The discharge characteristics of vagal cardiac neurons during classically conditioned heart rate change.

Classically conditioned heart rate change in the pigeon has been developed as a vertebrate model system for cellular analysis of associative learning. One aspect of this development involved characterizing in detail the "final common path" for the conditioned response, the "cardiac motoneurons." With this as a foundation it has been possible to investigate the discharge properties of these motoneurons during acquisition of the conditioned heart rate response, and in this paper we report such data for the vagal (parasympathetic) component of the conditioned response. The activity of single neurons was recorded in the intermediate zone of the dorsal motor nucleus of the vagus of the pigeon. Antidromic activation confirmed that these cells gave rise to efferent axons in the vagus nerve and allowed their classification on the basis of conduction velocity into three groups: A, B1 (cardiac), and B2 units. B1 and B2 units had low levels of irregularly maintained activity, whereas A units discharged more regularly at higher frequency. B1 units had a weak cardiac rhythm, no respiratory rhythm, and showed decreased discharge in response to visual stimulation or foot-shock. These stimulus-evoked decreases in the activity of cardiac cells were accompanied by increases in heart rate. B2 units were unresponsive to both visual stimulation and foot-shock, whereas A units were unresponsive to visual stimulation but possibly responsive to foot-shock. The activity of vagal cardiac neurons was recorded during or after classical conditioning (paired lights and foot-shocks) or sensitization (unpaired lights and foot-shocks) to characterize discharge changes associated with conditioned cardioacceleration.(ABSTRACT TRUNCATED AT 250 WORDS)