Vagal afferent control of opioidergic effects in rat brainstem circuits

doi:10.1113/jphysiol.2006.111104

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Vagal afferent control of opioidergic effects in rat brainstem circuits

Kirsteen N. Browning¹, Zhongling Zheng¹, Thomas W. Gettys² and R. Alberto Travagli¹

¹ Department of Neuroscience
² Division of Experimental Obesity, Pennington Biomedical Research Center, Louisiana State University System, Baton Rouge, LA 70808, USA

We demonstrated recently that increasing the levels of cAMPallows opioids to modulate GABAergic synaptic transmission betweenthe nucleus of the tractus solitarius (NTS) and dorsal motornucleus of the vagus (DMV). Using a combination of electrophysiological,immunohistochemical and biochemical approaches, we provide evidencethat vagal afferent fibres dampen cAMP levels within the vagalbrainstem circuits via tonic activation of group II metabotropicglutamate receptors (mGluRs). Whole-cell patch-clamp recordingswere made from identified neurons of the rat DMV. Followingchronic vagal deafferentation, the opioid agonist methionine-enkephalin(ME) inhibited the amplitude of evoked IPSC (eIPSC) in 32 of33 neurons, without exogenous enhancement of cAMP levels. TheME-induced inhibition was prevented by the group II mGluR-selectiveagonist APDC. Following perfusion with the group II mGluR-selectiveantagonist EGLU, ME inhibited eIPSC amplitude in brainstem slicesof control rats. Immunohistochemical experiments revealed that,following vagal deafferentation, µ-opioid receptors werecolocalized on GABAergic profiles apposing DMV neurons; thenumber of colocalized profiles was significantly decreased bypretreatment with APDC. Radioimmunoassay and Western blot analysisshowed that cAMP and phosphorylated cyclic AMP response elementbinding protein (pCREB) levels in the dorsal vagal complex wereincreased following vagal deafferentation. Our data show thatby tonically dampening the levels of cAMP within the GABAergicsynaptic contacts, activated group II mGluRs prevent the modulationof this synapse by endogenous opioids. These data suggest thatthe plasticity, hence the response, of central circuits controllingthe vagal motor outflow to visceral organs is modulated andfinely tuned by vagal afferent fibres.

(Received 5 April 2006; accepted after revision 5 July 2006; first published online 6 July 2006)
Corresponding author R. A. Travagli: Department of Neuroscience, Pennington Biomedical Research Center, Louisiana State University System, Baton Rouge, LA 70808, USA. Email: alberto.travagli{at}pbrc.edu

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