{alpha}-1 adrenergic input to solitary nucleus neurones: calcium oscillations, excitation and gastric reflex control

doi:10.1113/jphysiol.2004.076919

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${alpha}$ -1 adrenergic input to solitary nucleus neurones: calcium oscillations, excitation and gastric reflex control

Gerlinda E. Hermann¹, Jason S. Nasse¹ and Richard C. Rogers¹

¹ Laboratory of Autonomic Neuroscience, Pennington Biomedical Research Center, Louisiana State University, Baton Rouge, LA 70808, USA

The nucleus of the solitary tract (NST) processes substantialvisceral afferent input and sends divergent projections to awide array of CNS targets. The NST is essential to the maintenanceof behavioural and autonomic homeostasis and is the source,as well as the recipient, of considerable noradrenergic (NE)projections. The significance of NE projections from the NSTto other CNS regions has long been appreciated, but the natureof NE action on NST neurones themselves, especially on the ${alpha}$ -1receptor subtype, is controversial. We used a combination ofmethodologies to establish, systematically, the effects andcellular basis of action of the ${alpha}$ -1 agonist, phenylephrine (PHE),to control NST neurones responsible for vago-vagal reflex regulationof the stomach. Immunocytochemical and retrograde tracing studiesverified that the area postrema, A2, A5, ventrolateral medullaand locus coeruleus regions are sources of catecholaminergicinput to the NST. In vivo electrophysiological recordings showedthat PHE activates physiologically identified, second-ordergastric sensory NST neurones. In vivo microinjection of PHEonto NST neurones caused a significant reduction in gastrictone. Finally, in vitro calcium imaging studies revealed thatPHE caused dramatic cytosolic calcium oscillations in NST neurones.These oscillations are probably the result of an interplay betweenagonist-induced and inositol 1,4,5-trisphosphate (IP₃)-mediatedintracellular calcium release and Ca²⁺-ATPase control of intracellularcalcium storage pumps. The oscillations persisted even in perfusionsof zero calcium–EGTA Krebs solution suggesting that thecalcium oscillation is mediated principally by intracellularcalcium release–reuptake mechanisms. Cyclical activationof the NST may function to increase the responsiveness of theseneurones to incoming afferent input (i.e., elevate the ‘gain’).An increase in gain of afferent input may cause an amplificationof the response part of the reflex and help explain the powerfuleffects that ${alpha}$ -1 agonists have in suppressing gastric motilityand producing anorexia.

(Received 7 October 2004; accepted after revision 5 November 2004; first published online 11 November 2004)
Corresponding author R. C. Rogers: Pennington Biomedical Research Center, 6400 Perkins Road, Baton Rouge, LA 70808, USA. Email: rogersrc{at}pbrc.edu

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