Neurophysiological evidence for and characterization of the post‐ganglionic innervation of the adrenal gland in the rat

Abstract

The aim of this study was to examine and characterize the post-ganglionic innervation of the adrenal gland, using a neurophysiological nerve recording technique. Adrenal multifibre nerve activity was recorded in chloralose-anaesthetized Wistar rats. To test for post-ganglionic nerve activity, trimethaphan, a ganglionic blocker, was given intravenously. About 60% of the adrenal nerve preparations tested responded with a marked decrease in nerve activity (to 52 .+-. 11% of pre-trimethaphan activity, P < 0.01), while other nerves responded with an increase in activity (to 152 .+-. 29% of pre-trimethaphan activity, P < 0.01). Based on these responses, the nerves were considered to contain predominantly post- or preganglionic fibres respectively, and the difference in response to an intravenous injection of trimethaphan between the two groups was significant (P < 0.01). It was also demonstrated that the post-ganglionic adrenal nerve activity had a greater variability in firing pattern than preganglionic adrenal nerve activity. We also examined whether there was any cardiac rhythmicity in the investigated nerves. There was a weak cardiac rhythmicity in six out of 12 post-ganglionic adrenal nerves, but there was no cardiac rhythmicity in the remaining six post-ganglionic nerves, and we observed no cardiac rhythmicity in preganglionic nerves. In contrast, renal sympathetic nerves showed a profound cardiac rhythmicity. Our results might explain recent histological findings of a direct post-ganglionic innervation of the adrenal cortex. We speculate that this nerve population is involved in steroid synthesis indirectly via regulation of the cortical blood flow or directly via a direct innervation of parenchymal cells in the adrenal cortex.