| Abstract: | The action of pentobarbitone on stimulus-secretion coupling was studied in bovine isolated adrenal medullary cells. Pentobarbitone inhibited catecholamine release evoked by 500 microM carbachol with half maximal inhibition (IC50) around 50 microM. It also inhibited catecholamine release induced by depolarization with 77 mM potassium (IC50 100 microM). These effects of pentobarbitone were observed with concentrations that lie within the range encountered during general anaesthesia. Evoked secretion required the presence of calcium in the extracellular medium and was associated with an influx of Ca2+ through voltage-sensitive channels. Pentobarbitone inhibited 45Ca influx in response to both carbachol (IC50 50 microM) and K+-depolarization (IC50 150 microM). The action of pentobarbitone on the relationship between intracellular free Ca and exocytosis was examined using electropermeabilised cells which were suspended in solutions containing a range of concentrations of ionised calcium between 10(-8) and 10(-4)M. Catecholamine secretion was measured in the presence of 0, 50, 200 or 500 microM pentobarbitone. The anaesthetic had no effect on the activation of exocytosis by intracellular free calcium. When catecholamine secretion in response to potassium or carbachol was modulated by varying extracellular calcium or by adding pentobarbitone to the incubation medium, the amount of catecholamine secretion for a given Ca2+ entry was the same. Pentobarbitone inhibited the secretion and 45Ca uptake induced by carbachol in a non-competitive manner. The secretion evoked by nicotinic agonists was associated with an increase in 22Na influx. Pentobarbitone inhibited this influx with an IC50 of 100 microM. We concluded that: (a) Pentobarbitone inhibits the catecholamine secretion from bovine adrenal chromaffin cells induced by nicotinic agonists by non-competitive inhibition of the nicotinic receptor. (b) The decrease in Ca influx caused by pentobarbitone accounts fully for the decrease in secretion in response to depolarization with potassium. |
