Neurogenic mechanisms play a key role in both rapid and long-term regulations of blood pressure (BP). It is believed that enhanced sympathetic activity and reactivity are major factors contributing to the essential hypertension. Previous evidences suggested that cardiac but not vascular component of the baroreflex of the spontaneously hypertensive rat (SHR) was significantly less sensitive than that of normotensive rat. It is of interest to determine whether the cardiac vagal preganglionic neurons (CVPNs), which counteracts with sympathetic system, exhibit higher or lower reactivity. In the present study, the HR responses to glutamate solution (Glu) stimulation of the CVPNs in nucleus ambiguus (NA) of the 12-16 week old SHR were compared with aged matched normotensive WKY (Wistar-Kyoto) rats and Wistar rats. Microinjection of different doses of 10 mM Glu into the NA produced dose-dependent responses of heart rate (HR) in normotensive and hypertensive rats. The maximal HR changes and threshold dose of Glu were not significantly different in three strains, but there was a tendency that the threshold dose of SHR was largest, then that of WKY rats and Wistar rats. The saturation dose of Glu to elicit the maximal HR change was also significantly larger in SHR than that in Wistar rats. The maximal slope of dose-response curve in Wistar rats is steepest in three strains. The results suggested that the reactivity of CVPNs in NA to Glu stimulation might be lower in SHR than that in Wistar rats. Most neurons in NA had respiratory firing patterns, few pulse-related neurons were observed in three strains of rats.