Evoked transient intracellular free Ca2+ changes and secretion in isolated bovine adrenal medullary cells

Abstract

When isolated bovine adrenal medullary cells are incubated with the lipid-soluble Quin 2 acetoxymethyl ester, the ester permeates the plasma membrane and enters the cytosol, where it is hydrolysed by endogenous enzymes to yield an impermeant fluorescent indicator (Quin 2) which is sensitive to Ca2+ in the 0.1 microM range. This technique permits the average intracellular free Ca2+ level ([Ca2+]i) to be determined in a suspension of adrenal medullary cells. Unstimulated cells have a [Ca2+]i of 97 +/- 4 nM (n = 69). This level seems independent of extracellular calcium in the range 0.5-2 mM. When the extracellular calcium concentration is lowered to ca. 10(-7) M, however, [Ca2+]i decreases. A transient increase in [Ca2+]i occurs when cells are challenged with either acetylcholine or a high potassium medium. The time course of the [Ca2+]i transient rises to a maximum within seconds, and decreases to basal levels over minutes. The maximum level of [Ca2+]i associated with secretion is very variable. Hexamethonium, methyoxyverapamil, and the absence of extracellular calcium block not only the secretory response but also the [Ca2+]i transient. The action of acetylcholine leading to the Ca2+]i transient is blocked when cells are suspended in a depolarizing medium. Extracellular magnesium inhibits both the [Ca2+]i transient and the secretory response evoked by acetylcholine. Secretion is, however, more sensitive to magnesium inhibition than is calcium entry. The magnitudes of the [Ca2+]i transient and the secretory response decrease as the concentration of intracellular Quin 2 increases. Measurements of the amount of indicator titrated with calcium, as a result of an acetylcholine or potassium challenge, suggest that the increase in the apparent calcium content of the cytosol might arise from two contributing sources of calcium entry.