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Electrophysiological investigation of microdissected gastric glands of bullfrog II. Basolateral membrane properties in the presence of histamine (1994)

Coppola, S. ; Caroppo, R. ; Frömter, E.

Springer

Pflügers Archiv 429 (1994), S. 203-209

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ISSN: 1432-2013

Keywords: Rana catesbeiana ; Isolated gastric glands ; Oxyntopeptic cell pH ; Cl−/HCO3 − exchanger ; Basolateral ion conductances ; Histamine

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Following the technical approach described in the preceding publication we have investigated if, and how, stimulation of gastric HCl secretion affects the basolateral ion transport properties of oxyntopeptic cells of Rana catesbeiana stomach. To this end microdissected gastric glands were punctured with conventional or H+-sensitive glass microelectrodes and the effects of changing bath ion concentrations on the cell membrane potential (V b) and cell pH (pHi) were determined. Except for a transient alkalinization, histamine (0.5 mmol/l) did not significantly affect V b or pHi. The latter averaged 7.18±0.03 (mean±SEM, n=5) under resting conditions (0.1 mmol/l cimetidine) and 7.21±0.07 (n=5) in the presence of histamine. In addition, neither the initial velocity nor the final steady-state value of the cell alkalinization following a 10∶1 reduction of bath Cl− concentration changed in the presence of histamine, and the same holds true for the cell acidification following a 10∶1 reduction of bath HCO3 − concentration. These observations indicate that the basolateral Cl−/HCO3 − exchanger was not stimulated by histamine, and that no other base transporters were activated. By contrast, the V b response to elevation of bath K + concentration decreased, and so did the initial depolarizing V b response to bath Cl− substitution, while the secondary hyperpolarizing response increased. The latter observations are compatible with the notion that stimulation by histamine reduced a pH-insensitive part of the basolateral K+ conductance and reduced also the basolateral Cl− conductance.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00374313

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Electrophysiological investigation of microdissected gastric glands of bullfrog I. Basolateral membrane properties in the resting state (1994)

Caroppo, R. ; Coppola, S. ; Frömter, E.

Springer

Pflügers Archiv 429 (1994), S. 193-202

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Details

ISSN: 1432-2013

Keywords: Rana catesbeiana ; Isolated gastric glands ; Oxyntopeptic cell potential ; Basolateral ion transporters

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In the present experiments we have made a new attempt to characterize the ion transport properties of H+-secreting cells of the gastric mucosa using electrophysiological techniques. Individual gastric glands of bullfrog fundus mucosa were manually dissected, mounted in holding pipettes and superfused with various test solutions while individual cells were punctured with conventional or H+-sensitive double-barrelled microelectrodes. All measurements were performed in the resting state (0.1 mmol/l cimetidine). In HCO3 −-containing control Ringer solution the cell membrane potential (Vb) averaged −45.6±0.9 mV (±SEM, n=54). From the fast initial V b responses to changing bath K+, Na+, Cl− or HCO3 − concentrations we deduced that the basolateral cell membrane contains conductances for K+, Na+, and Cl− but not for HCO3 −, and that a Na+-HCO3 − cotransporter is not present. The K+ conductance was inhibited by Ba2+ (3 mmol/l), but the Cl− conductance was not inhibited by 4,4′ diisothiocyanato-stilbene-2,2′disulphonic acid (DIDS, 0.3 mmol/l), nor selectively inhibited by 5-nitro-2-(3)-phenylpropyl-aminobenzoate (NPPB, 10 (μmol/l). In a great number of cells the Vb response to Cl− substitution revealed two components: an initial spiking depolarization which reflected conductive Cl− efflux and a secondary slow hyperpolarization, the origin of which was not immediately evident. Since the latter response could be mimicked by CO2-free perfusion, strongly depressed by Ba2+ and eliminated by DIDS, we conclude that it reflects HCO3 − uptake into the cells via a DIDS sensitive Cl−/HCO3 − exchanger which alkalinizes the cells and stimulates the basolateral K+ conductance. Our results confirm, revise and extend the results of previous, less direct, investigations of gastric cell ion transport.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00374312

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