Abstract

The Ca 2+ ionophores X537A and A23187 produced dose-dependent release of endogenous epinephrine (Epi) as well as norepinephrine (NE) and dopamine (DA) from chopped rat hypothalamus and brainstem. The X537A-induced release of these catecholamines (CAs) was found to be Ca 2+-independent, whereas the A23187-induced release was Ca 2+-dependent. X537A and A23187 were approximately equipotent in causing the release of the hypothalamic Epi, NE and DA, but X537A was much more effective than A23187 in causing the maximal release. X537A, but not A23187, reduced the total endogenous CA content and increased the total 3,4-dihydroxyphenylacetic acid (DOPAC) content in the chopped hypothalamus. Ca 2+-independent release of Epi, NE and DA in the chopped hypothalamus was also observed with indirectly acting sympathomimetic amines (e.g. tyramine and amphetamine). Tyramine and amphetamine did not affect the total endogenous CA contents nor the total DOPAC content. These results suggest that X537A caused release of endogenous brain Epi, NE and DA by transporting thebiogenic amines across vesicular or intracellular storage sites. However, A23187 caused release of these CAs by exocytosis via transport of Ca 2+ into the neurons.

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