Baroreflex changes produced by serotonergic or catecholaminergic lesions in the rat nucleus tractus solitarius.

To distinguish between catecholaminergic and serotonergic mechanisms for baroreflex regulation in the medulla, we compared rats with chemical lesions produced by injecting 6-hydroxydopamine (6-OHDA) or 5,7-dihydroxytryptamine (5,7-DHT) into the nucleus tractus solitarius (NTS) bilaterally at the caudal tip of the area postrema. After 2 weeks, basal blood pressure and heart rate were unaltered, but blood pressure lability, instead of being increased, was slightly reduced. Baroreflex tests in conscious rats showed that although phenylephrine-induced reflex bradycardia was unaffected, nitroprusside-induced reflex tachycardia was enhanced by 5,7-DHT. In anesthetized rats, drug-induced reflex chronotropic responses no longer differed between groups, but attendant decreases or increases in renal nerve activity were consistently reduced by 6-OHDA. On the other hand, upon afferent aortic nerve stimulation, particularly with low current frequencies, bradycardic and sympathoinhibitory responses were enhanced by 5,7-DHT, but the sympathoinhibitory responses were reduced by 6-OHDA. Despite the absence of demonstrable necrosis or cell loss at NTS injection sites, 6-OHDA reduced norepinephrine mainly and serotonin partly, whereas 5-7-DHT reduced serotonin content alone, thereby indicating that chemical lesions had indeed been produced. Because these cardiovascular changes probably reflect differences in catecholaminergic vs. serotonergic baroreflex regulation, our results are generally compatible with the interpretation that baroreflex modulation in the NTS involves catecholaminergic facilitation and serotonergic inhibition.