Electrophysiological Properties of Rat Pontine Nuclei Neurons In Vitro II. Postsynaptic Potentials

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Electrophysiological Properties of Rat Pontine Nuclei Neurons In Vitro II. Postsynaptic Potentials

Martin Möck, Cornelius Schwarz, and Peter Thier

Sektion für Visuelle Sensomotorik, Neurologische Universitätsklinik Tübingen, 72076 Tubingen, Germany

Möck, Martin, Cornelius Schwarz, and Peter Thier. Electrophysiological properties of rat pontine nuclei neurons invitro. II. Postsynaptic potentials. J. Neurophysiol. 78: 3338-3350,1997. We investigated the postsynaptic responses of neurons ofthe rat pontine nuclei (PN) by performing intracellular recordingsin parasagittal slices of the pontine brain stem. Postsynapticpotentials (PSPs) were evoked by brief (0.1 ms) negative currentpulses (10-250 µA) applied to either the cerebral peduncle orthe pontine tegmentum. First, excitatory postsynaptic potentials(EPSPs) could be evoked readily from peduncular stimulation sites.These EPSPs exhibited short latencies, a nonlinear increment inresponse to increased stimulation currents, and an unconventionaldependency on the somatic membrane potential. Pharmacologicalblockade of the synaptic transmission using 6,7-dinitroquinoxaline-2,3-dioneand D,L-2-amino-5-phosphonovaleric acid, selective antagonistsof the $alpha$ -amino-3-hydroxy-5-methyl-4-isoxazilepropionate- (AMPA)and the N-methyl-D-aspartate (NMDA)-type glutamate receptors,showed that these EPSPs were mediated exclusively by excitatoryamino acids via both AMPA and NMDA receptors. Moreover, the pharmacologicalexperiments indicated the existence of voltage-sensitive but NMDAreceptor-independent amplification of EPSPs. Second, stimulationsat peduncular and tegmental sites also elicited inhibitory postsynapticpotentials (IPSPs) in a substantial proportion of pontine neurons.The short latencies of all IPSPs argued against the participationof inhibitory interneurons. Their sensitivity to bicuculline andreversal potentials around $-$ 70 mV suggested that they were mediatedby $gamma$ -aminobutyric acid-A (GABA_A) receptors. In addition to singlePSPs, sequences consisting of two to four distinct EPSPs couldbe recorded after stimulation of the cerebral peduncle. Most remarkably,the onset latencies of the following EPSPs were multiples of thefirst one indicating the involvement of intercalated synapses.Finally, we used the classic paired-pulse paradigm to study whetherthe temporal structure of inputs influences the synaptic transmissiononto pontine neurons. Pairs of electrical stimuli applied to thecerebral peduncle resulted in a marked enhancement of the amplitudeof the second EPSP for interstimulus intervals of 10-100 ms. Delays>200 ms left the EPSP amplitude unaltered. These data provideevidence for a complex synaptic integration and an intrinsic connectivitywithin the PN too elaborate to support the previous notion thatthe PN are simply a relay station.

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