Minor Role of Cl&lt;sup&gt;–&lt;/sup&gt; Secretion in Non-Cystic Fibrosis and Cystic Fibrosis Human Nasal Epithelium

Rückes-Nilges, Claudia; Weber, U.; Lindemann, H.; Münker, G.; Clauss, Wolfgang; Weber, Wolf-Michael

doi:10.1159/000016298

Cited by 17 publications

(26 citation statements)

References 27 publications

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“…It was reported recently [22] that this is not the case for HNE. We used the NO donors SNP and spermine NONOate to boost the tiny Cl -secretion via CFTR or other Cl -channels in HNE, as has been shown for other cells [9].…”

Section: -Secretionmentioning

confidence: 85%

“…Thus, it is possible that nENaC differs in structure or regulation from NO-sensitive ENaCs. On the other hand, nENaC is not sensitive to cGMP while most ENaC are responsive to that compound [22]. Therefore, it is possible that non-CF and CF HNE lack the necessary signal transduction pathways that are the prerequisite for NO's interaction with nENaC, or the nENaC molecule itself is not sensitive to these signal transduction mechanisms.…”

Section: Discussionmentioning

confidence: 99%

“…Our method of culturing human nasal epithelium was similar to that outlined recently [22]. Briefly, tissues were treated with 0.1% pronase (type XIV protease) in Ca 2+ -free Jokliks MEM medium supplemented with penicillin (100 U/ml), streptomycin (100 µg/ml) and gentamycin (50 µg/ml) for 24 h rotating at 4°C.…”

Section: Methodsmentioning

confidence: 99%

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Nitric oxide has no beneficial effects on ion transport defects in cystic fibrosis human nasal epithelium

Rückes-Nilges

Lindemann

Klimek

et al. 2000

Pflügers Arch - Eur J Physiol

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Nitric oxide (NO) has been reported to activate Cl- secretion via the cystic fibrosis transmembrane conductance regulator (CFTR) and inhibit epithelial Na+ absorption mediated by amiloride-sensitive epithelial Na+ channels (ENaC). These ion transport systems are defective in cystic fibrosis (CF): Cl- secretion by CFTR is impaired and Na+ absorption by ENaC is dramatically increased. By activating CFTR and depressing ENaC, NO is a potentially beneficial therapeutic agent for ion transport defects in human CF respiratory epithelia. To assess the effects of NO on human respiratory epithelial cells, the NO donors sodium nitroprusside (SNP) and spermine NONOate were applied to primary cultured nasal cells, surgically obtained from non-CF and CF patients. Measurements of transepithelial short-circuit current (ISC) showed that NO has no inhibitory potency against amiloride-sensitive nasal ENaC (nENaC) or amiloride-insensitive Na+-absorbing mechanisms in non-CF and CF epithelia. Furthermore, NO had no stimulatory effect on Cl- secretion by CFTR or any other Cl- conductance pathway in either tissue. Although NO elevated the intracellular Ca2+ concentration, we did not detect any activation of Ca2+-dependent Cl- channels. These results demonstrate that NO has no beneficial effect on CF epithelial cells of the upper airways.

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Section: -Secretionmentioning

confidence: 85%

Section: Discussionmentioning

confidence: 99%

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Nitric oxide has no beneficial effects on ion transport defects in cystic fibrosis human nasal epithelium

Rückes-Nilges

Lindemann

Klimek

et al. 2000

Pflügers Arch - Eur J Physiol

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“…Moreover, sildenafil is reported to inhibit Na + absorption through epithelial Na + channels (ENaC) [29]. This could be of therapeutic benefit since CF patients suffer from Na + hyperabsorption in the respiratory tract leading to massive loss of water in the airway surface liquid and increased viscosity of the mucus [51]. Furthermore, there are attempts underway to investigate chemical modifications of sildenafil to enhance the biochemical potency and selectivity of the compound, thereby offering the possibility to apply the newly developed drug in lower concentrations with fewer putative adverse effects [52].…”

Section: Discussionmentioning

confidence: 99%

Sildenafil Acts as Potentiator and Corrector of CFTR but Might be not Suitable for the Treatment of CF Lung Disease

Leier¹,

Bangel-Ruland²,

Sobczak³

et al. 2012

Cell Physiol Biochem

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The phosphodiesterase-5 inhibitor sildenafil is an established and approved drug to treat symptoms of a variety of human diseases. In the context of cystic fibrosis (CF), a genetic disease caused by a defective CFTR gene (e.g. ΔF508-CFTR), it was assumed that sildenafil could be a promising substance to correct impaired protein expression. This study focuses on the molecular mechanisms of sildenafil on CFTR recovery. We used ΔF508-CFTR/wt-CFTR expressing Xenopus laevis oocytes and human bronchial epithelial cell lines (CFBE41o^-/16HBE14o^-) to investigate the pathways of sildenafil action. Cells were treated with sildenafil and cAMP-mediated current (I_m), conductance (G_m), and capacitance (C_m) were determined. Sildenafil increased I_m, G_m, and C_mof wt-CFTR and functionally restored ΔF508-CFTR in oocytes. These effects were also seen in CFBE41oand 16HBE14o^-cells. Transepithelial measurements revealed that sildenafil mediated increase (wt-CFTR) and restoration (ΔF508-CFTR) of channel activity. cGMP pathway blocker inhibited the activity increase but not CFTR/ΔF508-CFTR exocytosis. From these data we conclude that sildenafil mediates potentiation of CFTR activity by a cGMP-dependent and initiates cGMP-independent functional insertion of CFTR/ ΔF508-CFTR molecules into the apical membranes. Thus, sildenafil is a corrector and potentiator of CFTR/ΔF508-CFTR. Yet, the necessary high doses of the drug for CFTR recovery demonstrate that sildenafil might not be suited as a therapeutic drug for CF lung disease.

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“…CFTR functional activity in vivo is assessed by nasal potential difference measurements (44), but these measurements are confounded by the very active Na + conductance in these epithelia (45)(46)(47). In the duodenum, CFTR expression is particularly high within the gastrointestinal tract (48), and murine duodenal HCO 3 -secretion and its agonist-mediated regulation are virtually completely dependent on CFTR expression (33)(34)(35)(36).…”

Section: Discussionmentioning

confidence: 99%

Differential roles of NHERF1, NHERF2, and PDZK1 in regulating CFTR-mediated intestinal anion secretion in mice

Singh¹,

Riederer²,

et al. 2009

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The epithelial anion channel CFTR interacts with multiple PDZ domain-containing proteins. Heterologous expression studies have demonstrated that the Na + /H + exchanger regulatory factors, NHERF1, NHERF2, and PDZK1 (NHERF3), modulate CFTR membrane retention, conductivity, and interactions with other transporters. To study their biological roles in vivo, we investigated CFTR-dependent duodenal HCO 3 -secretion in mouse models of Nherf1, Nherf2, and Pdzk1 loss of function. We found that Nherf1 ablation strongly reduced basal as well as forskolin-stimulated (FSK-stimulated) HCO 3 -secretory rates and blocked β 2 -adrenergic receptor (β 2 -AR) stimulation. Conversely, Nherf2 -/-mice displayed augmented FSK-stimulated HCO 3 -secretion. Furthermore, although lysophosphatidic acid (LPA) inhibited FSK-stimulated HCO 3 -secretion in WT mice, this effect was lost in Nherf2 -/-mice. Pdzk1 ablation reduced basal, but not FSK-stimulated, HCO 3 -secretion. In addition, laser microdissection and quantitative PCR revealed that the β 2 -AR and the type 2 LPA receptor were expressed together with CFTR in duodenal crypts and that colocalization of the β 2 -AR and CFTR was reduced in the Nherf1 -/-mice. These data suggest that the NHERF proteins differentially modulate duodenal HCO 3 -secretion: while NHERF1 is an obligatory linker for β 2 -AR stimulation of CFTR, NHERF2 confers inhibitory signals by coupling the LPA receptor to CFTR.

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Minor Role of Cl<sup>–</sup> Secretion in Non-Cystic Fibrosis and Cystic Fibrosis Human Nasal Epithelium

Cited by 17 publications

References 27 publications

Nitric oxide has no beneficial effects on ion transport defects in cystic fibrosis human nasal epithelium

Nitric oxide has no beneficial effects on ion transport defects in cystic fibrosis human nasal epithelium

Sildenafil Acts as Potentiator and Corrector of CFTR but Might be not Suitable for the Treatment of CF Lung Disease

Differential roles of NHERF1, NHERF2, and PDZK1 in regulating CFTR-mediated intestinal anion secretion in mice

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