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Transcerebellar inhibitory interaction between the bilateral vestibular nuclei and its modulation by cerebellocortical activity

Experimental Brain Research volume 25pages 447–463 (1976)Cite this article

Summary

In decerebrate, unanesthetized cats, the brain stem was longitudinally cut at the midline from its dorsal to ventral surface with the cerebellum kept intact, eliminating neural interactions between the bilateral vestibular nuclei through the brain stem.

Extracellular spike potentials of vestibular type I neurons identified by horizontal rotation were distinctly inhibited by contralateral vestibular nerve stimulation. This crossed inhibition was abolished by removal of the medial part of the cerebellum, indicating that the inhibition was mediated through the cerebellum. Neither aspiration of the flocculus on the recording side nor intravenous administration of picrotoxin eliminated transcerebellar crossed inhibition, suggesting that it is mediated through the cerebellar nuclei. When the fastigial, interposite and dentate nuclei were stimulated, inhibition of vestibular type I neurons was produced only from the contralateral fastigial nucleus. Cerebellocortical stimulation which inhibited fastigial type I neurons suppressed transcerebellar crossed inhibition. Effective sites for suppression of transcerebellar crossed inhibition were localized to lobules VI and VIIa in the vermal cortex on the side of labyrinthine stimulation.

Intracellular recordings were made from type I neurons in the medial vestibular nucleus. Stimulation of the contralateral vestibular nerve and the contralateral fastigial nucleus produced IPSPs in these neurons with the shortest latency of 3.8 msec and 1.8 msec, respectively. The difference between these two latency values approximates the shortest latency of spike initiation of fastigial type I neurons in response to vestibular nerve stimulation. It is postulated that transcerebellar crossed inhibition is mediated through the fastigial nucleus on the side of labyrinthine stimulation.

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Affiliations

  1. Department of Neurophysiology, Institute of Brain Research, School of Medicine, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo, Japan

    N. Furuya, K. Kawano & H. Shimazu

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  1. N. Furuya
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  2. K. Kawano
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  3. H. Shimazu
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Furuya, N., Kawano, K. & Shimazu, H. Transcerebellar inhibitory interaction between the bilateral vestibular nuclei and its modulation by cerebellocortical activity. Exp Brain Res 25, 447–463 (1976). https://doi.org/10.1007/BF00239780

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  • DOI: https://doi.org/10.1007/BF00239780

Key words

  • Vestibular neuron
  • Horizontal semicircular canal
  • Transcerebellar crossed inhibition
  • Cerebellocortical suppression
  • Lobules VI and VIIa