Cardiovascular responses to chemical and electrical stimulation of amygdala in rats

Abstract

Electrical stimulation of the amygdala has been shown to produce changes in cardiovascular variables. To locate neuronal cell bodies responsible for these changes, responses of arterial pressure (AP) and heart rate (HR) to DL-homocysteate (DLH, 0.15 M, 50-100 nl) microinjected into sites in three amygdaloid nuclei were compared with responses to electrical (90-150 microA) stimulation of the same sites in 35 artificially ventilated, paralyzed, urethan-anesthetized rats. Electrical stimulation resulted in depressor responses in most sites (89%). Changes in AP were accompanied by variable changes in HR. Chemical stimulation produced significantly fewer (25%) depressor responses. Similar results were obtained with injections of 1.0 M DLH. To eliminate the influence of the anesthetic on these responses, AP was recorded in nine conscious rats while stimulating the amygdala. Changes in behavior and AP in these animals could be obtained only by electrical stimulation. These results may be interpreted to indicate either that cell bodies responsible for changes in cardiovascular variables during electrical stimulation are not located in the amygdala or that chemical and electrical stimulation affect different neuronal elements in circuits located in the same anatomic site.