The alpha 1- and alpha 2-adrenoceptor and muscarinic responses of normal and axotomized bullfrog sympathetic ganglia.

When neurones in bullfrog paravertebral sympathetic ganglia are studied by means of the sucrose-gap technique, muscarinic agonists produce a biphasic response (an initial hyperpolarization of ganglionic C cells followed by a depolarization of ganglionic B cells). Activation of ganglionic alpha 2-adrenoceptors promotes hyperpolarization. The present experiments with selective alpha 1- and alpha 2-adrenoceptor agonists and antagonists provided evidence for the existence of hitherto undescribed alpha 1-adrenoceptors, which are responsible for the production of depolarizing responses in these ganglia. Fifteen to twenty-five days after cutting postganglionic axons (axotomy), there was a nonselective depression of both alpha 1- and alpha 2-adrenoceptor mechanisms but little change in muscarinic responses. These results argue against the hypothesis that C cells assume all the properties of B cells after axotomy. Since the alpha-selective agonist phenylephrine failed to depolarize axotomized ganglia, it is unlikely that an alpha 1-adrenoceptor mechanism is prominent in axotomized neurones as it is in some immature adrenergic neurones. The data are consistent with the idea that axotomy selectively affects the properties of certain types of cation channels and raise questions as to the mechanisms involved in regulating the expression and maintenance of specific neurotransmitter responses on ganglionic neurones.