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1

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Characterization of human sweat duct chloride conductance by chloride channel blockers (1987)

Bijman, J. ; Englert, H. C. ; Lang, H. J. ; [et al.]

Springer

Pflügers Archiv 408 (1987), S. 511-514

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ISSN: 1432-2013

Keywords: Human sweat duct ; Cl− conductance ; Cl− channel blockers ; Cystic fibrosis

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract To characterize the chloride conductance of human sweat duct the effect of various analogues of diphenylamine-2-carboxylate was investigated on the transepithelial potential difference (PDT) and resistance (R T ) of isolated microperfused sweat ducts. Although the most powerful analogues which block Cl− channels in various secretory and absorptive epithelia were ineffective, a number of analogues (in particular Cl substituted ones) were found which at high concentrations significantly and reversibly increased PDT andR T . The data suggest that the main chloride conductance pathway of sweat duct epithelium resides in the cell membranes rather than in the tight junctions. In addition the different blocking spectra of the chloride conductances of sweat duct and tracheal epithelium (Welsh MJ, Science 232:1648, 1986) suggest that the combined impairment of both conductances in cystic fibrosis does not result from a molecular defect in the Cl− channels.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00585077

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Properties of the luminal membrane of isolated perfused rat pancreatic ducts (1988)

Novak, I. ; Greger, R.

Springer

Pflügers Archiv 411 (1988), S. 546-553

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ISSN: 1432-2013

Keywords: Pancreas ; Isolated perfused ducts ; Luminal membrane ; Cl− conductance ; Cl−/HCO 3 − antiport ; cAMP

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The aim of the present study was to investigate by what transport mechanism does HCO 3 − cross the luminal membrane of pancreatic duct cells, and how do the cells respond to stimulation with dibytyryl cyclic AMP (db-cAMP). For this purpose a newly developed preparation of isolated and perfused intra-and interlobular ducts of rat pancreas was used. Responses of the epithelium to inhibitors and agonists were monitored by electrophysiological techniques. Addition of HCO 3 − /CO2 to the bath side of nonstimulated ducts depolarized the PD across the basolateral membrane (PDbl) by about 9mV, as also observed in a previous study [21]. This HCO 3 − effect was abolished by Cl− channel blockers or SITS infused into the lumen of the duct: i. e. 5-nitro-2-(3-phenylpropylamino)-benzoic acid (NPPB, 10−5 M) hyperpolarized PDbl by 8.2±1.6 mV (n=13); 3′,5-dichlorodiphenylamine-2-carboxylic acid (DCl-DPC, 10−5 M) hyperpolarized PDbl by 10.3±1.7 mV (n=10); and SITS hyperpolarized PDbl by 7.8±0.9 mV (n=4). Stimulation of the ducts with dbcAMP in the presence of bath HCO 3 − /CO2 resulted in depolarization of PDbl, the ductal lumen became more negative and the fractional resistance of the luminal membrane decreased. Together with forskolin (10−6 M), db-cAMP (10−4 M) caused a fast depolarization of PDbl by 33.8±2.5 mV (n=6). When db-cAMP (5×10−4 M) was given alone in the presence of bath HCO 3 − /CO2, PDbl depolarized by 25.3±4.2 mV (n=10). In the absence of exogenous HCO 3 − , db-cAMP also depolarized PDbl by 24.7±3.0 mV (n=10). The present data suggest that in the luminal membrane of pancreatic duct cells there is a Cl− conductance in parallel with a Cl−/HCO 3 − antiport. Dibutyryl cyclic AMP increases the Cl− conductance of the luminal membrane. Taking together our present results, and the recent data obtained for the basolateral membrane [21], a tentative model for pancreatic HCO 3 − transport is proposed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00582376

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Chloride channels in the luminal membrane of rat pancreatic acini (1997)

Zdebik, A. ; Hug, M. J. ; Greger, R.

Springer

Pflügers Archiv 434 (1997), S. 188-194

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ISSN: 1432-2013

Keywords: Key words Exocrine pancreas ; Cl ; channel ; Cl ; secretion ; Exocrine secretion ; Patch clamp

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Pancreatic acini secrete Na+, Cl–and H2O in response to secretagogues such as acetylcholine. Cl–channels in the luminal membrane are a prerequisite for this secretion. The properties of the corresponding conductance have previously been examined using whole-cell recordings. The present study attempts to examine the properties of the single channels in cell-attached and cell-free excised patches from the luminal membrane. To this end the pipettes were filled with an N-methyl-D-glucamine (NMDG+) chloride/gluconate solution. The voltage-clamp range was chosen to be pipette positive (cell negative, –60 to –130 mV) in order to increase the driving force for outward Cl–currents. Under resting conditions cell attached luminal patches had very few single-channel currents (12 out of 45 experiments). Their incidence was sharply increased by carbachol (CCH, 1 μmol/l) in 41 out of 45 experiments. The single-channel conductance of these channels was 1.97 ± 0.05 pS. The properties of these channels in excised patches were examined further: their single-channel conductance was 2.2 ± 0.07 pS (n = 59) and their conductance selectivity was I– 〉 Br– 〉 Cl– 〉〉 gluconate. None of the typical Cl–channel blockers (DIDS, NPPB, glibenclamide 100 μmol/l) blocked these channels. It is concluded that the luminal membrane of the rat pancreatic acinus possesses Cl–channels with very low conductance which are activated by carbachol.

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URL: http://dx.doi.org/10.1007/s004240050382

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4

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Transmitter-induced changes of the membrane voltage of HT29 cells (1992)

Lohrmann, E. ; Cabantchik, Z. I. ; Greger, R.

Springer

Pflügers Archiv 421 (1992), S. 224-229

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ISSN: 1432-2013

Keywords: Cl− conductance ; HT29 ; P2 receptor ; Colon ; Cl− secretion ; cAMP

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The colonic carcinoma cell line HT29 was used to examine the influence of agonists increasing cytosolic cAMP and Ca2+ activity on the conductances and the cell membrane voltage (V m). HT29 cells were grown on glass cover-slips. Cells were impaled by microelectrodes 4–10 days after seeding, when they had formed large plaques. In 181 impalements V m was −51±1 mV. An increase in bath K+ concentration from 3.6 mmol/l to 18.6 mmol/l or 0.5 mmol/l Ba2+ depolarized the cells by 10±1 mV (n=49) or by 9±2 mV (n=3), respectively. A decrease of bath Cl− concentration from 145 to 30 mmol/l depolarized the cells by 11±1 mV (n=24). Agents increasing intracellular cAMP such as isobutylmethylxanthine (0.1 mmol/l), forskolin (10 μmol/l) or isoprenaline (10 μmol/l) depolarized the cells by 6±1 (n=13), 15±3 (n=5) and 6±2 (n=3) mV, respectively. In hypoosmolar solutions (225 mosmol/l) cells depolarized by 9±1 mV (n=6). Purine and pyrimidine nucleotides depolarized the cells dose-dependently with the following potency sequence: UTP 〉 ATP 〉 ITP 〉 GTP 〉 TIP 〉 CTP = 0. The depolarization by ATP was stronger than that by ADP and adenosine. The muscarinic agonist carbachol led to a sustained depolarization by 27±6 mV (n=5) at 0.1 mmol/l, and to a transient depolarization by 12±4 mV (n=5) at 10 μmol/l. Neurotensin depolarized with a half-maximal effect at around 5 nmol/l. The depolarization induced by nucleotides and neurotensin was transient and followed by a hyperpolarization. We confirm that HT29 cells possess Cl−- and K+-conductive pathways. The Cl− conductance is regulated by intracellular cAMP level, cytosolic Ca2+ activity, and cell swelling. The K+ conductance in HT29 cells is regulated by intracellular Ca2+ activity.

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URL: http://dx.doi.org/10.1007/BF00374831

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Regulation of the Na+2Cl–K+ cotransporter in in vitro perfused rectal gland tubules of Squalus acanthias (1998)

Warth, R. ; Bleich, M. ; Thiele, I. ; [et al.]

Springer

Pflügers Archiv 436 (1998), S. 521-528

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ISSN: 1432-2013

Keywords: Key words cAMP ; Cl ; channels ; Cl ; secretion ; Exocrine secretion ; K+ channels ; Volume regulation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Previously it has been shown that the Na+2Cl–K+ cotransporter accepts NH4 + at its K+ binding site. This property can be used to estimate its transport rates by adding NH4 + to the bath and measuring the initial furosemide-dependent rates of change in BCECF fluorescence. We have utilized this technique to determine the regulation of the furosemide-inhibitable Na+2Cl–K+ cotransporter in in vitroperfused rectal gland tubules (RGT) of Squalus acanthias. Addition of NH4 + to the bath (20 mmol/l) led to an initial alkalinization, corresponding to NH3 uptake. This was followed by an acidification, corresponding to NH4 + uptake. The rate of this uptake was quantified by exponential curve fitting and is given in arbitrary units (Δfluorescence/time). This acidification could be completely inhibited by furosemide. In the absence of any secretagogue preincubation of RGT in a low Cl– solution (6 mmol/l, low Cl–) for 10 min enhanced the uptake rate significantly from 4.04±0.51 to 12.7±1.30 (n=5). The addition of urea (200 mmol/l) was without effect, but the addition of 300 mmol/l mannitol (+300 mannitol) enhanced the rate significantly from 7.24±1.33 to 14.7±4.6 (n=6). Stimulation of NaCl secretion by a solution maximizing the cytosolic cAMP concentration (Stim) led to a significant increase in NH4 + uptake rate from 5.00±1.33 to 13.3±1.54 (n=6). Similar results were obtained in the additional presence of Ba2+ (1 mmol/l): the uptake rate was increased significantly from 4.23±0.34 to 15.1±1.86 (n=16). In the presence of Stim low Cl– had no additional effect on the uptake rate: 15.1±3.1 versus 15.2±2.8 in high Cl– (n=6). The uptake rate in Stim containing additional +300 mannitol (22.3±4.0, n=5) was not significantly different from that obtained with Stim or +300 mannitol alone. By whatever mechanism the NH4 + uptake rate was increased furosemide (500 µmol/l) always reduced this rate to control values. Hence three manoeuvres enhanced furosemide-inhibitable uptake rates of the Na+2Cl–K+ cotransporter probably independently: (1) lowering of cytosolic Cl– concentration; (2) cell shrinkage; and (3) activation by cAMP.

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URL: http://dx.doi.org/10.1007/s004240050667

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6

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Crypt base cells show forskolin-induced Cl− secretion but no cation inward conductance (1996)

Ecke, D. ; Bleich, M. ; Greger, R.

Springer

Pflügers Archiv 431 (1996), S. 427-434

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ISSN: 1432-2013

Keywords: Key words Colon ; Loop diuretics ; Na+ channel ; Cl ; channel ; Non-selective channel ; Exocrine secretion

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Whole-cell patch-clamp studies in base cells of isolated colonic crypts of rats pretreated with dexa-methasone were performed to examine the effects of stimulation by forskolin (10 μmol/l). The experiments were designed in order to distinguish between two postulated effector mechanisms: the activation of a non-selective cation channel and the activation of Cl− channels. As shown in an accompanying report, forskolin depolarizes the membrane voltage (V m) by some 40–50 mV and enhances the whole-cell membrane conductance (G m) substantially in these cells. In this report all experiments were performed in the presence of forskolin. A reduction of the bath Na+ concentration from 145 to 2 mmol/l led to a hyperpolarization of V m by some 20–30 mV. This hyperpolarization occurred very slowly suggesting that the hyperpolarization produced by the low-Na+ solution was caused indirectly and not by a change in the equilibrium potential for Na+, E Na+. A complete kinetic analysis of the effect on voltage of bath Na+ revealed a saturation-type relation with a high apparent affinity for Na+ of around 5–10 mmol/l. A reduction in bath Cl− concentration from 145 to 32 mmol/l caused a depolarization of V m from −34 ± 3 to −20 ± 4 mV (n = 13) in the presence of a high bath Na+ concentration, but had the opposite effect at low (5 mmol/l) Na+ concentrations: V m was hyperpolarized from −46 ± 4 to −62 ± 6 mV (n = 13). If the effect of Na+ on V m was caused by a non-selective cation channel the opposite would have been expected. To test directly whether the Na+2Cl−K+ cotransporter was responsible for the effects of changes in bath Na+ on V m, the effects of increasing concentrations of several loop diuretics were examined. Furosemide, piretanide, torasemide and bumetanide (up to 0.1–0.5 mmol/l) all hyperpolarized V m, albeit only by less than 10 mV. Another subclass of loop diuretics containing a tetrazolate in position 1 [e.g. azosemide, no. 19A and no. 20A from Schlatter E, Greger R, Weidtke C (1983) Pflüger Arch 396: 210–217] were much more effective. Azosemide hyperpolarized V m from −46 ± 3 to −74 ± 2 mV (n = 18) and reduced G m from 11 ± 1 to 4 ± 1 nS (n = 14). These data indicate that forskolin stimulates Cl− secretion in these cells by a mechanism fully compatible with the current scheme for exocrine secretion involving the Na+2Cl−K+ cotransporter.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02207282

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7

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The Na+2Cl–K+ cotransporter in the rectal gland of Squalus acanthias is activated by cell shrinkage (1999)

Greger, R. ; Heitzmann, Dirk ; Hug, Martin J. ; [et al.]

Springer

Pflügers Archiv 438 (1999), S. 165-176

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ISSN: 1432-2013

Keywords: Key words Cell volume ; Cl ; secretion ; Exocrine secretion ; Na+2Cl ; K+ cotransporter ; Phalloidin

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Effects of cAMP on Cl– secretion, intracellular Cl– activity and cell volume were studied in isolated perfused rectal gland tubules (RGT) of Squalus acanthias with electrophysiological and fluorescence methods. Recording of equivalent short-circuit current (I sc) showed that cAMP stimulates Na+Cl– secretion in a biphasic manner. The first and rapid phase corresponds to Cl– exit via the respective protein-kinase-A- (PKA-) phosphorylated Cl– conductance. The inhibitory effect of the loop diuretic furosemide (0.5 mmol/l, n=12) indicates that second phase reflects the delayed (1–2 min) activation of the Na+2Cl–K+ cotransporter. During the first phase cytosolic Cl– activity, as monitored by 6-methoxy-N-(3-sulfopropyl) quinolinium (SPQ) fluorescence, fell to 78% (n=23) of the control value. Concomitantly, a transient fall in cell volume was recorded by calcein fluorescence to 92% (n=5) of the control value. Preincubation of the RGT with phalloidin (0.1 mmol/l, n=6) or cytochalasin D (0.1 mmol/l, n=4) almost completely prevented the development of the second phase of I sc activation. When cytosolic Cl– activity was increased by exposing the RGT to a high K+ concentration (25 mmol/l), in the presence of mannitol to prevent volume increases, stimulation was unaffected and biphasic. In contrast, when cell volume was clamped to an increased value (115%, n=8) by removing extracellular NaCl, the second phase was abolished completely (n=11). These data suggest that the primary and key process for triggering the Na+2Cl–K+ cotransport is transient cell shrinkage.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050895

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8

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Actin-dependent activation of ion conductances in bronchial epithelial cells (1995)

Hug, T. ; Koslowsky, T. ; Ecke, D. ; [et al.]

Springer

Pflügers Archiv 429 (1995), S. 682-690

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ISSN: 1432-2013

Keywords: Cl− conductance ; K+ conductance ; Brefeldin A ; Cytochalasin D ; Epithelial cells ; Actin ; Microtubules

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Activation of Cl− and K+ channels is necessary to drive ion secretion in epithelia. There is substantial evidence from previous reports that vesicular transport and exocytosis are involved in the regulation of ion channels. In the present study we examined the role of cytoskeletal elements and components of intracellular vesicle transport on ion channel activation in bronchial epithelial cells. To this end, cells were incubated with a number of different compounds which interact with either microtubules or actin microfilaments, or which interfere with vesicle transport in the Golgi apparatus. The effectiveness of these agents was verified by fluorescence staining of cellular microtubules and actin. The function was examined in 36Cl− efflux studies as well as in whole-cell (WC) patch-clamp and cell-attached studies. The cells were studied under control conditions and after exposure to (in mmol/l) ATP (0.1), forskolin (0.01), histamine (0.01) and hypotonic bath solution (HBS, NaCl 72.5). In untreated control cells, ATP primarily activated a K+ conductance whilst histamine and forskolin induced mainly a Cl− conductance. HBS activated both K+ and Cl− conductances. Incubation of the cells with brefeldin A (up to 100 μmol/l) did not inhibit WC current activation and 36Cl− efflux. Nocodazole (up to 170 μmol/l) reduced the ATP-induced WC current, and mevastatin (up to 100 μmol/l) the cell-swelling-induced WC current. Neither had any effect on the WC current induced by forskolin and histamine. Also 36Cl− efflux induced by HBS, ATP, forskolin and histamine was unaltered by these compounds. Similarly, colchicine (10 μmol/l) and taxol (6 μmol/l) affected neither 36Cl− efflux nor WC current induced by ATP, forskolin, histamine or HBS. In contrast, depolymerisation of actin by cytochalasin D (10 μmol/l) significantly attenuated 36Cl− effluxes and WC current activation by the above-mentioned agonists. Incubation with a C2 clostridial toxin (5 nmol/l) showed similar effects on WC currents. Moreover, when cytochalasin D (10 μmol/l), C2 clostridial toxins (5 nmol/l), or phalloidin (10 μmol/l) were added to the pipette filling solution current activation was markedly reduced. However, in excised inside-out membrane patches, cytochalasin D (10 μmol/l), G-actin (10 μmol/l) and phalloidin (10 μmol/l) had no effect. These data suggest that actin participates in the activation of ion channels in 16HBE14o- epithelial cells and support the concept that exocytosis is a crucial step in the regulation of Cl− and K+ channels in these cells.

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URL: http://dx.doi.org/10.1007/BF00373989

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Ca2+ influx induced by store release and cytosolic Ca2+ chelation in HT29 colonic carcinoma cells (1995)

Kerst, G. ; Fischer, K. -G. ; Normann, C. ; [et al.]

Springer

Pflügers Archiv 430 (1995), S. 653-665

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ISSN: 1432-2013

Keywords: Ca2+ channel ; Stimulation-secretion coupling ; Exocrine secretion ; Colon

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Cl− secretion in HT29 cells is regulated by agonists such as carbachol, neurotensin and adenosine 5′-triphosphate (ATP). These agonists induce Ca2+ store release as well as Ca2+ influx from the extracellular space. The increase in cytosolic Ca2+ enhances the Cl− and K+ conductances of these cells. Removal of extracellular Ca2+ strongly attenuates the secretory response to the above-mentioned agonists. The present study utilises patch-clamp methods to characterise the Ca2+ influx pathway. Inhibitors which have been shown previously to inhibit non-selective cation channels, such as flufenamate (0.1 mmol·l−1, n=6) and Gd3+ (10 μmol·l−1, n=6) inhibited ATP (0.1 mmol·l−1) induced increases in whole-cell conductance (G m). When Cl− and K+ currents were inhibited by the presence of Cs2SO4 in the patch pipette and gluconate in the bath, ATP (0.1 mmol·l−1) still induced a significant increase in G m from 1.2±0.3 nS to 4.7±1 nS (n=24). This suggests that ATP induces a cation influx with a conductance of approximately 3–4 nS. This cation influx was inhibited by flufenamate (0.1 mmol·l−1, n=6) and Gd3+ (10 μmol·l−1, n=9). When Ba2+ (5 mmol·l−1) and 4,4′-diisothiocyanatostilbene-2-2′-disulphonic acid (DIDS, 0.1 mmol·l−1) were added to the KCl/K-gluconate pipette solution to inhibit K+ and Cl− currents and the cells were clamped to depolarised voltages, ATP (0.1 mmol·l−1) reduced the membrane current (I m) significantly from 86±14 pA to 54±11 pA (n=13), unmasking a cation inward current. In another series, the cation inward current was activated by dialysing the cell with a KCl/K-gluconate solution containing 5–10 mmol·l−1 1,2-bis-(2-aminoethoxy)ethane-N,N,N′,N′-tetraacetic acid (EGTA) or 1,2-bis-(2-aminophenoxy) ethane-N,N,N′,N′-tetraacetic acid (BAPTA). The zero-current membrane voltage (V m) and I m (at a clamp voltage of +10 mV) were monitored as a function of time. A new steady-state was reached 30–120 s after membrane rupture. V m depolarised significantly from −33±2 mV to −12±1 mV, and I m fell significantly from 17±2 pA to 8.9±1.0 pA (n=71). This negative current, representing a cation inward current, was activated when Ca2+ stores were emptied and was reduced significantly (ΔI m) when Ca2+ and/or Na+ were removed from the bathing solution: removal of Ca2+ in the absence of Na+ caused a ΔI m of 5.0±1.2 pA (n=12); removal of Na+ in the absence of Ca2+ caused a ΔI m of 12.8±3.5 pA (n=4). The cation inward current was also reduced significantly by La3+, Gd3+, and flufenamate. We conclude that store depletion induces a Ca2+/Na+ influx current in these cells. With 145 mmol·l−1 Na+ and 1 mmol·l−1 Ca2+, both ions contribute to this cation inward current. This current is an important component in the agonist-regulated secretory response.

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URL: http://dx.doi.org/10.1007/BF00386159

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N-Acetyl-l-cysteine and its derivatives activate a Cl− conductance in epithelial cells (1996)

Köttgen, M. ; Busch, A. E. ; Hug, M. J. ; [et al.]

Springer

Pflügers Archiv 431 (1996), S. 549-555

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ISSN: 1432-2013

Keywords: N-Acetyl-l-cysteine-S-Carboxymethyl-l-cysteine ; Respiratory epithelial cells ; Cystic fibrosis ; CFTR ; Cl− conductance

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract N-Acetyl-l-cysteine (NAC) is a widely used mucolytic drug in patients with a variety of respiratory disorders including cystic fibrosis (CF). The beneficial effects of NAC are empirical and the exact mechanism of action in the airways remains obscure. In the present study we examined the effects on whole-cell (we) conductance (G m) and voltage (V m) of NAC and the congeners S-carboxymethyl-l-cysteine (CMC) andS-carbamyl-L-cysteine (CAC) andL-cysteine in normal and CF airway epithelial cells.L-Cysteine (1 mmol/1) had no detectable effect. The increase inG m (ΔGm) by the other compounds was concentration dependent and was (all substances at 1 mmol/1) 3.8 ± 1.4 nS (NAC; n = 11), 4.2 ± 1.0 nS (CMC;n = 16) and 3.8 ± 1.6 nS (CAC;n = 18), respectively. The changes in Gm were paralleled by an increased depolarization (ΔVm) when extracellular Cl− concentration was reduced to 34 mmol/1: under control conditions = -4.1 ± 2.1 versus 10.2 ± 2.1 mV in the presence of NAC, CMC, CAC (n = 36). In the presence of NAC, CMC and CAC, the reduction in Cl− concentration was paralleled by a reduction ofG m by 2.1 ± 0.4 nS (n = 35), indicating that all substances acted by increasing the Cl− conductance. Analysis of intracellular pH did not reveal any changes by any of the compounds (1 mmol/1). A Cl− conductance was also activated in HT29 colonic carcinoma and CF tracheal epithelial (CFDE) cells but not in CFPA1 cells, which do not express detectable levels of ΔF508-CFTR, suggesting that the presence of CFTR may be a prerequisite for the induction of Cl− currents. Next we examined the ion currents in Xenopus oocytes microinjected with CFTR-cRNA. Water-injected oocytes did not respond to activation by forskolin and 3-isobutyl-l-methylxanthine (IBMX) (ΔGm = 0.08 ±0.04 μS;n = 10) and no current was activated when these oocytes were exposed to NAC or CMC. In contrast, in CFTR-cRNA-injected cocytesG m was enhanced when intracellular adenosine 3′,5′-cyclic monophosphate (cAMP) was increased by forskolin and IBMX (G m = 4.5 ± 1.3 μS;n = 8).G m was significantly increased by 0.74 ± 0.2 μS (n = 11) and 0.46 ± 0.1 μS (n = 10) when oocytes were exposed to NAC and CMC, respectively (both I mmol/1). In conclusion, NAC and its congeners activate Cl− conductances in normal and CF airway epithelial cells and hence induce electrolyte secretion which may be beneficial in CF patients. CFTR appears to be required for this response in an as yet unknown fashion.

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URL: http://dx.doi.org/10.1007/BF02191902

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