This study investigated the effects of angiotensin II (Ang II) on slow and rapid baroreflex responses of barosensitive bulbospinal neurons in the rostral ventrolateral medulla (RVLM) in urethane-anesthetized rabbits to determine whether the sympathetic baroreflex modulation induced by application of Ang II into the RVLM can be explained by the total action of Ang II on individual RVLM neurons. In response to pharmacologically induced slow ramp changes in mean arterial pressure (MAP), individual RVLM neurons exhibited a unit activity-MAP relationship that was fitted by a straight line with upper and lower plateaus. Iontophoretically applied Ang II raised the upper plateau without changing the slope, and thereby increased the working range of the baroreflex response. An asymmetric sigmoid curve that was determined by averaging individual unit activity-MAP relationship lines became more symmetric with Ang II application. The characteristics of the average curves, both before and during Ang II application, were consistent with the renal sympathetic nerve activity-MAP relationship curves obtained under the same experimental conditions. Ang II also affected rapid baroreflex responses of RVLM neurons that were induced by cardiac beats, as application of Ang II predominantly raised the average unit activities in the downstroke phase of arterial pulse waves. The present study provides a possible explanation for the Ang II-induced sympathetic baroreflex modulation based on the action of Ang II on barosensitive bulbospinal RVLM neurons. Our results also suggest that Ang II changes both static and dynamic characteristics of baroreflex responses of RVLM neurons.