Abstract
The role of Ca2+ in the stimulation by antidiuretic hormone (ADH) of active sodium transport across the isolated epithelium of frog skin was investigated. This has been done by bathing the blood side with Ca2+-free solution containing 0.1 mM EGTA. This Ca2+ depletion halved the resistance but had no significant effect on the short-circuit current (SCC). The sensitivity of both cAMP- and SCC-stimulation to ADH was increased 40-fold by Ca2+ depletion. Sensitivity to stimulation by theophylline was only changed a little, while stimulation by exogenous cAMP was completely unaltered. The increase in sensitivity to ADH was dependent on the duration of preincubation in Ca2+-free solution, which indicates that a slowly exchanging Ca2+ pool is involved in the determination of sensitivity to ADH. We suggest this pool is of cellular origin and the increased sensitivity is due to the decrease of a Ca2+ inhibition of the ADH-stimulated adenylate cyclase. But a direct effect of Ca2+ on binding of ADH to the receptor cannot be excluded. Our results are not compatible with the hypothesis that entry of extracellular Ca2+ is an obligatory step in the natriferic action of ADH, although it may be so in the hydroosmotic action of ADH. We also found the maximal response to ADH to be higher after Ca2+ depletion. This is in agreement with the hypothesis of intracellular Ca2+ as a modulator of the sodium permeability of the outward-facing membrane.
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