Ascorbic acid specifically enhances dopamine beta-monooxygenase activity in resting and stimulated chromaffin cells.

Ascorbic acid enhancement of norepinephrine formation from tyrosine in cultured bovine chromaffin cells was characterized in detail as a model system for determining ascorbate requirements. In resting cells, ascorbic acid increased dopamine beta-monooxygenase activity without changing tyrosine 3-monooxygenase activity. [14C]Norepinephrine specific activity was increased by ascorbic acid, while [14C]dopamine specific activity was unchanged. Dopamine content, dopamine biosynthesis, tyrosine content, and tyrosine uptake were also unaffected by ascorbic acid. Furthermore, increased norepinephrine formation could not be attributed to changes in norepinephrine catabolism. Enhancement of dopamine beta-monooxygenase activity was specific for ascorbic acid, since other reducing agents with higher redox potentials were unable to increase norepinephrine formation. The specific effect of ascorbic acid on enhancement of norepinephrine formation was also observed in chromaffin cells stimulated to secrete with carbachol, acetylcholine, veratridine, and potassium chloride. In stimulated cells with and without ascorbate, there were no differences in dopamine content, tyrosine uptake, dopamine specific activity, and norepinephrine catabolism. These data indicate that, under a wide variety of conditions, only one catecholamine biosynthetic enzyme activity, dopamine beta-monooxygenase, is specifically stimulated by ascorbic acid alone in cultured chromaffin cells. This model system exemplifies a new approach for determining ascorbic acid requirements in cells and animals.