2006
DOI: 10.1523/jneurosci.1672-06.2006
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Expression of Multiple P2X Receptors by Glossopharyngeal Neurons Projecting to Rat Carotid Body O2-Chemoreceptors: Role in Nitric Oxide-Mediated Efferent Inhibition

Abstract: In mammals, ventilation is peripherally controlled by the carotid body (CB), which receives afferent innervation from the petrosal ganglion and efferent innervation from neurons located along the glossopharyngeal nerve (GPN). GPN neurons give rise to the "efferent inhibitory" pathway via a plexus of neuronal nitric oxide (NO) synthase-positive fibers, believed to be responsible for CB chemoreceptor inhibition via NO release. Although NO is elevated during natural CB stimulation by hypoxia, the underlying mecha… Show more

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Cited by 50 publications
(59 citation statements)
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“…These results contrast with the reduction in carotid sinus nerve discharges in response to hypoxia observed in old rats (Conde et al 2006). It is known that the glossopharyngeal nerve has, in addition to carotid sinus nerve afferent fibers, a parallel autonomic parasympathetic efferent pathway sensitive to hypoxia that is the source of CB inhibition (Campanucci et al 2006). We can speculate that the reduction in CSN discharges found in old animals (Conde et al 2006) could mainly be due to an impairment of the efferent fiber activity without changes in the chemosensory excitatory afferent pathway.…”
Section: Discussionmentioning
confidence: 63%
“…These results contrast with the reduction in carotid sinus nerve discharges in response to hypoxia observed in old rats (Conde et al 2006). It is known that the glossopharyngeal nerve has, in addition to carotid sinus nerve afferent fibers, a parallel autonomic parasympathetic efferent pathway sensitive to hypoxia that is the source of CB inhibition (Campanucci et al 2006). We can speculate that the reduction in CSN discharges found in old animals (Conde et al 2006) could mainly be due to an impairment of the efferent fiber activity without changes in the chemosensory excitatory afferent pathway.…”
Section: Discussionmentioning
confidence: 63%
“…Mutant mice lacking neuronal nitric oxide synthase show a significantly higher basal carotid sinus nerve discharge and greater hypoxic ventilatory responses compared to wild type mice [72]. Neurons in the glossopharyngeal nerve that express neuronal nitric oxide synthase also express P2X2, P2X3, P2X4 and P2X7-containing purinoceptors [73]. Further, activation of these purinoceptors in a co-culture preparation of rat glossopharyngeal neurons and carotid body cells hyperpolarizes type I cells.…”
Section: Role Of Nitric Oxide (No) As An Inhibitory Paracrine Neuromomentioning
confidence: 96%
“…Further, activation of these purinoceptors in a co-culture preparation of rat glossopharyngeal neurons and carotid body cells hyperpolarizes type I cells. This hyperpolarization was prevented by NO scavengers [73]. Neurons in the glossopharyngeal nerve also express nicotinic ACh receptors and are themselves cholinergic, raising the possibility of an additional paracrine/autocrine pathway by which ACh receptor activation elicits NO release [69].…”
Section: Role Of Nitric Oxide (No) As An Inhibitory Paracrine Neuromomentioning
confidence: 99%
“…1c). The CB also contains some autonomic neurons and fibres, which seem to have an efferent regulatory action on glomus cells [5].…”
mentioning
confidence: 99%