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Synaptic Currents in Thalamo-cortical Neurons of the Rat Lateral Geniculate Nucleus

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  • N. Leresche

    Corresponding author
    1. Laboratoire de Neurobiologie, URA 295 CNRS, Ecole Normale Supérieure, 46 rue d'Ulm, 75005 Paris, France
      N. Leresche, Département de Neurochimie-Anatomie, Institut des Neurosciences, Université Pierre et Marie Curie, 9 quai Saint Bernard, 75252 Paris Cedex 05, France
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N. Leresche, Département de Neurochimie-Anatomie, Institut des Neurosciences, Université Pierre et Marie Curie, 9 quai Saint Bernard, 75252 Paris Cedex 05, France

Abstract

Thalamo-cortical neurons were identified in slices of the rat dorsal lateral geniculate nucleus and whole-cell currents were recorded using the patch-clamp technique. Postsynaptic currents occurring spontaneously, or elicited by extracellular stimulation in the vicinity of the recorded neuron, were analysed. Spontaneous postsynaptic currents were observed in every recorded neuron. At a holding potential of –60 mV, and with a high internal Cl, the currents were inward and had amplitudes ranging from <10 to 425 pA. All the spontaneous currents were blocked by 10 μM bicuculline, indicating that they were due to the activation of postsynaptic α-aminobutyric acid (GABAA) receptors. The 10–90% rise time of these spontaneous GABAergic currents was 0.86 ± 0.19 ms. Their time course of decay could be fitted to an exponential function with one time constant of 18.19 ± 3.02 ms (mean ± SD), or two time constants of 4.47 ± 0.77 and 33.27 ± 3.74 ms. This activity was frequently organized in bursts. Stimulus-evoked postsynaptic currents were recorded and shown to be due to the activation of glutamatergic receptors. Under similar experimental conditions a bicuculline-sensitive component was also recorded. These stimulus-evoked GABAergic currents had a 10–90% rise time of 1.93 ± 0.54 ms. Their time course of decay could also be fitted to an exponential function with one time constant of 24.42 ms or two time constants of 10.26 ± 2.46 and 49.30 ± 10.98 ms. The difference in the time course between spontaneous and evoked GABAergic currents suggests that these responses may arise from synapses having different locations.

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