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:2.7.11.11 (AMPK)
12,425 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Abnormalities of epithelial function in cystic fibrosis (CF) have been linked to defects in cell membrane permeability to chloride or sodium ions. Recently, a class of chloride channels in airway epithelial cells have been reported to lack their usual sensitivity to phosphorylation via cAMP-dependent protein kinase, suggesting that CF could be due to a single genetic defect in these channels. We have examined single chloride and sodium channels in control and CF human nasal epithelia using the patch-clamp technique. The most common chloride channel was not the one previously associated with CF, but it was also abnormal in CF cells. In addition, the number of sodium channels was unusually high in CF. These findings suggest a wider disturbance of ion channel properties in CF than would be produced by a defect in a single type of channel.
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PMID:Cystic fibrosis affects chloride and sodium channels in human airway epithelia. 248 24

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

Cystic fibrosis (CF) is a common autosomal recessive disease with significant morbidity and mortality. Defects in cAMP control mechanisms are implicated in the pathophysiology of the disease. The mutation causing CF has been localized to chromosome 7q22-7q31.1. We have used (1) somatic-cell hybrids containing this region of the human genome in a mouse background and (2) segregation analysis in families to exclude both the genes coding for a catalytic subunit and three distinct regulatory subunits of cAMP-dependent protein kinase as candidates for the gene defect in CF. Two of these genes--those for the human homologue of the mouse type I regulatory subunit and the human homologue of the rat type II regulatory subunit--map to human chromosome 7.
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PMID:Exclusion of catalytic and regulatory subunits of cAMP-dependent protein kinase as candidate genes for the defect causing cystic fibrosis. 347 18

Cl-impermeability in cystic fibrosis (CF) tracheal epithelium derives from a deficiency in the beta-adrenergic regulation of apical membrane Cl- channels. To test the possibility that cAMP-dependent kinase is the cause of this deficiency, we assayed this kinase in soluble fractions from cultured airway epithelial cells, including CF human tracheal epithelial cells. Varying levels of cAMP were used in these assays to derive both a Vmax and apparent dissociation constant (Kd) for the enzymes in soluble extracts. The cAMP-dependent protein kinase from CF human tracheal epithelial cells has essentially the same Vmax and apparent Kd as non-CF human, bovine, and dog tracheal epithelial cells. Thus, the total activity of the cAMP-dependent kinases and their overall responsiveness to cAMP are unchanged in CF.
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PMID:Cyclic adenosine monophosphate-dependent kinase in cystic fibrosis tracheal epithelium. 368 May 29

Heat-stable enterotoxins (STa) produced by pathogenic bacteria induce profound salt and water secretion in the gut, leading to diarrhea. Recently, guanylin, an endogenous peptide with properties similar to STa, was identified. While STa and guanylin bind to the same receptor guanylyl cyclase and raise cell cGMP, the signaling mechanism distal to cGMP remains controversial. Here we show that STa, guanylin and cGMP each activate intestinal Cl- secretion, and that this is abolished by inhibitors of cAMP-dependent protein kinase (PKA), suggesting that PKA is a major mediator of this effect. These agents induce Cl- secretion only in cells expressing the wild-type CFTR, indicating that this molecule is the final common effector of the signaling pathway. The involvement of CFTR suggests a possible cystic fibrosis heterozygote advantage against STa-induced diarrhea.
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PMID:Activation of intestinal CFTR Cl- channel by heat-stable enterotoxin and guanylin via cAMP-dependent protein kinase. 751 Jun 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

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 elementary K+ conductance activated by the cAMP or the Ca2+ second messenger pathways was investigated in the model salt-secreting epithelium, the human T84 cell line. Under Cl(-)-free conditions, an inwardly rectifying whole-cell K+ current was evoked by either forskolin 10 (mumol/l) or acetylcholine 1 (mumol/l) and blocked by extracellular charybdotoxin 10 (nmol/l). In the cell-attached mode, both secretory agonists induced the opening of a channel showing inward rectification with a unitary chord conductance of 36.8 +/- 2.5 pS (n = 26) for inward currents. In inside-out patches, a 35-pS inwardly rectifying K+ channel that corresponded to the channel recorded in the cell-attached configuration was recorded in the presence of 0.3 mumol/l free Ca2+ at the inner side of the membrane. This channel was blocked by Ba2+ (5 mumol/l) and by charybdotoxin (50 nmol/l). Its open probability was enhanced by intracellular Ca2+ with and EC50 of 0.25 mumol/l and strongly reduced by intracellular MgATP with an IC50 of 600 mumol/l. In the continuous presence of ATP, the channel activity was consistently increased by 125 kU/l catalytic subunit of cAMP-dependent protein kinase. In the cystic fibrosis pancreatic duct cell line CFPAC-1, a K+ channel was also recorded, with similar characteristics and regulation as the 35-pS channel in T84 cells. We conclude that an ATP-sensitive K+ channel regulated by intracellular Ca2+ and phosphorylation supports the main K+ current activated by secretory agonists in normal cystic fibrosis cell lines.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:ATP-sensitive K+ channels regulated by intracellular Ca2+ and phosphorylation in normal (T84) and cystic fibrosis (CFPAC-1) epithelial cells. 753 25

The gene product affected in cystic fibrosis, the cystic fibrosis transmembrane conductance regulator (CFTR), is a chlorideselective ion channel that is regulated by cAMP-dependent protein kinase-mediated phosphorylation, ATP binding and ATP hydrolysis. Mutations in the CFTR gene may result in cystic fibrosis characterized by severe pathology (e.g. recurrent pulmonary infection, male infertility and pancreatic insufficiency) involving organs expressing the CFTR. Interestingly, in the kidney, where expression of the CFTR has been reported, impaired ion transport in patients suffering from cystic fibrosis could not be observed. To understand the role of the CFTR in chloride transport in the kidney, we attempted to identify an epithelial cell line that can serve as a model. We demonstrate that the CFTR is expressed constitutively in Madine-Darby canine kidney (MDCK) type I cells, which are thought to have originated from the distal tubule of the dog nephron. We show expression at the mRNA level, using reverse transcriptase-PCR, and at the protein level, using Western blot analysis with three different monoclonal antibodies. Iodide efflux measurements indicate that CFTR expression confers a plasma membrane anion conductance that is responsive to stimulation by cAMP. The cAMP-stimulated iodide release is sensitive to glybenclamide, diphenylamine carboxylic acid and 5-nitro-2-(3-phenylpropylamino)benzoic acid, but not to 4,4'-di-isothiocyanostilbene-2,2'-disulphonic acid, an inhibitor profile characteristic of the CFTR chloride channel. Finally, the polarized localization of the CFTR to the apical plasma membrane was established by iodide efflux measurements and cell-surface biotinylation on MDCK I monolayers. Interestingly, MDCK type II cells, which are thought to have originated from the proximal tubule of the kidney, lack CFTR protein expression and cAMP-stimulated chloride conductance. In conclusion, we propose that MDCK type I and II cells can serve as convenient model systems to study the physiological role and differential expression of CFTR in the distal and proximal tubule respectively.
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PMID:Functional expression and apical localization of the cystic fibrosis transmembrane conductance regulator in MDCK I cells. 907 71


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