Vasoactive intestinal peptide, forskolin, and genistein increase apical CFTR trafficking in the rectal gland of the spiny dogfish, Squalus acanthias. Acute regulation of CFTR trafficking in an intact epithelium.

Lehrich, Ruediger W.; Aller, Stephen G.; Webster, Paul; Marino, Christopher R.; Forrest, Jeffrey Yi‐Lin

doi:10.1172/jci803

Cited by 88 publications

(62 citation statements)

References 44 publications

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“…The decreased apical membrane expression of WT-CFTR and ⌬F508-CFTR in CFBE41oϪ cells is consistent with the view that Rab11a facilitates the endocytic recycling of WT-CFTR and rescued ⌬F508-CFTR in polarized human airway epithelial cells. Endocytosis and endocytic recycling determine, at least in part, the expression of CFTR in the apical membrane (28,81,82). Thus, inhibition of the endocytic recycling of ⌬F508-CFTR by siRNA-mediated silencing of Rab11a together with increased endocytosis of ⌬F508-CFTR should result in lower apical membrane expression of ⌬F508-CFTR compared with WT-CFTR.…”

Section: ⌬F508-cftr To the Apical Plasma Membrane In Polarized Cfbe41oϫmentioning

confidence: 99%

The Short Apical Membrane Half-life of Rescued ΔF508-Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) Results from Accelerated Endocytosis of ΔF508-CFTR in Polarized Human Airway Epithelial Cells

Swiatecka‐Urban

Brown

Moreau‐Marquis

et al. 2005

Journal of Biological Chemistry

170

192

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The most common mutation in the cystic fibrosis transmembrane conductance regulator (CFTR) gene in individuals with cystic fibrosis, ⌬F508, causes retention of ⌬F508-CFTR in the endoplasmic reticulum and leads to the absence of CFTR Cl ؊ channels in the apical plasma membrane. Rescue of ⌬F508-CFTR by reduced temperature or chemical means reveals that the ⌬F508 mutation reduces the half-life of ⌬F508-CFTR in the apical plasma membrane. Because ⌬F508-CFTR retains some Cl ؊ channel activity, increased expression of ⌬F508-CFTR in the apical membrane could serve as a potential therapeutic approach for cystic fibrosis. However, little is known about the mechanisms responsible for the short apical membrane half-life of ⌬F508-CFTR in polarized human airway epithelial cells. Accordingly, the goal of this study was to determine the cellular defects in the trafficking of rescued ⌬F508-CFTR that lead to the decreased apical membrane half-life of ⌬F508-CFTR in polarized human airway epithelial cells. We report that in polarized human airway epithelial cells (CFBE41o؊) the ⌬F508 mutation increased endocytosis of CFTR from the apical membrane without causing a global endocytic defect or affecting the endocytic recycling of CFTR in the Rab11a-specific apical recycling compartment.The cystic fibrosis transmembrane conductance regulator (CFTR) 2 is an ATP binding cassette (ABC) transporter and a cAMP-regulated Cl Ϫ channel that mediates transepithelial Cl Ϫ transport in the airways, intestine, pancreas, testis, and other tissues (1-3). Cystic fibrosis (CF), a lethal genetic disease, is caused by mutations in the CFTR gene (1, 2). The most common mutation in CFTR is ⌬F508 (4, 5). ⌬F508-CFTR does not fold properly, and most of the protein is retained within the endoplasmic reticulum (ER) where it is subsequently degraded (5, 6). Several studies suggest that the ER retention of ⌬F508-CFTR is not complete, and some ⌬F508-CFTR is constitutively expressed in the plasma membrane of primary epithelial cells from individuals homozygous for the ⌬F508 mutation (7-10). Because ⌬F508-CFTR retains some Cl Ϫ channel activity when expressed in the plasma membrane (5,6,(11)(12)(13)(14), it would be desirable to increase the expression of ⌬F508-CFTR in the plasma membrane to alleviate the symptoms in CF patients. The trafficking of ⌬F508-CFTR to the plasma membrane can be increased by chemical means or reduced temperature (15-21). Yet, functional and biochemical studies in heterologous cell lines demonstrate that rescued ⌬F508-CFTR has a greatly reduced stability or halflife in the post-ER compartments, including the plasma membrane (13,(22)(23)(24). Very little is known about the apical membrane half-life of rescued ⌬F508-CFTR in polarized human airway epithelial cells. A recent study demonstrates that the functional stability of ⌬F508-CFTR in the apical membrane of differentiated respiratory epithelial cells derived from nasal polyps from individuals homozygous for the ⌬F508 mutation is decreased compared with WT-CFTR (25). Furthermore, the bioc...

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Section: ⌬F508-cftr To the Apical Plasma Membrane In Polarized Cfbe41oϫmentioning

confidence: 99%

The Short Apical Membrane Half-life of Rescued ΔF508-Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) Results from Accelerated Endocytosis of ΔF508-CFTR in Polarized Human Airway Epithelial Cells

Swiatecka‐Urban

Brown

Moreau‐Marquis

et al. 2005

Journal of Biological Chemistry

170

192

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“…They exhibit fundamental vertebrate characteristics, including a recombinatorial immune system (Hinds and Litman 1986;Adelman et al 2004), and are also the oldest existing vertebrates with circulatory system-related signaling molecules and receptors such as platelet-derived growth factor and adenosine receptors. The specialized rectal gland of Squalus acanthias, the spiny dogfish shark, has greatly facilitated the study of cystic fibrosis, sodium and chloride secretion (Devor et al 1995;Lehrich et al 1995;Forrest 1996;Henson et al 1997;Lehrich et al 1998;Silva et al 1999;Aller et al 1999;Greger et al 1999;Waldegger et al 1999;Ke et al 2002;Yang et al 2002). Unlike many primary cell cultures that dedifferentiate and lose transport polarity immediately after isolation, primary cultures of shark rectal gland tubular cells maintain fully differentiated function and expression of all known receptors, transporters, ion channels and signal transduction pathways in vitro (Valentich and Forrest 1991;Devor et al 1995;Lehrich et al 1995;Aller et al 1999;Greger et al 1999;Waldegger et al 1999;Ke et al 2002;Yang et al 2002;Mattingly et al 2004b).…”

Section: The Contributions Of Marine and Freshwater Organisms To Compmentioning

confidence: 99%

Marine Organism Cell Biology and Regulatory Sequence Discoveryin Comparative Functional Genomics

et al. 2004

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The use of bioinformatics to integrate phenotypic and genomic data from mammalian models is well established as a means of understanding human biology and disease. Beyond direct biomedical applications of these approaches in predicting structure-function relationships between coding sequences and protein activities, comparative studies also promote understanding of molecular evolution and the relationship between genomic sequence and morphological and physiological specialization. Recently recognized is the potential of comparative studies to identify functionally significant regulatory regions and to generate experimentally testable hypotheses that contribute to understanding mechanisms that regulate gene expression, including transcriptional activity, alternative splicing and transcript stability. Functional tests of hypotheses generated by computational approaches require experimentally tractable in vitro systems, including cell cultures. Comparative sequence analysis strategies that use genomic sequences from a variety of evolutionarily diverse organisms are critical for identifying conserved regulatory motifs in the 5¢-upstream, 3¢-downstream and introns of genes. Genomic sequences and gene orthologues in the first aquatic vertebrate and protovertebrate organisms to be fully sequenced (Fugu rubripes, Ciona intestinalis, Tetraodon nigroviridis, Danio rerio) as well as in the elasmobranchs, spiny dogfish shark (Squalus acanthias) and little skate (Raja erinacea), and marine invertebrate models such as the sea urchin (Strongylocentrotus purpuratus) are valuable in the prediction of putative genomic regulatory regions. Cell cultures have been derived for these and other model species. Data and tools resulting from these kinds of studies will contribute to understanding transcriptional regulation of biomedically important genes and provide new avenues for medical therapeutics and disease prevention.

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“…Cyclic nucleotides have been shown to be involved in the translocation of several receptors and transducing molecules; for example, cAMP has been implicated in the nerve growth factor receptor (Meyer-Franke et al 1998), the water channel aquaporin-2 (Fushimi et al 1997), an epithelial chloride channel (Shintani & Marunaka 1996) and the cystic fibrosis transmembrane conductance regulator (Lehrich et al 1998). Furthermore, cGMP is involved in the membrane recruitment of the dopamine receptor (Holtbäck et al 1999).…”

Section: Discussionmentioning

confidence: 99%

Rapid hormonal regulation of N-acetylglucosamine transferase I

2000

Journal of Molecular Endocrinology

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Previous studies have shown that, in unstimulated mammary epithelial cells from virgin mice, prolactin receptors are retained intracellularly because of their incomplete N-glycosylation. Activation of the nitric oxide/cGMP pathway stimulates Nacetylglucosamine (NAG) transferase I activity, completion of terminal glycosylation, and redistribution of the receptors to the cell surface. In this study, it was shown that nitric oxide could stimulate the phosphorylation of NAG transferase I in intact cells and that the cGMP-dependent protein kinase (PKG) could directly phosphorylate the purified enzyme. Furthermore, this modification was associated with enhanced enzymatic activity. Conversely, this stimulation of activity was blocked in intact cells by coincubation with a PKG inhibitor and reversed in the immunoprecipitated enzyme by alkaline phosphatase treatment. Kinetic analysis revealed that this effect on enzyme activity was due to an increase in V max without any change in K m . Therefore, it appears that the nitric oxide/cGMP pathway activates NAG transferase I via direct phosphorylation by PKG.

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Vasoactive intestinal peptide, forskolin, and genistein increase apical CFTR trafficking in the rectal gland of the spiny dogfish, Squalus acanthias. Acute regulation of CFTR trafficking in an intact epithelium.

Cited by 88 publications

References 44 publications

The Short Apical Membrane Half-life of Rescued ΔF508-Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) Results from Accelerated Endocytosis of ΔF508-CFTR in Polarized Human Airway Epithelial Cells

The Short Apical Membrane Half-life of Rescued ΔF508-Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) Results from Accelerated Endocytosis of ΔF508-CFTR in Polarized Human Airway Epithelial Cells

Marine Organism Cell Biology and Regulatory Sequence Discoveryin Comparative Functional Genomics

Rapid hormonal regulation of N-acetylglucosamine transferase I

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