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Articles, Systems/Circuits

Implications of Lateral Cerebellum in Proactive Control of Saccades

Jun Kunimatsu, Tomoki W. Suzuki and Masaki Tanaka
Journal of Neuroscience 29 June 2016, 36 (26) 7066-7074; DOI: https://doi.org/10.1523/JNEUROSCI.0733-16.2016
Jun Kunimatsu
1Department of Physiology, Hokkaido University School of Medicine, Sapporo 060-8638, Japan, and
2Laboratory of Sensorimotor Research, National Eye Institute, National Institutes of Health, Bethesda, Maryland 20892
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Tomoki W. Suzuki
1Department of Physiology, Hokkaido University School of Medicine, Sapporo 060-8638, Japan, and
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Masaki Tanaka
1Department of Physiology, Hokkaido University School of Medicine, Sapporo 060-8638, Japan, and
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Abstract

Although several lines of evidence establish the involvement of the medial and vestibular parts of the cerebellum in the adaptive control of eye movements, the role of the lateral hemisphere of the cerebellum in eye movements remains unclear. Ascending projections from the lateral cerebellum to the frontal and parietal association cortices via the thalamus are consistent with a role of these pathways in higher-order oculomotor control. In support of this, previous functional imaging studies and recent analyses in subjects with cerebellar lesions have indicated a role for the lateral cerebellum in volitional eye movements such as anti-saccades. To elucidate the underlying mechanisms, we recorded from single neurons in the dentate nucleus of the cerebellum in monkeys performing anti-saccade/pro-saccade tasks. We found that neurons in the posterior part of the dentate nucleus showed higher firing rates during the preparation of anti-saccades compared with pro-saccades. When the animals made erroneous saccades to the visual stimuli in the anti-saccade trials, the firing rate during the preparatory period decreased. Furthermore, local inactivation of the recording sites with muscimol moderately increased the proportion of error trials, while successful anti-saccades were more variable and often had shorter latency during inactivation. Thus, our results show that neuronal activity in the cerebellar dentate nucleus causally regulates anti-saccade performance. Neuronal signals from the lateral cerebellum to the frontal cortex might modulate the proactive control signals in the corticobasal ganglia circuitry that inhibit early reactive responses and possibly optimize the speed and accuracy of anti-saccades.

SIGNIFICANCE STATEMENT Although the lateral cerebellum is interconnected with the cortical eye fields via the thalamus and the pons, its role in eye movements remains unclear. We found that neurons in the caudal part of the lateral (dentate) nucleus of the cerebellum showed the increased firing rate during the preparation of anti-saccades. Inactivation of the recording sites modestly elevated the rate of erroneous saccades to the visual stimuli in the anti-saccade trials, while successful anti-saccades during inactivation tended to have a shorter latency. Our data indicate that neuronal signals in the lateral cerebellum may proactively regulate anti-saccade generation through the pathways to the frontal cortex, and may inhibit early reactive responses and regulate the accuracy of anti-saccades.

  • anti-saccade
  • cerebellum
  • dentate nucleus
  • inactivation
  • primate
  • single neurons
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The Journal of Neuroscience: 36 (26)
Journal of Neuroscience
Vol. 36, Issue 26
29 Jun 2016
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Implications of Lateral Cerebellum in Proactive Control of Saccades
Jun Kunimatsu, Tomoki W. Suzuki, Masaki Tanaka
Journal of Neuroscience 29 June 2016, 36 (26) 7066-7074; DOI: 10.1523/JNEUROSCI.0733-16.2016

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Implications of Lateral Cerebellum in Proactive Control of Saccades
Jun Kunimatsu, Tomoki W. Suzuki, Masaki Tanaka
Journal of Neuroscience 29 June 2016, 36 (26) 7066-7074; DOI: 10.1523/JNEUROSCI.0733-16.2016
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Keywords

  • anti-saccade
  • cerebellum
  • dentate nucleus
  • inactivation
  • primate
  • single neurons

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