Dihydropyridine Modulation of the Chromaffin Cell Secretory Response |
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Authors: | M. G. Ladona,D. Aunis,L. Gandí a,A. G. Garcí a |
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Affiliation: | Departamento de Neuroquímica, Universidad de Alicante, Facultad de Medicina, Alicante, Spain;UnitéINSERM U-44, Centre de Neurochimie du CNRS, Strasbourg, France |
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Abstract: | Prolonged perfusion of cat adrenal glands with Krebs-bicarbonate solutions containing nicotine, muscarine, or excess K rapidly increased the rate of catecholamine output proportional to the concentrations of secretagogue used. The secretory responses to nicotine or high K reached a peak and declined to almost basal rates of secretion after about 10 min of stimulation. The dihydropyridine Ca channel agonist Bay K 8644 potentiated markedly the secretory responses to 1 microM nicotine and to 17.7 mM K but not to higher concentrations of these secretagogues. The muscarinic response did not decrease with time and was modestly potentiated by Bay K 8644. Similar curves were obtained with 17.7 mM K plus Bay K 8644 and with 59 mM K alone. CGP28392, another agonist, was about 10 times less potent than Bay K 8644 in potentiating the secretory responses to 17.7 mM K. Bay K 8644 also potentiated the release of [3H]noradrenaline evoked by stimulation of cultured bovine adrenal chromaffin cells with 17.7 mM K or 2 microM nicotine but not with higher concentrations of K or nicotine. Dihydropyridine Ca channel antagonists reversed the effects of Bay K 8644 with the following order of potency: niludipine greater than nifedipine = nimodipine greater than nitrendipine. The secretory rates from intact chromaffin cells treated with the Ca ionophores X537A or A23187, or those evoked by Ca-EGTA buffers from digitonin-permeabilized cells, were not affected by Bay K 8644. These results are compatible with the following conclusions: Bay K 8644 selectively potentiates catecholamine secretory responses mediated through the activation of voltage-sensitive Ca channels; during nicotine or high-K stimulation, Ca gains access to the cell interior through a common permeability pathway, the Ca channel.(ABSTRACT TRUNCATED AT 250 WORDS) |
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Keywords: | Bay K 8644 CGP28392 Dihydropyridines Calcium agonists Calcium antagonists Adrenal medulla Catecholamine release |
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