Cardiovascular responses to microinjection of trans-(±)-ACPD into the NTS were similar in conscious and chloralose-anesthetized rats

Microinjection of L-glutamate into the intermediate nucleus tractus solitarii in anesthetized rats elicits hypotension, bradycardia, and apnea, simulating baroreceptor reflexes. Ablation of the nodose ganglion results in selective reduction of high-affinity uptake of L-glutanate in the nucleus tractus solitarii. L-Glutamate may be the neurotransmitter of afferent nerve fibers from arterial baroreceptors.

The arterial chemoreceptors play an important role in the reflex regulation of blood pressure and respiration. To investigate the initial integration of chemoreceptor inputs within the central nervous system, intracellular recordings were obtained in pentobarbital-anesthetized, paralyzed, and mechanically ventilated cats, from 58 cells within the nucleus of the tractus solitarius (NTS) that were depolarized by activation of the ipsilateral carotid body chemoreceptors. Close arterial injection of less than 100 microliters CO2-saturated bicarbonate evoked depolarizations of membrane potential with amplitudes of 2.2-4.6 mV and durations of 1.8-6.7 s in 46 cells. In 12 cells, activation of the carotid body chemoreceptors evoked a depolarization-hyperpolarization sequence. Electrical stimulation of the carotid sinus nerve (500 microA, 0.2 ms) evoked EPSPs [mean latency 6.4 +/- 0.5 (SE) ms; range 2.1-18.4 ms] in 46 cells and EPSP-IPSPs (7.3 +/- 0.8 ms; range 4.2-12.4 ms) in 12 cells. The distribution of EPSP latencies exhibited two peaks, one in the 2- to 4-ms range and another in the 7- to 8-ms range. Twenty-nine chemoreceptive cells were tested for the presence of convergent inputs from the ipsilateral carotid sinus baroreceptors. No evidence was found of a convergent postsynaptic inhibitory input from the baroreceptors within the NTS; however, seven cells were found that received an excitatory input from the baroreceptors. The observation that NTS neurons do not integrate chemoreceptor afferent inputs in a homogeneous manner suggests that the multiplicity of NTS unit responses might be related to the specific reflex function of an individual cell (e.g., vagal or sympathetic outflow, respiration).(ABSTRACT TRUNCATED AT 250 WORDS)

The central pathway mediating the Bezold-Jarisch reflex elicited by jugular vein injection of serotonin (5-HT) and phenyl biguanide (PBG) was studied in halothane-anesthetized, paralyzed rats. 5-HT and PBG produced hypotension and inhibition of lumbar sympathetic discharge often preceded by sympathoexcitation. The Bezold-Jarish reflex was blocked by bilateral kynurenic acid (KYN; glutamate antagonist, 1.25 nmol/side) microinjection into the solitary tract nucleus. Bilateral KYN injection into the caudal ventrolateral medulla (5 nmol/side) also blocked the reflex. Bilateral injection of bicuculline methiodide (BIC; 100 pmol/side) into the rostral ventrolateral medulla (RVL) reduced the depressor and sympathoinhibitory components of the reflex and enhanced an excitatory component. Blockade or attenuation of the Bezold-Jarisch reflex was always associated with a concomitant blockade or attenuation of the arterial baroreflex. RVL barosensitive neurons (n = 61) were inhibited (> 60% reduction in firing) by PBG and 5-HT. Iontophoretic application of BIC (n = 11 cells), but not strychnine (glycine antagonist), blocked inhibition of RVL neurons by 5-HT and PBG. The sympathoinhibitory component of the Bezold-Jarisch reflex may use a central pathway similar to that of the arterial baroreflex.