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The Journal of Neuroscience, July 30, 2003, 23(17):6778-6787

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The Relay of High-Frequency Sensory Signals in the Whisker-to-Barreloid Pathway

Martin Deschênes, Elena Timofeeva, and Philippe Lavallée

Centre de Recherche Université Laval-Robert Giffard, Hoêpital Robert-Giffard, Quebec City, Quebec G1J 2G3, Canada

The present study investigated the operational features of whisker-evoked EPSPs in barreloid cells and the ability of the whisker-to-barreloid pathway to relay high rates of whisker deflection in lightly anesthetized rats. Results show that lemniscal EPSPs are single-fiber events with fast rise times (<500 µsec) that strongly depress at short inter-EPSP intervals. They occur at short latencies (3.84 ± 0.96 msec) with little jitters (<300 µsec) after electrical stimulation of the whisker follicle. Waveform analysis indicates that one to three lemniscal axons converge on individual barreloid cells to produce EPSPs of similar rise times but different amplitudes. When challenged by high rates of whisker deflection, cells in the whisker-to-barreloid pathway demonstrate a remarkable frequency-following ability. Primary vibrissa afferents could follow in a phase-locked manner trains of sinusoidal deflections at up to 1 kHz. Although trigeminothalamic cells could still faithfully follow deflection rates of 200-300 Hz, the actual frequency-following ability of individual cells depends on the amplitude, velocity, and direction of displacements. The discharges of trigeminothalamic cells induce corresponding phase-locked EPSPs in barreloid cells, which trigger burst discharges at stimulus onset. During the following cycles of the stimulus train, few action potentials ensue because of the strong synaptic depression at lemniscal synapses. It is concluded that the whisker-to-barreloid pathway can relay vibratory inputs with a high degree of temporal precision, but that the relay of this information to the cerebral cortex requires the action of modulators, and possibly phase-locked discharges among an ensemble of relay cells.

Key words: trigeminal sensory nucleus; ventral posterior medial nucleus; thalamic relay cells; vibrissa; medial lemniscus; vibrissa primary afferents; barrel

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Received Mar. 14, 2003; revised Jun. 6, 2003; accepted Jun. 10, 2003.

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