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Voltage-dependent Ca2+ influx in the epithelial cell line HT29: simultaneous use of intracellular Ca2+ measurements and nystatin perforated patch-clamp technique (1994)

Leipziger, J. ; Fischer, K. -G. ; Greger, R.

Springer

Pflügers Archiv 426 (1994), S. 427-432

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ISSN: 1432-2013

Keywords: Ca2+ influx ; Nystatin perforated patchclamp technique ; Fura-2 ; HT29 ; ATP ; Thapsigargin

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Indirect evidence has accumulated indicating a voltage dependence of the agonist-stimulated Ca2+ influx into epithelial cells. Manoeuvres expected to depolarise the membrane voltage during agonist stimulation resulted in: (1) a decrease of the sustained phase of the adenosine triphosphate (ATP, 10−5 mol/l)-induced intracellular Ca2+ transient, (2) a reduced fura-2 Mn2+-quenching rate, and (3) prevention of the refilling of the agonist-sensitive store. To quantify the change in intracellular Ca2+ as a function of membrane voltage, we measured simultaneously the intracellular Ca2+ activity ([Ca2+]i) with fura-2 and the electrical properties using the nystatin perforated patch-clamp technique in single HT29 cells. Ca2+ influx was either stimulated by ATP (10−5 mol/l) or thapsigargin (TG, 10−8 mol/l). After [Ca2+]i reached the sustained plateau phase we clamped the membrane voltage in steps of 10 mV in either direction. A stepwise depolarisation resulted in a stepwise reduction of [Ca2+]i. Similarly a stepwise hyperpolarisation resulted in a stepwise increase of [Ca2+]i (ATP: 27.5±10 nmol/l per 10 mV, n=6; TG: 19 ±7.9 nmol/l per 10 mV, n=12). The summarised data show a linear relationship between the Δ fluorescence ratio 340/380 nm change and the applied holding voltage. In unstimulated cells the same voltage-clamp protocol did not change [Ca2+]i (n=9). Under extracellular Ca2+-free conditions [Ca2+]i remained unaltered when changing the membrane voltage. These data provide direct evidence that the Ca2+ influx in epithelial cells is membrane voltage dependent. Our data indicate that small changes in membrane voltage lead to substantial changes in [Ca2+]i. This may be due either to a change of driving force for Ca2+ into the cell, or may reflect voltage-dependent regulation of the respective Ca2+ entry mechanism.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00388306

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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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