AJP - Lung Cellular and Molecular Physiology, Vol 269, Issue 6 873-L883, Copyright © 1995 by American Physiological Society

ARTICLES

Activation of L-type Ca2+ channels after purinoceptor stimulation by ATP in an alveolar epithelial cell (L2)

P. Dietl, T. Haller, B. Wirleitner, H. Volkl, F. Friedrich and J. Striessnig
Department of Physiology, University of Innsbruck, Austria.

In the alveolar epithelium, ATP increases the intracellular Ca2+ concentration ([Ca2+]i) and stimulates the secretion of surfactant. We investigated the effects of extracellular ATP on the membrane potential (Vm), the whole cell current, and [Ca2+]i in a cloned rat alveolar epithelial cell line (L2). In microelectrode experiments, ATP caused a sustained depolarization of Vm, resulting from the activation of cation and Cl- conductances, as revealed by ion replacements. The depolarizing phase of the Vm shift was superimposed by Ca(2+)-dependent depolarizing spikes. Spikes were also induced by depolarizing Vm with charybdotoxin or maitotoxin. Replacement of bath Ca2+ with Ba2+ or Sr2+ also evoked repetitive spikes. Ca2+ (Ba2+, Sr2+)-induced spikes were unaffected by pretreatment with ionomycin or thapsigargin. They were, however, completely abolished by (+)-isradipine (100 nM) and stimulated by BAY K 8644 (100 nM). Whole cell L-type Ca2+ (Ba2+, Sr2+) currents were similarly abolished by (+)-isradipine and enhanced by BAY K 8644. L-type Ca2+ channels were further confirmed by demonstrating high-affinity dihydropyridine receptors stereoselectively labeled by (+)-[3H]-isradipine, apparent dissociation constant < 1 nM. In fura 2 experiments, ATP evoked a transient elevation of [Ca2+]i in the absence of Ca2+ and a biphasic sustained elevation in the presence of Ca2+, indicating intracellular Ca2+ release and Ca2+ entry. The ATP-induced fura 2 signals were unaffected by (+)-isradipine. We conclude that in L2 cells, L-type Ca2+ channels are activated after purinoceptor stimulation by ATP. The overall [Ca2+]i response is, however, mediated by Ca2+ entry through and (+)-isradipine-insensitive mechanism and by intracellular Ca2+ release.

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