Strong, reliable and precise synaptic connections between thalamic relay cells and neurones of the nucleus reticularis in juvenile rats

doi:10.1113/jphysiol.2002.032730

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First published online on December 13, 2002.
Copyright © 2002 by The Physiological Society

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	Articles by Ulrich, D.

Received September 19, 2002
Accepted after revision November 11, 2002

Strong, reliable and precise synaptic connections between thalamic relay cells and neurones of the nucleus reticularis in juvenile rats

L. J. Gentet¹^* and Daniel Ulrich¹

¹ Institute of Physiology, University of Bern, Bühlplatz 5, 3012 Bern, Switzerland

^* To whom correspondence should be addressed. E-mail: gentet{at}pyl.unibe.ch.

The thalamic reticular nucleus (nRT) is composed entirely ofGABAergic inhibitory neurones that receive input from pyramidalcortical neurones and excitatory relay cells of the ventrobasalcomplex of the thalamus (VB). It plays a major role in the synchronyof thalamic networks, yet the synaptic connections it receivesfrom VB cells have never been fully physiologically characterised.Here, whole-cell current-clamp recordings were obtained from22 synaptically connected VB-nRT cell pairs in slices of juvenile(P14-20) rats. At 34-36 °C, single presynaptic APs evokedunitary EPSPs in nRT cells with a peak amplitude of 7.4 ±1.5 mV (mean ± S.E.M.) and a decay time constant of 15.1± .9 ms. Only four out of 22 pairs showed transmissionfailures at a mean rate of 6.8 ± 1.1 %. An NMDAR-mediatedcomponent was significant at rest and subsequent EPSPs in atrain were depressed. Only one out of 14 pairs tested was reciprocallyconnected; the observed IPSPs in the VB cell had a peak amplitudeof 0.8 mV and were completely abolished in the presence of 10µM bicuculline. Thus, synaptic connections from VB cellsto nRT neurones are mainly 'drivers', while a small subset ofcells form closed disynaptic loops.

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