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Evidence for agonist-induced export of intracellular Ca2+ in epithelial cells (1993)

Wolff, T. ; Leipziger, J. ; Fischer, K. -G. ; [et al.]

Springer

Pflügers Archiv 424 (1993), S. 423-430

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ISSN: 1432-2013

Keywords: [Ca2+]i export ; Thapsigargin ; fura-2 ; HT29 ; CFPAC-1 ; ATP ; Carbachol ; Neurotensin

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract There is increasing evidence that some agonists not only induce intracellular Ca2+ increases, due to store release and transmembranous influx, but also that they stimulate Ca2+ efflux. We have investigated the agonist-stimulated response on the intracellular Ca2+ activity ([Ca2+]i) in the presence of thapsigargin (10−8 mol/l, TG) in HT29 and CFPAC-1 cells. For CFPAC-1 the agonists ATP (10−7–10−3 mol/l, n=9), carbachol (10−6–10−3 mol/l, n=5) and neurotensin (10−10–10−7 mol/l, n=6) all induced a concentration-dependent decrease in [Ca2+]i in the presence of TG. Similar results were obtained with HT29 cells. This decrease of [Ca2+]i could be caused by a reduced Ca2+ influx, either due to a reduced driving force for Ca2+ in the presence of depolarizing agonists or due to agonist-regulated decrease in Ca2+ permeability. Using the fura-2 Mn2+ quenching technique we demonstrated that ATP did not slow the TG-induced Mn2+ quench. This indicates that the agonist-induced [Ca2+]i decrease in the presence of TG was not due to a reduced influx of Ca2+ into the cell, but rather due to stimulation of Ca2+ export. We used the cell attached nystatin patch clamp technique in CFPAC-1 cells to examine whether, in the presence of TG, the above agonists still led to the previously described electrical changes. The cells had a mean membrane voltage of −49±3.6 mV (n=9). Within the first 3 min ATP was still able to induce a depolarization which could be attributed to an increase in Cl− conductance. This was expected, since at this time after TG stimulation all Ca2+ agonists still liberated some [Ca2+]i. When TG incubation was prolonged, agonist application led to strongly attenuated or to no electrical responses. Therefore, the agonist-stimulated [Ca2+]i decrease cannot be explained by the reduction of the driving force for Ca2+ into the cell. In the same cells hypotonic swelling (160 mosmol/l, n=15) still induced a further [Ca2+]i increase in the presence of TG and concomitantly induced Cl− and K+ conductances. We conclude that the agonist-induced decrease of [Ca2+]i in the presence of TG probably unmasks a stimulation of [Ca2+]i export.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00374904

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pH regulation in HT29 colon carcinoma cells (1994)

Köttgen, M. ; Leipziger, J. ; Fischer, K. -G. ; [et al.]

Springer

Pflügers Archiv 428 (1994), S. 179-185

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ISSN: 1432-2013

Keywords: BCECF ; Na+/H+ exchanger ; HCO 3 − /Cl− exchanger ; Na+-dependent HCO 3 − transporter ; DIDS ; HOE-694

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The pH regulation in HT29 colon carcinoma cells has been investigated using the pH-sensitive fluorescent indicator 2′,7′-biscarboxyethyl-5(6)-carboxyfluorescein (BCECF). Under control conditions, intracellular pH (pHi) was 7.21±0.07 (n=22) in HCO 3 − -containing and 7.21±0.09 (n=12) in HCO 3 − -free solution. HOE-694 (10 μmol/l), a potent inhibitor of the Na+/H+ exchanger, did not affect control pHi. As a means to acidify cells we used the NH 4 + /NH3 (20 mmol/l) prepulse technique. The mean peak acidification was 0.37±0.07 pH units (n=6). In HCC 3 − -free solutions recovery from acid load was completely blocked by HOE-694 (1 μmol/l), whereas in HCO3 3 − -containing solutions a combination of HOE-694 and 4,4′-diisothiocyanatostilbene-2, 2′-disulphonate (DIDS, 0.5 mmol/l) was necessary to show the same effect. Recovery from acid load was Na+-dependent in HCO 3 − -containing and HCO 3 − -free solutions. Removal of external Cl− caused a rapid, DIDS-blockable alkalinization of 0.33±0.03 pH units (n=15) and of 0.20±0.006 pH units (n=5), when external Na+ was removed together with Cl−. This alkalinization was faster in HCO 3 − -containing than in HCO 3 − -free solutions. The present observations demonstrate three distinct mechanisms of pH regulation in HT29 cells: (a) a Na+/H+ exchanger, (b) a HCO 3 − /Cl− exchanger and (c) a Na+-dependent HCC 3 − transporter, probably the Na+-HCO 3 − /Cl− antiporter. Under HCO 3 − — free conditions the Na+/H+ exchanger fully accounts for recovery from acid load, whereas in HCO 3 − -containing solutions this is accomplished by the Na+/H+ exchanger and a Na+-dependent mechanism, which imports HCO 3 − . Recovery from alkaline load is caused by the HCO 3 − /Cl− exchanger.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00374856

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pH dependence of K+ conductances of rat cortical collecting duct principal cells (1994)

Schlatter, E. ; Haxelmans, S. ; Hirsch, J. ; [et al.]

Springer

Pflügers Archiv 428 (1994), S. 631-640

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ISSN: 1432-2013

Keywords: Intracellular pH ; K+ channel ; NH4 +/NH3 Patch clamp ; BCECF

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The K+ channels of the principal cells of rat cortical collecting duct (CCD) are pH sensitive in excised membranes. K+ secretion is decreased with increased H+ secretion during acidosis. We examined whether the pH sensitivity of these K+ channels is present also in the intact cell and thus could explain the coupling between K+ and H+ secretion. Membrane voltages (V m), whole-cell conductances (g c), and single-channel currents of K+ channels were recorded from freshly isolated CCD cells or isolated CCD segments with the patch-clamp method. Intracellular pH (pHi) was measured using the pH-sensitive fluorescent dye 2′-7′-bis(carboxyethyl)-5-6-carboxyfluorescein (BCECF). Acetate (20 mmol/l) had no effect on V m, g c, or the activity of the K+ channels in these cells. Acetate, however, acidified pHi slightly by 0.17±0.04 pH units (n=19). V m depolarized by 12±3 mV (n=26) and by 23±2 mV (n=66) and g c decreased by 26±5% (n=13) and by 55±5% (n=12) with 3–5 or 8–10% CO2, respectively. The same CO2 concentrations decreased pHi by 0.49±0.07 (n=15) and 0.73±0.11 pH units (n=12), respectively. Open probability (P o) of all four K+ channels in the intact rat CCD cells was reversibly inhibited by 8–10% CO2. pHi increased with the addition of 20 mmol/l NH4 +/NH3 by a maximum of 0.64±0.08 pH units (n=33) and acidified transiently by 0.37±0.05 pH units (n=33) upon NH4 +/NH3 removal. In the presence of NH4 +/NH3 V m depolarized by 16±2 mV (n=66) and g c decreased by 26±7% (n=16). The activity of all four K+ channels was also strongly inhibited in the presence of NH4 +/NH3. The effect of NH4 +/NH3 on V m and g c was markedly increased when the pH of the NH4 +/NH3-containing solution was set to 8.5 or 9.2. From these data we conclude that cellular acidification in rat CCD principal cells down-regulates K+ conductances, thus reduces K+ secretion by direct inhibition of K+ channel activity. This pH dependence is present in all four K+ channels of the rat CCD. The inhibition of K+ channels by NH4 +/NH3 is independent of changes in pHi and rather involves an effect of NH3.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00374587

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Agonist-induced intracellular Ca2+ transients in HT29 cells (1993)

Nitschke, R. ; Leipziger, J. ; Greger, R.

Springer

Pflügers Archiv 423 (1993), S. 519-526

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ISSN: 1432-2013

Keywords: Carbachol ; Adenosine triphosphate ; Neurotensin ; Fura-2 ; Intracellular Ca2+ ; Ca2+ influx ; Mn2+ ; Verapamil ; Ni2+

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In the present study we have investigated the mechanism of intracellular Ca2+ activity ([Ca2+]i) changes in HT29 cells induced by adenosine triphosphate (ATP), carbachol (CCH), and neurotensin (NT). [Ca2+]i was measured with the fluorescent Ca2+ indicator fura-2 at the single-cell level or in small cell plaques with high time resolution (1–40Hz). ATP and CCH induced not only a dose-dependent [Ca2+]i peak response, but also changes of the plateau phase. The [Ca2+]i plateau was inversely dependent on the ATP concentration, whereas the CCH-induced [Ca2+]i plateau increased at higher CCH concentrations. NT showed (from 10−10 to 10−7 mol/l) in most cases only a [Ca2+]i spike lasting 2–3 min. The [Ca2+]i plateau induced by ATP (10−6 mol/l) and CCH (10−5 mol/l) was abolished by reducing the Ca2+ activity in the bath from 10−3 to 10−4 mol/l (n=7). In Ca2+-free bathing solution the [Ca2+]i peak value for all three agonists was not altered. Using fura-2 quenching by Mn2+ as an indicator of Ca2+ influx the [Ca2+]i peak was always reached before Mn2+ influx started. Every agonist showed this delayed stimulation of the Ca2+ influx with a lag time of 23±1.5 s (n=15) indicating a similar mechanism in each case. Verapamil (10−6–10−4 mol/l) blocked dose dependently both phases (peak and plateau) of the CCH-induced [Ca2+]i increase. Short pre-incubation with verapamil augmented the effect on the [Ca2+]i peak, whereas no further influence on the plateau was observed. Ni2+ (10−3 mol/l) reduced the plateau value by 70%.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00374950

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