generated against amino acids 503-515 delta 508 in the nucleotide binding domain 1, whereas the other (MATG 1031) was generated against amino acids 107-117 situated in a putative external loop. We used confocal laser scanning microscopy to localize the CFTR protein in T84 (a colonic derived carcinoma), CAPAN-1 (a pancreatic carcinoma), and in CFPAC-1 (a pancreatic carcinoma homozygous for the delta F508 deletion) cell lines. In permeabilized T84 and CAPAN-1 cells, immunolabeling with MATG 1061 predominated at the apical domain. By contrast, CFTR staining with MATG 1061 was homogeneously distributed in the cytoplasm of CFPAC-1 cells. In non-permeabilized non-CF cell lines, MATG 1031 specifically labeled an apical membrane surface epitope. No such labeling was present in CFPAC-1 cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Abnormal subcellular localization of mutated CFTR protein in a cystic fibrosis epithelial cell line. 753 34

The properties of the cystic fibrosis gene product (CFTR) were studied by expression of cloned cDNA in different cell systems. Infection of both simian fibroblast (Vero) cells and immortalized CF nasal polyp cells (NCF3A) with a vaccinia virus encoding CFTR induced forskolin-induced Cl- permeability and low-conductance (8 pS) Cl- channels. By stable transfection of the rat intestinal crypt-derived cell line IEC-6 we have isolated a clone, IEC-CF7, which expresses CFTR mRNA and antigen. IEC-CF7 cells, but not IEC-6, display forskolin-induced Cl- permeability and multiple linear low-conductance (+/- 8 pS) Cl- channels in cell-attached membrane patches. In excised patches of IEC-CF7 cells, low-conductance Cl- channels could be activated by addition of the catalytic subunit of the adenosine 3',5'-cyclic monophosphate-dependent protein kinase A (PKA) plus ATP. During bath fluid replacement studies, the activated low-conductance channel remained active in the absence of ATP at room temperature and showed saturation kinetics. Rectifying (32 pS) Cl- channels were not observed in either IEC-6 cells or IEC-CF7 cells, indicating that there is no relation between CFTR expression and the incidence of this channel. Our data strongly support the conclusion that CFTR can act as a low-conductance Cl- channel, gated by PKA. The IEC-6-derived cell line IEC-CF7 may prove to be a useful model in the study of CFTR function because of the absence of 32-pS Cl- channel activity and its potential for differentiation.
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PMID:Low-conductance chloride channels in IEC-6 and CF nasal cells expressing CFTR. 768 32

Primary tracheal epithelial cells obtained from two fetuses with cystic fibrosis (CF) were successfully transfected with a plasmid vector recombined with the large T oncogene of SV40. The resulting tracheal cells were propagated in culture for up to 25 passages and retained the mutations of the CF genes carried by the two fetuses, one heterozygous for the S549N and N1303K substitutions (CFT-1 cells), and the other homozygous for the most common deletion delta F508 (CFT-2 cells). The transfected cells: (a) expressed the SV40 large T oncogene, as determined by immunofluorescence and Northern blot analysis; (b) retained typical epithelial morphology, as assessed by the presence of microvilli, desmosomes, gap junctions, and cytokeratin expression; (c) were fully responsive to the cAMP-stimulating agents isoproterenol, forskolin and vasoactive intestinal peptide for cAMP production and PKA activation; (d) do not produce any tumour in the athymic nude mice; (e) were diploid and tetraploid with a normal chromosomal complement at early passages, and (f) exhibited the abnormal regulation of chloride conductance characteristic of CF. These results indicate that CFT-1 and CFT-2 cells constitute a suitable model for: (a) comparison of the maturation and function of the CFTR protein mutated in the two nucleotide-binding domains; (2) analysis of the biochemical defect in CF epithelial airway cells, (c) development of new therapeutic agents, and correction of the CF defect by gene replacement therapy in vitro.
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PMID:Oncogene-mediated propagation of tracheal epithelial cells from two cystic fibrosis fetuses with different mutations. Characterization of CFT-1 and CFT-2 cells in culture. 768 54

Epithelial tracheal cells isolated from two fetuses with cystic fibrosis (CF) and non-CF fetus (control) were transfected with a plasmid vector recombined with the large T oncogene of SV40. All transfected cells expressed SV40 antigen and exhibited an epithelial morphology (junctional complex, cytokeratins). CFT cells retained the mutations of the CF gene, one heterozygous for the S549N/N1303K substitutions (CFT-1 cells), the other homozygous for the deletion delta F508 (CFT-2 cells). Accordingly, these CFT cells exhibited the defective beta-adrenergic regulation of chloride conductance. We compared the responsiveness of control (NT-1 cells) and CF cells (CFT-1 and CFT-2 cells) to agonists of the protein kinase A (PKA)-dependent pathway for stimulation of glycoconjugate secretion. We show that the isoproterenol (10(-5) M) and forskolin (10(-5) M) markedly increased the cAMP content and the PKA activity of all three cell lines. In contrast, these effectors produced an increase in glycoconjugate secretion in control cells, but not in CFT-1 and CFT-2 cells. In conclusion, our results indicate that CFT cells do not respond to agonists of the PKA-dependent pathway for stimulation of both glycoconjugate secretion and chloride transport, which suggests the involvement of CFTR in these two processes.
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PMID:[Cellular expression of CFTR in cystic fibrosis: defective cyclic AMP-dependent regulation of glycoconjugate secretion in cystic fibrosis fetal tracheal epithelial cells transfected by SV40 large T oncogene]. 768 16

The past decade of research in cystic fibrosis has produced a wealth of information about the underlying defect responsible for the disease. The initial finding that the physiological disturbance in CF is one of abnormal electrolyte transport across epithelial tissues led to the elucidation of a pathway in which epithelial chloride transport is normally elicited in response to beta-adrenergic stimuli and involves the second messenger cAMP to activate protein kinase A. While that pathway was being described, work on the genetic front was concurrently providing information about the genomic location of the gene causing CF, which ultimately led to the identification and cloning of the gene encoding the cystic fibrosis transmembrane conductance regulator. The cloned CFTR gene provided a powerful reagent to use in the next generation of cell physiology experiments, in which it was determined that CFTR is not only the substrate of PKA phosphorylation, a step previously determined to be in the activation pathway of the chloride channel, but is in fact a cAMP-dependent chloride conducting channel itself. Further analysis of the gene has shown that although there is a single mutation that accounts for most of CF, there are well over 200 other lesions within the gene that can cause disease as well. Identification of these mutations has provided information into the normal function of CFTR by studying these variants in heterologous expression systems. As a result, the molecular mechanism of CFTR function is beginning to unfold, as well as the mechanism by which particular mutations impair that function. From a clinical perspective, the research brings optimism from two directions. First, understanding how disease-causing mutations impair function may culminate in pharmacologic approaches that can restore function to some of these mutants. Second, treating the disease at the level of the gene appears to be a realistic goal: Gene transfer experiments in cultured CF cells have shown that the procedure will restore cAMP-dependent chloride conductance to the cells, laying the groundwork for somatic cell gene therapy as a feasible treatment for CF. Currently, work is rapidly progressing in developing delivery systems for this purpose. Finally, animal models that should not only aid in understanding the physiology of electrolyte transport in epithelia but should serve as indicators for tests of therapeutic approaches to treating CF are being developed, either by pharmacological means or by gene delivery protocols.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Molecular biology of cystic fibrosis. 769 8

Isoproterenol, forskolin, or cAMP activated a time-independent Cl- current (ICl.cAMP), which is known to be activated by A-kinase-mediated phosphorylation, in guinea pig ventricular myocytes. External glibenclamide inhibited ICl.cAMP in a concentration-dependent manner with IC50 of around 30 microM. Thus, it is concluded that glibenclamide inhibits cardiac cAMP-activated Cl- channels and that the Cl- channel is, in this respect, similar to epithelial CFTR Cl- channel. Northern analysis actually indicated that CFTR messenger RNA is expressed in the guinea pig ventricle.
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PMID:Additional similarity of cardiac cAMP-activated Cl- channels to CFTR Cl- channels. 775 27

Cystic fibrosis (CF) is a frequent autosomal recessive genetic disease. The isolation of the gene at the CF locus assigned to the long arm of chromosome 7 band q 31 and defining description of its protein named CFTR (cystic fibrosis transmembrane conductance regulator) promoted understanding the basic biochemical defect. Brief review of relevant literature demonstrates that glycoprotein CFTR is a chloride channel and is activated by a combination of phosphorylation by protein kinase A and binding of ATP. Most common mutation of CF gene, a deletion of the three nucleotides encoding phenylalanine (Delta F508) results in disturbance of chloride transport through membrane of epithelial cells involved in pathomechanism of CF. The way for gene therapy in CF is open, however therapeutic progress is noted on both pharmacologic arena and on the gene cure front. Recombinant vectors utilizing the adenovirus system with high efficiency of CFTR gene transfer to airway epithelium demonstrated in a rat model look promising. The use of retroviruses for CFTR transfer is also advanced mode of somatic gene therapy. An alternative approach suggesting the use of germ line cells is prerequisite of the development of the preimplantation/preconception genetic CF diagnosis. A number of safety and efficacy issues have to be addressed for all approaches before human trials can be implemented.
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PMID:[Gene therapy perspectives in cystic fibrosis]. 830 49

The anion-selective channel CFTR (cystic fibrosis transmembrane conductance regulator), whose dysfunction is responsible for the onset of cystic fibrosis, is regulated by cAMP through the activation of protein kinase A (PKA). The nature of this activation process is unknown. In the present study, patch-clamp techniques were applied to both mouse mammary adenocarcinoma cells expressing human epithelial CFTR (CFTR cells) and cultured neonatal rat ventricular myocytes (NRVM), to determine whether CFTR is modulated by the actin cytoskeleton, and whether the actin cytoskeleton may be implicated in the cAMP-stimulated activation of the channel protein. Acute changes in the actin cytoskeleton by addition of cytochalasin D (CD) activated whole-cell currents in CFTR cells and NRVM. Addition of actin to excised, inside-out patches also activated CFTR. A functional characterization of CFTR in either cell type included cAMP-induced, linear whole-cell and single-channel currents in symmetrical Cl-, permeability to ATP, and inhibition by either diphenylamine-carboxylate (DPC) or a monoclonal antibody raised against CFTR. Incubation of CFTR cells and NRVM with CD for over 6 h prevented CFTR activation either by the cAMP pathway under whole-cell conditions or by PKA under excised inside-out conditions. Thus a complete derangement of the actin cytoskeleton prevents the cAMP-dependent activation of CFTR. CFTR activation, however, was restored by subsequent addition of actin. In summary, changes in actin filament organization modulate CFTR channel activity by a mechanism entailing a direct interaction between actin filaments and CFTR.
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PMID:Role of the actin cytoskeleton in the regulation of the cystic fibrosis transmembrane conductance regulator. 873 83

Using an 125I- efflux assay, we have studied the expression of various types of chloride channels in isolated neonatal rat cardiomyocytes. Three different classes of anion conductances were distinguished: (1) a Ca(2+)-sensitive Cl- conductance, triggered upon stimulation of the cells with endothelin-1 or Ca(2+)-ionophore; (2) a cAMP/protein kinase A-operated Cl- conductance, activated by addition of forskolin. This anion channel could be identified as the Cystic Fibrosis Transmembrane conductance Regulator (CFTR-CI- channel) by Western blotting as well as by its enhanced activity in cultures pretreated with the tyrosine kinase inhibitor genistein; (3) a distinct class of cell volume-regulated Cl- channels, potentiated in the presence of endothelin-1 or the phosphotyrosine phosphatase inhibitor pervanadate. The potential role of each class of Cl- channels in the generation and/or modulation of action potentials as well as in maintaining cell volume is discussed.
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PMID:Expression and regulation of chloride channels in neonatal rat cardiomyocytes. 873 39


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