H Fischer

Publications (24)70.28 Total impact

• Article: Structural determinants for activation and block of CFTR-mediated chloride currents by apigenin.

  B Illek, M E Lizarzaburu, V Lee, M H Nantz, M J Kurth, H Fischer
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  ABSTRACT: Apigenin (4',5,7-trihydroxyflavone) is an activator of cystic fibrosis transmembrane conductance regulator (CFTR)-mediated Cl(-) currents across epithelia at low concentrations and a blocker at high concentrations. We determined the roles of structural components of apigenin for both stimulation and block of Cl(-) currents across Calu-3 epithelia. The half-maximal binding affinity of apigenin for current stimulation (K(s)) was 9.1 +/- 1.3 microM, and the rank-order of molecular structures was 7-hydroxyl > pyrone = 4'-hydroxyl > 5-hydroxyl. Both the 7-hydroxyl and the 4'-hydroxyl served as H-bond acceptors, whereas the 5-hydroxyl was an H-bond donor. The half-maximal binding affinity of apigenin during current block was 74 +/- 11 microM. Blocked Cl(-) currents were structurally determined by 7-hydroxyl = 4'-hydroxyl > pyrone > 5-hydroxyl. Prestimulation of tissues with forskolin significantly affected activation kinetics and binding characteristics. After forskolin stimulation, K(s) was 4.1 +/- 0.9 microM, which was structurally determined by pyrone > all hydroxyls > single hydroxyls. In contrast, block of Cl(-) current by apigenin was not affected by forskolin stimulation. We conclude that apigenin binds to a stimulatory and an inhibitory binding site, which are distinguished by their affinities and the molecular interactions during binding.
  AJP Cell Physiology 12/2000; 279(6):C1838-46. · 3.54 Impact Factor
• Source

  Available from: Richard B Moss

  Article: Defective function of the cystic fibrosis-causing missense mutation G551D is recovered by genistein.

  B Illek, L Zhang, N C Lewis, R B Moss, J Y Dong, H Fischer
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  ABSTRACT: The patch-clamp technique was used to investigate the effects of the isoflavone genistein on disease-causing mutations (G551D and DeltaF508) of the cystic fibrosis transmembrane conductance regulator (CFTR). In HeLa cells recombinantly expressing the trafficking-competent G551D-CFTR, the forskolin-stimulated Cl currents were small, and average open probability of G551D-CFTR was P(o) = 0.047 +/- 0.019. Addition of genistein activated Cl currents approximately 10-fold, and the P(o) of G551D-CFTR increased to 0.49 +/- 0.12, which is a P(o) similar to wild-type CFTR. In cystic fibrosis (CF) epithelial cells homozygous for the trafficking-impaired DeltaF508 mutation, forskolin and genistein activated Cl currents only after 4-phenylbutyrate treatment. These data suggested that genistein activated CFTR mutants that were present in the cell membrane. Therefore, we tested the effects of genistein in CF patients with the G551D mutation in nasal potential difference (PD) measurements in vivo. The perfusion of the nasal mucosa of G551D CF patients with isoproterenol had no effect; however, genistein stimulated Cl-dependent nasal PD by, on average, -2.4 +/- 0.6 mV, which corresponds to 16.9% of the responses (to beta-adrenergic stimulation) found in healthy subjects.
  The American journal of physiology 11/1999; 277(4 Pt 1):C833-9.
• Article: Efficient CFTR expression from AAV vectors packaged with promoters--the second generation.

  D Wang, H Fischer, L Zhang, P Fan, R X Ding, J Dong
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  ABSTRACT: Gene therapy studies of cystic fibrosis (CF) have shown that AAV-based vector was efficient in transferring but not in expressing the CFTR cDNA in the target cells. The levels of CFTR gene expression were limited by the small packaging capacity of AAV because it had been difficult to package the CFTR cDNA with an efficient promoter. In the present study we have developed a new generation of AAV/CFTR vectors which contain efficient short promoters to express the CFTR gene in target cells. To do so, we reduced the size of the CFTR cDNA by determining the minimal untranslated regions required for expression of CFTR cDNA. We also identified short and efficient promoters that could be packaged with the down-sized CFTR cDNA into a novel AAV vector that had a maximal packaging capacity. Functional analyses showed that the new vectors were packaged efficiently and expressed higher levels of CFTR than a vector in which the CFTR gene was driven by the ITR sequence of AAV. Transduction of airway epithelial cells containing [symbol: see text] 508 mutation with the new vectors demonstrated efficient expression of the wild-type CFTR and correction of the CF phenotype. In contrast, no significant CFTR expression was detected in cells infected with the vector that express the CFTR gene from the ITR. These findings support the notion that the AAV can be developed into an efficient vector to transduce the CFTR gene and vectors expressing higher levels of CFTR from an efficient promoter should provide better efficacy for gene therapy of cystic fibrosis.
  Gene Therapy 05/1999; 6(4):667-75. · 3.71 Impact Factor
• Article: Anion selectivity of apical membrane conductance of Calu 3 human airway epithelium.

  B Illek, A W Tam, H Fischer, T E Machen
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  ABSTRACT: Anion selectivity of the cystic fibrosis conductance transmembrane conductance regulator (CFTR) and other channels and parallel pathways expressed endogenously in apical membranes of polarized Calu-3 epithelial monolayers was studied under control conditions and during cAMP stimulation. Basolateral membranes were eliminated using alpha-toxin. The cAMP-stimulated, gradient-driven currents had the sequence Br>/=Cl>/=NO3>SCN> I>/=F>formate>HCO3>acetate>propionate=butyrate=ATP= PPi=PO4=SO4=0. Selectivity of parallel cAMP-independent pathway(s) was Br>Cl=SCN=NO3>I>formate=F >HCO3>acetate>propionate. SCN, I, F or formate blocked cAMP-stimulated, but not control, Cl currents. Anions >0.53 nm in diameter were impermeant, suggesting that the apical CFTR channel has a limiting diameter of 0.53 nm. The selectivity, blocking patterns and pore size of the cAMP-stimulated conductance pathway were very similar to those in previous reports in which CFTR was heterologously expressed in non-epithelial cells. Thus, CFTR appears to be the major apical anion conductance pathway in Calu-3 cells, and its conduction properties are independent of the expression system. CFTR in Calu-3 cells also conducts physiologically relevant anions, but not ATP, PO4 or SO4. A pathway parallel (probably a tight junction) showed a different selectivity than CFTR.
  Pflügers Archiv - European Journal of Physiology 05/1999; 437(6):812-22. · 4.46 Impact Factor
• Article: Genetic disorders of membrane transport. II. Regulation of CFTR by small molecules including HCO3-.

  B Illek, H Fischer, T E Machen
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  ABSTRACT: Cystic fibrosis (CF) affects a number of epithelial tissues, including those in the gastrointestinal tract. The goal of this review is to summarize data related to regulation of the protein product of the CF gene, CF transmembrane conductance regulator (CFTR), by a variety of small molecules. There has been a surge of interest in discovering small molecules that could be exogenously added to cells and tissues to regulate CFTR and could potentially be used alone or in combination with genetic approaches for therapy in CF. We will discuss the apparent mechanisms of action of genistein, milrinone, 8-cyclopentyl-1,3-dipropylxanthine, IBMX, and NS-004; several of which appear to interact directly with one or both nucleotide binding domains of CFTR. We also discuss how HCO-3 interacts with CFTR as both a permeating anion and a potential regulator of Cl- permeation through the CFTR ion channel. It is likely that there are complicated interactions between Cl- and HCO-3 in the secretion of both ions through the CFTR and the anion exchanger in intestinal cells, and these may yield a role of CFTR in regulation of intestinal HCO-3 secretion as well as of intra- and extracellular pH.
  The American journal of physiology 01/1999; 275(6 Pt 1):G1221-6.
• Article: cAMP-dependent absorption of chloride across airway epithelium.

  S N Uyekubo, H Fischer, A Maminishkis, B Illek, S S Miller, J H Widdicombe
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  ABSTRACT: Elevated levels of Na and Cl in airway surface liquid may play a major role in the airway pathology of cystic fibrosis (CF) (J. J. Smith, S. M. Travis, E. P. Greenberg, and M. J. Welsh. Cell 85: 229-236, 1996) and could be caused by block of transcellular Cl absorption due to lack of a functional CF transmembrane conductance regulator (CFTR). To test for transcellular absorption of Cl across non-CF epithelium, we studied how fluid absorption was affected by the opening and closing of Cl channels. Forskolin (an activator of CFTR) tripled fluid absorption across primary cultures of bovine tracheal epithelium but had no effect on human cells. However, in both species, fluid absorption was markedly inhibited by 5-nitro-2-(3-phenylpropylamino)benzoate, a blocker of CFTR. Microelectrode studies suggested that the magnitude of the absorptive response to forskolin in bovine cells depended on the size of an inwardly directed electrochemical driving force for Cl movement across the apical membrane. Patch-clamp measurements of bovine cells revealed CFTR in the apical membrane and a cAMP-activated, inwardly rectifying Cl channel in the basolateral membrane. We conclude that a significant fraction of absorbed Cl passes transcellularly in bovine tracheal epithelial cultures, with CFTR as the path of entry in the apical membrane and a novel cAMP-activated Cl channel as the exit route in the basolateral membrane. Our data further indicate that a similar pathway may exist in non-CF human tracheal epithelium.
  The American journal of physiology 01/1999; 275(6 Pt 1):L1219-27.
• Article: Flavonoids stimulate Cl conductance of human airway epithelium in vitro and in vivo.

  B Illek, H Fischer
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  ABSTRACT: The ability of the flavonoids genistein, apigenin, kaempferol, and quercetin to activate cystic fibrosis transmembrane conductance regulator-mediated Cl currents in human airway epithelium was investigated. We used the patch-clamp technique on single Calu-3 cells, transepithelial measurements in Calu-3 monolayers, and in vivo measurements of nasal potential difference. All flavonoids stimulated Cl currents in transepithelial experiments dose dependently. Half-maximal stimulatory concentrations were kaempferol (5.5 +/- 1.7 microM) </= apigenin (11.2 +/- 2.1 microM) </= genistein (13.6 +/- 3.5 microM) </= quercetin (22.1 +/- 4.5 microM). Stimulation of monolayers with forskolin significantly increased their sensitivity to flavonoids: kaempferol (2.5 +/- 0.7 microM) </= apigenin (3.4 +/- 0.9 microM) </= quercetin (4.1 +/- 0.7 microM) </= genistein (6.9 +/- 2.2 microM). Forskolin pretreatment significantly reduced the Hill coefficient (nH) for all flavonoids. Control monolayers showed nH = 2.00 +/- 0.21 (all flavonoids combined), and forskolin-stimulated monolayers showed nH = 1.07 +/- 0.07, which was not different among the flavonoids. These data imply that the activation kinetics and the binding site(s) for flavonoids were significantly altered by forskolin stimulation. In whole cell patch-clamp experiments, maximal flavonoid-stimulated currents (percentage of forskolin-stimulated currents) were apigenin (429 +/- 86%) >/= kaempferol (318 +/- 45%) >/= genistein (258 +/- 20%) = quercetin (256 +/- 26%). Stimulation of the currents was caused by an increase in channel open probability. No other Cl conductances contributed significantly to the flavonoid-activated Cl currents in Calu-3 cells. In vivo, flavonoids significantly stimulated nasal potential difference by, on average, 27.8% of isoproterenol responses.
  The American journal of physiology 12/1998; 275(5 Pt 1):L902-10.
• Source

  Available from: pnas.org

  Article: Efficient expression of CFTR function with adeno-associated virus vectors that carry shortened CFTR genes.

  L Zhang, D Wang, H Fischer, P D Fan, J H Widdicombe, Y W Kan, J Y Dong
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  ABSTRACT: Adeno-associated virus (AAV)-based vectors have been shown to be effective in transferring the cystic fibrosis gene (CFTR) into airway epithelial cells in animal models and in patients. However, the level of CFTR gene expression has been low because the vector cannot accommodate the CFTR gene together with a promoter. In this study, we described a strategy to reduce the size of the CFTR cDNA to allow the incorporation of an effective promoter with the CFTR gene into AAV vectors. We engineered and tested 20 CFTR mini-genes containing deletions that were targeted to regions that may contain nonessential sequences. Functional analyses showed that four of the shortened CFTRs (one with combined deletions) retained the function and the characteristics of a wild-type CFTR, as measured by open probability, time voltage dependence, and regulation by cAMP. By using an AAV vector with a P5 promoter, we transduced these short forms of CFTR genes into target cells and demonstrated high levels of CFTR expression. We also demonstrated that smaller AAV/CFTR vectors with a P5 promoter expressed the CFTR gene more efficiently than larger vectors or a vector in which CFTR gene was expressed from the AAV inverted terminal repeat sequence. The CFTR mini-gene with combined deletions was packaged into AAV virions more efficiently, generated higher titers of transducing virions, and more effectively transferred CFTR function into target cells. These new vectors should circumvent the limitations of AAV vector for CFTR expression. Our strategy also may be applicable to other genes, the sizes of which exceed the packaging limit of an AAV vector.
  Proceedings of the National Academy of Sciences 09/1998; 95(17):10158-63. · 9.68 Impact Factor
• Source

  Available from: nih.gov

  Article: The tyrosine kinase p60c-src regulates the fast gate of the cystic fibrosis transmembrane conductance regulator chloride channel.

  H Fischer, T E Machen
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  ABSTRACT: The role of the tyrosine kinase p60c-src on the gating of the cystic fibrosis transmembrane conductance regulator (CFTR) chloride channel was investigated with the cell-attached and excised patch clamp technique in conjunction with current noise analysis of recordings containing multiple channels per patch. Spectra of CFTR-generated current noise contained a low-frequency and a high-frequency Lorentzian noise component. In the cell-attached mode, the high-frequency Lorentzian was significantly dependent on the membrane potential, while the low-frequency Lorentzian was unaffected. Excision of forskolin-stimulated patches into ATP-containing solution significantly reduced the amplitude of the voltage-dependent high-frequency Lorentzian. Addition of the tyrosine kinase p60c-src to excised, active, CFTR-containing membrane patches increased mean currents by 54%, increased the corner frequency of the low-frequency Lorentzian, and recovered the high-frequency Lorentzian and its characteristics. Treatment with lambda-phosphatase inactivated src-induced currents and changes in gating. When active patches were excised under conditions in which patch-associated tyrosine phosphatases were blocked with sodium vanadate, the high-frequency gating remained relatively unchanged. The results suggest that CFTR's open probability and its voltage-dependent fast gate are dependent on tyrosine phosphorylation, and that membrane-associated tyrosine phosphatases are responsible for inactivation of the fast gate after patch excision.
  Biophysical Journal 01/1997; 71(6):3073-82. · 3.65 Impact Factor
• Article: Alternate stimulation of apical CFTR by genistein in epithelia.

  B Illek, H Fischer, T E Machen
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  ABSTRACT: The cystic fibrosis transmembrane regulator (CFTR) is a Cl- channel regulated by adenosine 3',5'-cyclic monophosphate (cAMP)-dependent protein kinase A. A cAMP-independent activation has been recently shown for the protein tyrosine kinase inhibitor genistein in CFTR-transfected NIH/3T3 fibroblasts. We further studied the role of genistein on Cl- secretion in HT-29/B6 and T84 colonic epithelial cells, which express native CFTR in their apical membranes. Transepithelial Cl- secretion was more effectively stimulated in T84 cells when compared with HT-29/B6 cells by mucosal perfusion with 50 microM genistein. Genistein, like the cAMP agonist forskolin, stimulated CFTR activity in cell-attached patches of single cells with similar slope conductances of 8.5 +/- 0.5 and 9.2 +/- 0.3 pS, respectively. Monolayers in Ussing chambers were basolaterally permeabilized with the pore former alpha-toxin, and gradient-driven Cl- current across the apical membrane (ICl) was measured. ICl was stimulated by serosal (i.e., cytosolic) cAMP (half-maximal stimulatory concentration = 9.8 +/- 1.9 microM). In the presence of cAMP (> 5 microM), subsequent mucosal, but not serosal, addition of genistein further increased Icl by approximately 16%; in the absence of cytosolic cAMP, genistein had no effect on ICl. The inactive analogue daidzein had no effect. When cAMP agonists were removed in the continued presence of genistein, ICl remained elevated in both permeabilized and intact monolayers as well as in cell-attached patches of single cells. In addition, genistein blocked K- currents across the basolateral membrane in apically amphotericin B-permeabilized monolayers (half maximal inhibitory concentration = 44.2 +/- 8.1 microM). Therefore, in intact epithelia, the overall secretory response to genistein is composed of stimulatory effects on the apical CFTR and inhibitory effects on the basolateral K+ conductance. We propose that genistein blocks a phosphatase, which regulates CFTR during cAMP-dependent stimulation.
  The American journal of physiology 01/1996; 270(1 Pt 1):C265-75.
• Source

  Available from: Beate Illek

  Article: The actin filament disrupter cytochalasin D activates the recombinant cystic fibrosis transmembrane conductance regulator Cl- channel in mouse 3T3 fibroblasts.

  H Fischer, B Illek, T E Machen
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  ABSTRACT: 1. Cytochalasin D (CD; 5 microM) readily stimulated cystic fibrosis transmembrane conductance regulator (CFTR) Cl- channel activity in cell-attached and whole-cell patch recordings from 3T3 fibroblasts expressing recombinant CFTR but not in mock-transfected cells. CD-stimulated currents were indistinguishable from those evoked by forskolin stimulation. Kinetic analysis of CFTR gating showed identical channel behaviour independent of the agonist used. 2. To elucidate the mechanism of action of CD we tested its effects on cAMP, protein kinase A, and the CFTR itself during CD stimulation. In contrast to forskolin treatment, CD did not increase cellular cAMP content. 3. A direct interaction of CD with the CFTR was ruled out because CD showed no effect on CFTR in excised inside-out patches. 4. CD effects were fully blocked when the cellular protein kinase A was inhibited by treatment of cells with RpcAMPS in cell-attached patches or when protein kinase inhibitor peptide was dialysed into cells in whole-cell experiments. 5. Addition of G-actin to excised patches had no effects on CFTR. 6. We conclude that the stimulatory effect of CD is cAMP independent, but needs a functional protein kinase A in order to activate the CFTR. We propose that cytochalasin D activates CFTR by releasing a cellular inhibitor, e.g. a phosphatase, that is held in place by F-actin.
  The Journal of Physiology 01/1996; 489 ( Pt 3):745-54. · 4.72 Impact Factor
• Article: cAMP-independent activation of CFTR Cl channels by the tyrosine kinase inhibitor genistein.

  B Illek, H Fischer, G F Santos, J H Widdicombe, T E Machen, W W Reenstra
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  ABSTRACT: Genistein, a protein tyrosine kinase inhibitor, activates the cystic fibrosis transmembrane conductance regulator (CFTR) in transfected NIH-3T3 fibroblasts that express the CFTR (3T3-CFTR). CFTR activity was assayed by 125I efflux and by patch clamping in the cell-attached mode. Both forskolin and genistein stimulated 125I efflux and activated a 9-10 pS anion channel in 3T3-CFTR cells but failed to activate 125I efflux in mock-transfected NIH-3T3 cells. Genistein, unlike forskolin and 3-isobutyl-1-methylxanthine, did not increase intracellular adenosine 3',5'-cyclic monophosphate (cAMP) above control levels. This demonstrates that genistein-dependent activation does not involve inhibition of phosphodiesterase activity and suggests that stimulation does not involve a direct activation of protein kinase A. Genistein stimulated 125I efflux to approximately 50% of the maximal rate with forskolin. Genistein did not increase 125I efflux at saturating forskolin but decreased the concentration of forskolin required for half-maximal stimulation. Orthovanadate (VO4), a phosphotyrosine phosphatase inhibitor, inhibited genistein-induced channel activation with an inhibition constant of approximately 20 microM. These effects suggest that, in addition to activation by protein kinase A, the CFTR is regulated by a tyrosine kinase-dependent pathway.
  The American journal of physiology 05/1995; 268(4 Pt 1):C886-93.
• Source

  Available from: PubMed Central

  Article: CFTR displays voltage dependence and two gating modes during stimulation.

  H Fischer, T E Machen
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  ABSTRACT: The patch-clamp technique in conjunction with current noise analysis was employed to clarify the events underlying the regulation of the CFTR (cystic fibrosis transmembrane conductance regulator) during cAMP-dependent stimulation. 3T3 fibroblast cells expressing the CFTR were stimulated in cell-attached mode with forskolin. The number (N) of activated channels per patch ranged from 1 to approximately 100. In true single-channel recordings, CFTR's gating was best described by two open states (approximately 5 and approximately 100 ms) and three closed states (< or = 5, approximately 100, and approximately 1,000 ms). Current noise analysis resulted in spectra containing two distinct Lorentzian noise components with corner frequencies of 1.3 Hz and approximately 50 Hz, respectively. Single-channel time constants were dependent on voltage. The fastest closed state increased its contribution from 48% at +100 mV to 87% at -100 mV, and the medium open state reduced its length to one half, resulting in gating dominated by fast events. Similarly, the fast Lorentzian increased its amplitude, and its corner frequency increased from 44 Hz at +100 mV to 91 Hz at -100 mV, while the slow Lorentzian was voltage independent. In multi-channel recordings N.Po (i.e., N times open probability) increased significantly, on average by 52% between -90 and +90 mV. Stimulation with forskolin increased Po of CFTR to approximately 0.5, which resulted from a decrease of the longest closed state while the faster open and closed states were unaffected. Neither corner frequency was affected during stimulation. Recordings from multichannel patches revealed in addition, unique, very long channel openings (high Po mode, average 13 s). Channels exhibiting high Po (i.e., Po approximately 1.0) or low Po (i.e., Po approximately 0.5) gating modes were both present in multichannel recordings, and CFTRs switched modes during stimulation. In addition, the switch to the high Po mode appeared to be a cooperative event for channel pairs. High forskolin concentration (i.e., 10 microM) favored transition into the high Po mode, suggesting a cellularly mediated regulation of model switching due to a fundamental change in configuration of the CFTR. Thus, during stimulation the CFTR increased its activity through two distinct effects: the reduction of the long closed state and modal switching to the high Po mode.
  The Journal of General Physiology 09/1994; 104(3):541-66. · 3.84 Impact Factor
• Source

  Available from: Beate Illek

  Article: Bicarbonate conductance and pH regulatory capability of cystic fibrosis transmembrane conductance regulator.

  J H Poulsen, H Fischer, B Illek, T E Machen
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  ABSTRACT: The cystic fibrosis transmembrane conductance regulator (CFTR) is an epithelial Cl- channel regulated by protein kinase A. The most common mutation in cystic fibrosis (CF), deletion of Phe-508 (delta F508-CFTR), reduces Cl- secretion, but the fatal consequences of CF have been difficult to rationalize solely in terms of this defect. The aim of this study was to determine the role of CFTR in HCO3- transport across cell membranes. HCO3- permeability was assessed from measurements of intracellular pH [pHi; from spectrofluorimetry of the pH-sensitive dye 2',7'-bis(2-carboxyethyl)-5-(and -6)carboxyfluorescein] and of channel activity (patch clamp; cell attached and isolated, inside-out patches) on NIH 3T3 fibroblasts and C127 mammary epithelial cells transfected with wild-type CFTR (WT-CFTR) or delta F508-CFTR, and also on mock-transfected cells. When WT-CFTR-transfected cells were acidified (pulsed with NH4Cl) and incubated in Na(+)-free (N-methyl-D-glucamine substitution) solutions (to block Na(+)-dependent pHi regulatory mechanisms), pHi remained acidic (pH approximately 6.5) until the cells were treated with 20 microM forskolin (increases cellular [cAMP]); pHi then increased toward (but not completely to) control level (pHi 7.2) at a rate of 0.055 pH unit/min. Forskolin had no effect on rate of pHi recovery in delta F508 and mock-transfected cells. This Na(+)-independent, forskolin-dependent pHi recovery was not observed in HCO3-/CO2-free medium. Forskolin-treated WT-CFTR-transfected (but not delta F508-CFTR or mock-transfected) cells in Cl(-)-containing, HCO3(-)-free solutions showed Cl- channels with a linear I/V relationship and a conductance of 10.4 +/- 0.5 pS in symmetrical 150 mM Cl-. When channels were incubated with different [Cl-] and [HCO3-] on the inside and outside, the Cl-/HCO3- permeability ratio (determined from reversal potentials of I/V curves) was 3.8 +/- 1.0 (mean +/- SEM; n = 9); the ratio of conductances was 3.9 +/- 0.5 (at 150 mM Cl- and 127 mM HCO3-. We conclude that in acidified cells the WT-CFTR functions as a base loader by allowing a cAMP-dependent influx of HCO3- through channels that conduct HCO3- about one-quarter as efficiently as it conducts Cl-. Under physiological conditions, the electrochemical gradients for both Cl- and HCO3- are directed outward, so CFTR likely contributes to the epithelial secretion of both ions. HCO3- secretion may be important for controlling pH of the luminal, but probably not the cytoplasmic, fluid in CFTR-containing epithelia. In CF, a decreased secretion of HCO3- may lead to decreased pH of the luminal fluid.
  Proceedings of the National Academy of Sciences 07/1994; 91(12):5340-4. · 9.68 Impact Factor
• Article: Quinidine-sensitive K+ channels in the basolateral membrane of embryonic coprodeum epithelium: regulation by aldosterone and thyroxine.

  B Illek, H Fischer, W Clauss
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  ABSTRACT: Basolateral K+ channels and their regulation during aldosterone- and thyroxine-stimulated Na+ transport were studied in the lower intestinal epithelium (coprodeum) of embryonic chicken in vitro. Isolated tissues of the coprodeum were mounted in Ussing chambers and investigated under voltage-clamped conditions. Simultaneous stimulation with aldosterone (1 mumol.l-1) and thyroxine (1 mumol.l-1) raised short-circuit current after a 1- to 2-h latent period. Maximal values were reached after 6-7 h of hormonal treatment, at which time transepithelial Na+ absorption was more than tripled (77 +/- 11 microA.cm-2) compared to control (24 +/- 8 microA.cm-2). K+ currents across the basolateral membrane were investigated after permeabilizing the apical membrane with the pore-forming antibiotic amphotericin B and application of a mucosal-to-serosal K+ gradient. This K+ current could be dose dependently depressed by the K+ channel blocker quinidine. Fluctuation analysis of the short-circuit current revealed a spontaneous and a blocker-induced Lorentzian noise component in the power density spectra. The Lorentzian corner frequencies increased linearly with the applied blocker concentration. This enabled the calculation of single K+ channel current and K+ channel density. Single K+ channel current was not affected by stimulation, whereas the number of quinidine-sensitive K+ channels in the basolateral membrane increased from 11 to 26.10(6).cm-2 in parallel to the hormonal stimulation transepithelial Na+ transport. This suggests that the basolateral membrane is a physiological target during synergistic aldosterone and thyroxine regulation of transepithelial Na+ transport for maintaining intracellular K+ homeostasis.
  Journal of Comparative Physiology B 02/1993; 163(7):556-62. · 1.97 Impact Factor
• Article: Intracellular Ca2+ signalling is modulated by K+ channel blockers in colonic epithelial cells (HT-29/B6).

  B Illek, H Fischer, T E Machen
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  ABSTRACT: We investigated the inhibitory action of K+ channel blockers on carbachol-stimulated Ca2+ entry into human Cl(-)-secretory colonic epithelial cells (HT-29/B6). Digital imaging of the fluorescent calcium indicator dye fura-2 was performed to monitor effects of K+ channel blockers on cytosolic calcium in resting and carbachol-stimulated HT-29/B6 cells. Stimulation with the muscarinic agonist carbachol (100 microM) caused a clearly biphasic intracellular calcium (Cai) response: Cai was stimulated from resting levels (85 +/- 3 nM, n = 100) to a sudden transient peak (821 +/- 44 nM) followed by a sustained plateau (317 +/- 12 nM). The maintained elevation was dependent on external Ca2+ and represented a new steady state between Ca2+ entry and exit across the plasma membrane. A monophasic Ca2+ response was induced in the absence of external Ca2+ and after the initial peak Cai returned to baseline. The Cai plateau was reduced to resting levels by either the muscarinic antagonist atropine (1 microM) or the inorganic Ca2+ channel blocker lanthanum (effective concentration for 50% inhibition of Cai plateau EC50 = 68 +/- 18 nM), but it was unaffected by the organic Ca2+ channel blockers verapamil and nifedipine. Barium, lidocaine and 4-nitro- 2-(3-phenylpropylamino)benzoate (NPPB), well-known blockers of basolateral K+ channels of HT-29/B6 cells, rapidly and reversibly reduced carbachol-stimulated Ca2+ entry.(ABSTRACT TRUNCATED AT 250 WORDS)
  Pflügers Archiv - European Journal of Physiology 11/1992; 422(1):48-54. · 4.46 Impact Factor
• Article: Volume-sensitive basolateral K+ channels in HT-29/B6 cells: block by lidocaine, quinidine, NPPB, and Ba2+.

  B Illek, H Fischer, K M Kreusel, U Hegel, W Clauss
  [show abstract] [hide abstract]
  ABSTRACT: Volume-sensitive basolateral K+ channels were studied in apically amphotericin B-permeabilized HT-29/B6 monolayers in Ussing chambers with current fluctuation analysis. The basolateral K+ conductance and Lorentzian K+ channel noise were osmotically activated in presence of Cl- concentrations greater than or equal to 74 mM. Under isotonic conditions with 148 mM Cl-, a large transepithelial K+ current of 500 +/- 16.8 microA/cm2 and a spontaneous Lorentzian K+ channel noise with a corner frequency of 29.8 +/- 1.6 Hz (n = 31) were observed. Increasing extracellular osmolalities by addition of sucrose sensitively decreased the K+ current across the basolateral membrane. Half-maximal sucrose concentration was 20 +/- 6 mM for this shrinkage maneuver. The osmotically sensitive K+ pathway was similarly activated with the halide Br- and selective for K+ over Rb+ (4:1). The established K+ channel blockers lidocaine [50% inhibitory concentration (IC50) = 49.0 +/- 3.7 microM], quinidine (IC50 = 10.1 +/- 1.3 microM), and also the chloride channel blocker 5-nitro-2-(3-phenylpropylamino)benzoic acid (IC50 = 114 +/- 2.1 microM) completely inhibited basolateral K+ currents, whereas 46% of K+ current was blocked by barium (IC50 = 95.3 +/- 23.2 microM). Osmotic sensitivity of this K+ conductance made a correction for hypertonic effects of added blockers necessary, and considerable osmotic effects of blockers at commonly used doses were shown. All blockers induced dose dependently additional Lorentzian noise, indicating a direct inhibitory action on basolateral K+ channels. In this human Cl- secretory cell line, volume-sensitive K+ channels are localized only in the basolateral membrane and may modulate osmotic regulation when HT-29 cells swell.
  The American journal of physiology 10/1992; 263(3 Pt 1):C674-83.
• Source

  Available from: Beate Illek

  Article: Carbachol-activated calcium entry into HT-29 cells is regulated by both membrane potential and cell volume.

  H Fischer, B Illek, P A Negulescu, W Clauss, T E Machen
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  ABSTRACT: Intracellular Ca2+ ([Ca2+]i) was measured in single Cl(-)-secretory HT-29/B6 colonic carcinoma cells with the Ca2+ probe fura-2 and digital imaging microscopy. Resting [Ca2+]i was 63 +/- 3 nM (n = 62). During treatment with the muscarinic agonist carbachol, [Ca2+]i rapidly increased to 901 +/- 119 nM and subsequently reached a stable level of 309 +/- 23 nM, which depended on Ca2+ entry into the cells from the extracellular solution. The goal of this study was to characterize the Ca2+ entry pathway across the cell membrane with respect to its dependence on membrane potential and cell volume. Under resting conditions [Ca2+]i showed no apparent dependence on either potential or cell volume. After stimulating Ca2+ entry with carbachol (100 microM), [Ca2+]i increased with hyperpolarization (low-K+ or valinomycin treatment) and decreased with depolarization (high-K+ or gramicidin treatment) of the cell, as expected from changes in driving force for Ca2+ entry. In stimulated cells, hypotonic solutions caused [Ca2+]i to increase, whereas hypertonic solutions blocked Ca2+ entry. The shrinkage-induced decreases in [Ca2+]i were only slightly affected when the membrane potential was increased with valinomycin, suggesting that shrinkage directly affects the carbachol-activated Ca2+ conductance. In contrast, the swelling-induced increase in [Ca2+]i was significantly reduced in valinomycin-treated cells, suggesting an indirect dependence on a swelling-activated K+ conductance. Thus, carbachol-stimulated Ca2+ entry is under the dual control of membrane potential and cell volume. This mechanism may serve as a regulatory influence that determines the extent of Ca2+ influx during cholinergic stimulation.
  Proceedings of the National Academy of Sciences 03/1992; 89(4):1438-42. · 9.68 Impact Factor
• Article: Two types of chloride channels in hen colon epithelial cells identified by patch-clamp experiments.

  H Fischer, W Kromer, W Clauss
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  ABSTRACT: Freshly isolated epithelial cells from hen colon were investigated using the patch-clamp technique. The aim of this investigation was to characterise the cellular conducting site for Cl- secretion. In cell-attached mode two types of Cl(-)-channels were found. Both showed distinct outward rectification. The channel types differed in single channel conductances and the marked voltage dependence of the open probabilities. A low conductance Cl(-)-channel was observed with a mean conductance at negative holding potentials of g- = 9 pS, and of g+ = 34 pS at positive potentials. This channel was predominantly open at negative potentials, corresponding to cell hyperpolarization. The second channel type observed had conductances of g- = 35 pS and g+ = 77 pS, and showed increasing open probabilities with increasing holding potentials (cell depolarisation). Both channel types were blockable by the Cl(-)-channel blocker NPPB. These data in combination with previously published transepithelial transport data on hen colon indicate that these channels are the Cl- secretory sites in colon epithelium.
  Journal of Comparative Physiology B 02/1991; 161(4):333-8. · 1.97 Impact Factor
• Article: Aldosterone regulation of basolateral potassium channels in alveolar epithelium.

  B Illek, H Fischer, W Clauss
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  ABSTRACT: To reveal the regulatory mechanism of the mineralocorticoid aldosterone on basolateral K+ channels, the aldosterone-sensitive lung epithelium of Xenopus laevis was investigated in Ussing chambers under voltage-clamp conditions. Transepithelial measurements were supplemented by current fluctuation analysis of short-circuit current noise in nonstimulated and aldosterone-stimulated lung tissues. The addition of 10(-6) M aldosterone stimulated short-circuit current from 11.3 +/- 2.0 to 27.8 +/- 4.8 microA/cm2 (n = 11) within 4-5 h. In the presence of an alveolar-to-pleural K+ gradient, transepithelial K+ currents were induced by permeabilizing the apical membrane with the pore-forming antibiotic amphotericin B. When the local anesthetic lidocaine (25-1,000 microM) was added to the pleural solution, macroscopic K+ current was dose dependently depressed. Lidocaine induced a Lorentzian component in the power density spectra, and the corner frequency increased linearly with blocker concentration. Aldosterone treatment did not affect mean single K+ channel current, which was 1.5 +/- 0.12 pA corresponding to a 15-pS channel conductance, whereas the number of basolateral K+ channels doubled. We conclude that the basolateral K+ channels in alveolar epithelia are a target site of aldosterone action.
  The American journal of physiology 11/1990; 259(4 Pt 1):L230-7.