Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.3.1.21 (CPT)
 4,580 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Based on the observation (Bradbury et al. (1992) Am. J. Physiol. 262, C752-C759) that conditions known to activate the cystic fibrosis transmembrane regulator protein (CFTR) increase the rate of exocytosis and decrease the rate of endocytosis, it was proposed that activation of the CFTR may involved cAMP-dependent fusion of CFTR containing endosomes with the apical membrane. We have tested this hypothesis in two cell lines derived from epithelia that express defective chloride transport in cystic fibrosis (CF): the human colonic cell line, T84, and the tracheal cell line 9HTEo-. The dose-dependence of forskolin- and CPT-cAMP-induced inhibition of endocytosis were compared with the dose-dependence of chloride channel activation. Endocytosis was determined from the uptake of FITC-dextran, and assayed in purified endosomes. Chloride channel activity was measured from the rate of I-efflux. If the fusion hypothesis is correct: (1) concentrations of agonist that inhibit endocytosis should activate chloride channel activity, and (2) the relationship between endocytosis and channel activation should be similar for forskolin and CPT-cAMP. Results in both cell lines were inconsistent with these postulates, suggesting that either chloride channel activation and the inhibition of endocytosis are separate effects of cAMP, or that the increase in apical CFTR resulting from agonist-dependent inhibition of endosomal fusion is minimal.
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PMID:Activation of the cystic fibrosis transmembrane regulator by cyclic AMP is not correlated with inhibition of endocytosis. 752 69

The cardiac isoform of the cystic fibrosis transmembrane conductance regulator (CFTR) is a splice variant of the epithelial CFTR, with lacks 30 amino acids encoded by exon 5 in the first intracellular loop. For examination of the role of exon 5 in CFTR channel function, a CFTR deletion mutant, in which exon 5 was removed from the human epithelial CFTR, was constructed. The wild type and delta exon5 CFTR were expressed in a human embryonic kidney cell line (293 HEK). Fully mature glycosylated CFTR (approximately 170 kDa) was immunoprecipitated from cells transfected with wild type CFTR cDNA, whereas cells transfected with delta exon5 CFTR express only a core-glycosylated from (approximately 140 kDa). The Western blot test performed on subcellular membrane fractions showed that delta exon5 CFTR was located in the intracellular membranes. Neither incubation at lower temperature (26 degrees C) nor stimulation of 293 HEK cells with forskolin or CPT-cAMP caused improvement in glycosylation and processing of delta exon5 CFTR proteins, indicating that the human epithelial CFTR lacking exon5 did not process properly in 293 HEK cells. On incorporation of intracellular membrane vesicles containing the delta exon5 CFTR proteins into the lipid bilayer membrane, functional phosphorylation- and ATP-dependent chloride channels were identified. CFTR channels with an 8-pS full-conductance state were observed in 14% of the experiments. The channel had an average open probability (Po) of 0.098 +/- 0.022, significantly less than that of the wild type CFTR (Po = 0.318 +/- 0.028). More frequently, the delta exon5 CFTR formed chloride channels with lower conductance states of approximately 2-3 and approximately 4-6 pS. These subconductance states were also observed with wild type CFTR but to a much lesser extent. Average Po for the 2-3-pS subconductance state, estimated from the area under the curve on an amplitude histogram, was 0.461 +/- 0.194 for delta exon5 CFTR and 0.332 +/- 0.142 for wild type (p = 0.073). The data obtained indicate that deleting 30 amino acids from the first intracellular loop of CFTR affects both processing and function of the CFTR chloride channel.
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PMID:Human epithelial cystic fibrosis transmembrane conductance regulator without exon 5 maintains partial chloride channel function in intracellular membranes. 896 85

Two potassium conductances have been isolated in rat Leydig cells by their sensitivity to cytosolic calcium and to K+ channel blockers. We used the whole-cell configuration of the patch-clamp technique to investigate their sensitivity to cyclic AMP, the main messenger of luteinizing hormone, which stimulates Leydig cell steroidogenesis. The voltage-dependent potassium conductance is not modified by exposing the cell to 1 mM chlorophenylthio-cyclic AMP (CPT-cAMP), a membrane-permeant analogue of cAMP. By contrast, the large, calcium-activated potassium conductance is upregulated by CPT-cAMP. Furthermore, the latter is potentiated by the chloride channel blocker 4-acetamido-4'-isothiocyanato-stilbene-2,2'-disulfonic acid, sodium salt (SITS).
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PMID:Effect of cyclic AMP on the calcium-dependent potassium conductances of rat Leydig cells. 992 3

Polycystic kidney diseases result from disruption of the genetically defined program that controls the size and geometry of renal tubules. Cysts which frequently arise from the collecting duct (CD) result from cell proliferation and fluid secretion. From mCCD(cl1) cells, a differentiated mouse CD cell line, we isolated a clonal subpopulation (mCCD-N21) that retains morphogenetic capacity. When grown in three-dimensional gels, mCCD-N21 cells formed highly organized tubular structures consisting of a palisade of polarized epithelial cells surrounding a cylindrical lumen. Subsequent addition of cAMP-elevating agents (forskolin or cholera toxin) or of membrane-permeable cAMP analogs (CPT-cAMP) resulted in rapid and progressive dilatation of existing tubules, leading to the formation of cystlike structures. When grown on filters, mCCD-N21 cells exhibited a high transepithelial resistance as well as aldosterone- and/or vasopressin-induced amiloride-sensitive and -insensitive current. The latter was in part inhibited by Na(+)-K(+)-2Cl(-) cotransporter (bumetanide) and chloride channel (NPPB) inhibitors. Real-time PCR analysis confirmed the expression of NKCC1, the ubiquitous Na(+)-K(+)-2Cl(-) cotransporter and cystic fibrosis transmembrane regulator (CFTR) in mCCD-N21 cells. Tubule enlargement and cyst formation were prevented by inhibitors of Na(+)-K(+)-2Cl(-) cotransporters (bumetanide or ethacrynic acid) or CFTR (NPPB or CFTR inhibitor-172). These results further support the notion that cAMP signaling plays a key role in renal cyst formation, at least in part by promoting chloride-driven fluid secretion. This new in vitro model of tubule-to-cyst conversion affords a unique opportunity for investigating the molecular mechanisms that govern the architecture of epithelial tubes, as well as for dissecting the pathophysiological processes underlying cystic kidney diseases.
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PMID:cAMP-dependent chloride secretion mediates tubule enlargement and cyst formation by cultured mammalian collecting duct cells. 1905 3