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Calcium entry in rabbit corneal epithelial cells: Evidence for a nonvoltage dependent pathway (1995)

Rich, A. ; Rae, J. L.

Springer

The journal of membrane biology 144 (1995), S. 177-184

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ISSN: 1432-1424

Keywords: Fura 2 ; Fluorescent imaging ; Cornea ; Epithelia ; Calcium conductance

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Abstract We performed experiments to elucidate the calcium influx pathways in freshly dispersed rabbit corneal epithelial cells. Three possible pathways were considered: voltage-gated Ca++ channels, Na+/Ca++ exchange, and nonvoltage-dependent Ca++-permeable channels. Whole cell inward currents carrying either Ca++ or Ba++ were not detected using voltage clamp techniques. We also used imaging technology and the Ca++-sensitive ratiometric dye fura 2 to measure changes in intracellular Ca++ concentration ([Ca]i). Bath perfusion with NaCl Ringer's solution containing the calcium channel agonist Bay-K-8644 (1 μm), or Ni++ (40 μm), a blocker of many voltage-dependent calcium channels, did not affect [Ca++]i. Membrane depolarization with a KCl Ringer's bath solution resulted in a decrease in [Ca++]i. These results are inconsistent with the presence of voltage gated Ca++ channels. Nonvoltage gated Ca++ entry, on the other hand, would be reduced by membrane depolarization and enhanced by membrane hyperpolarization. Agents which hyperpolarize via stimulation of K+ current, such as flufenamic acid, resulted in an increase in ratio intensity. The cells were found to be permeable to Mn++ and bath perfusion with 5 mm Ni++ decreased [Ca++]i suggesting that the Ca++ conductance was blocked. These results are most consistent with a nonvoltage gated Ca++ influx pathway. Finally, replacing extracellular Na+ with Li+ resulted in an increase in [Ca++]i if the cells were first Na+-loaded using the Na+ ionophore monensin and ouabain, a Na+-K+-ATPase inhibitor. These results suggest that Na+/Ca++ exchange may also regulate [Ca++] in this cell type.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00232803

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Regulation of a voltage-dependent, calcium-activated K conductance by cyclic GMP in dissociated flounder enterocytes (1993)

O'Grady, S. M. ; Cooper, K. E. ; Rae, J. L.

Springer

Journal of comparative physiology 163 (1993), S. 581-586

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ISSN: 1432-136X

Keywords: Ion transport ; Membrane transport ; Intestine ; K secretion ; Flounder, (Pseudopleuronectes americanus)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract Enterocytes from the winter flounder (Pseudopleuronectes americanus) were isolated by collagenase digestion and maintained in flounder Ringer's solution. Whole cell currents were studied using the amphotericin-perforated whole-cell patch clamp technique. The mean resting membrane potential and capacitance values or dissociated cells were-45±7 mV and 5±0.4 pF, respectively. Enterocytes held at-20 mV and treated with 1 μmol·l-1 ionomycin exhibited outward currents when cells were stepped through a series of voltages from-60 to +110 mV. The reversal potential of this current in flounder Ringer's solution was-55 mV and the voltage at which half-maximal activation occurred was +20 mV. Voltage-dependent inhibition of outward current was observed at +60 mV and above. When cells were bathed in symmetric K Ringer's solution the reversal potential shifted to zero mV and no inhibition of current was observed at voltages between-60 and 140 mV. When the holding potential of the cell was changed from-20 to-80 mV and stepped from-60 to +110 mV, a second [previously characterized, O'Grady et al. (1991)] K current with delayed-rectifier properties was identified. This observation demonstrated that the delayed rectifier K channel and the Ca2+-activated K channel described in this study exist in the same cell. Extracellular addition of 2 mmol·l-1 Ba2+ to cells bathed in symmetric K Ringer's solution resulted in nearly complete inhibition of outward current. Charybdotoxin produced only minor effects on this current. Addition of 8-Br cGMP to the bathing solution also inhibited outward current and this effect could be partially reversed following washout of 8-Br cGMP from the bathing solution. The results of this study indicated that a Ca2+-activated K conductance in winter flounder enterocytes is potentially inhibited by agents that increase intracellular cGMP. A similar effect of cGMP on a delayed rectifier K channel in flounder enterocytes was previously demonstrated.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00302117

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