Vagal modulation of responses elicited by stimulation of the aortic depressor nerve in neurons of the rostral ventrolateral medulla oblongata in the rat

Stimulation of cervical vagal afferents inhibits central sympathetic outflows in part by inhibiting the ongoing activity of putative baroreceptive neurons in the rostral ventrolateral medulla oblongata. The aim of the present study was to examine the electrophysiological characteristics of vagal res...

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Bibliographic Details
Published in:Neuroscience 1999-01, Vol.92 (3), p.889-899
Main Authors: Zagon, A., Rocha, I., Ishizuka, K., Spyer, K.M.
Format: Article
Language:English
Subjects:
Animals
Aorta - innervation
aortic depressor nerve
barosensitive neurons
Biological and medical sciences
Blood Pressure - physiology
Electric Stimulation - methods
Fundamental and applied biological sciences. Psychology
late-onset hyperpolarization
Male
Medulla Oblongata - cytology
Medulla Oblongata - physiology
Motor control and motor pathways. Reflexes. Control centers of vegetative functions. Vestibular system and equilibration
Nervous System Physiological Phenomena
Neural Inhibition - physiology
Neurons - physiology
presynaptic facilitation
rat
Rats
Rats, Sprague-Dawley
Solitary Nucleus - physiology
Time Factors
vagus
Vagus Nerve - physiology
ventrolateral medulla oblongata
Vertebrates: nervous system and sense organs
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Summary:Stimulation of cervical vagal afferents inhibits central sympathetic outflows in part by inhibiting the ongoing activity of putative baroreceptive neurons in the rostral ventrolateral medulla oblongata. The aim of the present study was to examine the electrophysiological characteristics of vagal responses and their interactions with responses elicited by stimulation of the aortic nerve in neurons there. The study focused on the role of the long-lasting, late-onset vagal inhibition, which is likely to play an important role in the tonic inhibitory effects of vagal afferent stimulation. In vivo intracellular recordings were obtained from 33 neurons that received convergent inputs from aortic and vagal afferents. Sixty-four percent of these neurons exhibited a late inhibition following electrical stimulation of myelinated vagal afferents (mean onset latency of 100±5 ms). The average duration of late inhibition (294±19 ms) exceeded the duration of the cardiac cycle. As a consequence of this, sustained vagal stimulation diminished the effect of rhythmic baroreceptor inputs in neurons that exhibited late vagal inhibition. Simultaneous activation of aortic and vagal afferents significantly increased the magnitude of late inhibition, even in those neurons where stimulation of the aortic nerve alone did not elicit a response ( n=15). This suggested that the convergence between vagal and aortic afferent inputs occurred in inhibitory interneurons antecedent to the recorded rostral ventrolateral medulla oblongata neurons. Focal stimulation of the caudal part of the nucleus of the solitary tract also elicited a late-onset inhibition in 73% of the neurons that responded to stimulation of the aortic nerve. This inhibition appeared to be similar to the late vagal inhibition, except for its shorter average onset latency (64±7 ms). Based on this observation, it is proposed that inhibitory interneurons that mediate late inhibition to rostral ventrolateral medulla oblongata neurons may lie within the caudal part of the nucleus of the solitary tract. The present study established that activation of myelinated vagal afferents exerts a complex modulation over the ongoing and evoked activity of neurons that respond to stimulation of the aortic nerve. The complex interaction that occurs between aortic and vagal inputs in neurons of the rostral ventrolateral medulla may be implicated in long-term modulation of sympathetic outflows in response to changes in the activation of viscera
ISSN:0306-4522
1873-7544
DOI:10.1016/S0306-4522(99)00041-X