Cardiopulmonary reflexes with vagal afferents may control volume homeostasis by influencing renal nerve activity. Such reflexes can be stimulated mechanically and chemically, e.g., by serotonin 5-HT). We have demonstrated that stimulation of epicardial 5-HT3 receptors inhibits renal sympathetic nerve activity (RSNA) by a cardiorenal reflex. We now tested the hypothesis that pulmonary 5-HT3-sensitive vagal afferent fibers participate in the control of renal nerve activity. Two sets of experiments were performed. First, the responses of multifiber RSNA, heart rate (HR), and blood pressure (BP) to the 5-HT3-receptor agonist phenylbiguanide (PBG; 10 microg iv) were recorded in the presence of intact pulmonary afferents. Abdominal afferents were removed by subdiaphragmatic vagotomy. Cardiac afferents were blocked by intrapericardial injection of 10% procaine. Second, the responses of 25 single vagal pulmonary afferent C fibers to PBG were assessed. PBG decreased BP, HR, and RSNA (-90 +/- 8%). When cardiac afferents were blocked by procaine, BP and HR failed to decrease in response to PBG; however, the RSNA decrease was still -48 +/- 8%. Single fibers generally responded to PBG by a slight increase in firing rate. A distinct subset of fibers (5 of 25) showed an activity increase of >15 Hz that preceded changes in BP and HR. The decreased RSNA in the absence of cardiac and abdominal vagal afferents and the strong response of 20% of pulmonary single fibers to intravenous PBG suggest that pulmonary fibers play a role in a 5-HT3 serotenergic reflex. Thus pulmonary serotonin could influence the neural control of renal function.