Evidence for activation of both adrenergic and cholinergic nervous pathways by yohimbine, an alpha 2 ‐adrenoceptor antagonist *

Summary— Adrenoceptors are involved in the control of the activity of the autonomic nervous system and especially the sympathetic nervous system. Activation of alpha 2 ‐adrenoceptors decreases sympathetic tone whereas their blockade has an opposite effect. However, previous investigations have shown that yohimbine (a potent alpha 2 ‐adrenoceptor antagonist) increases salivary secretion through activation of cholinergic pathways. The aim of the present experiment was to investigate the involvement of both the sympathetic and the parasympathetic system in several pharmacological effects of yohimbine. For this purpose, salivary secretion and various endocrino‐metabolic parameters (noradrenaline and insulin secretions, lipomobilization) were evaluated in conscious fasting dogs before and after blockade of either the sympathetic (with the β‐adrenoceptor antagonist agent nadolol) or the parasympathetic (with the anticholinergic agent atropine) systems. Yohimbine alone (0.4 mgṁkg −1 , iv) increased within 5–15 minutes, plasma noradrenaline (600%), insulin levels (300%), free‐fatty acids (79%) and salivary secretion (143%). Atropine (0.2 mgṁkg −1 , iv) suppressed yohimbine‐induced salivary secretion (90%) but did not significantly modify the yohimbine induced changes in noradrenaline (312%), insulin (277%) and free‐fatty acids (102%) plasma levels. Administration of nadolol (1 mgṁkg −1 , iv) did not change the magnitude of the increase in both noradrenaline plasma levels (550%) and salivary secretion (300%) induced by yohimbine. However, nadolol totally blunted the increase in insulin (15%) and free‐fatty acids (4%) plasma levels. These results show that yohimbine‐induced increase in salivary secretion is a cholinergic effect whereas the increase in insulin and free fatty acids can be explained by an increase in sympathetic tone. Thus, blockade of alpha 2 ‐adrenoceptors induced a simultaneous activation of adrenergic and cholinergic systems. This pattern can explain the spectrum of side effects observed with yohimbine in man and suggests new potential clinical uses for alpha 2 ‐adrenoceptor antagonists.