Role of the caudal fastigial nucleus in saccade generation. II. Effects of muscimol inactivation

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Role of the caudal fastigial nucleus in saccade generation. II. Effects of muscimol inactivation

F. R. Robinson, A. Straube and A. F. Fuchs
Department of Physiology and Biophysics, University of Washington, Seattle 98195.

1. We studied the effect of temporarily inhibiting neurons in the caudal fastigial nucleus in two rhesus macaques trained to make saccades to jumping targets. We placed injections of the gamma-aminobutyric acid (GABA) agonist muscimol unilaterally or bilaterally at sites in the caudal fastigial nucleus where we had recorded saccade-related neurons a few minutes earlier. 2. Unilateral injections (n = 9) made horizontal saccades to the injected side hypermetric and those to the other side hypometric (mean gain of 1.37 and 0.61, respectively, for 10 degrees target steps, and 1.26 and 0.81 for 20 degrees target steps; normal saccade gain was 0.96). Saccades to vertical targets showed a small but significant hypermetria and curved strongly toward the side of the injection. The trajectories and end points of all targeted saccades were more variable than normal. 3. After unilateral injections, centripetal saccades were slightly larger than centrifugal saccades (mean gains for ipsilateral saccades were 1.42 and 1.31, respectively, for 10 degrees target steps, and 1.37 and 1.15 for 20 degrees target steps). 4. Unilateral injections increased the average acceleration of ipsilateral saccades and decreased the acceleration of contralateral saccades. Injections decreased both the acceleration and deceleration of vertical saccades. 5. After dysmetric saccades, monkeys acquired the target with an abnormally high number of hypometric corrective saccades. Injection increased the average number of corrective saccades from 0.6 to 2.1 after 10 degrees horizontal target steps and from 0.8 to 2.1 after 20 degrees steps. The size of each successive corrective saccade in a series decreased, and the latency from the previous corrective saccade increased. 6. Bilateral injections (n = 2) of muscimol, in which we injected first into the left caudal fastigial nucleus and then, within 30 min, into the right, made all saccades hypermetric (mean gain for 10 degrees right, left, up, and down saccades was 1.18, 1.49, 1.43, and 1.10, respectively). Paradoxically, bilateral injection decreased both saccade acceleration and deceleration. Saccade trajectories and end points were more variable than normal. 7. To account for the effects of our injections, we propose that the activity of caudal fastigial neurons on one side normally helps to decelerate ipsilateral saccades and helps to accelerate contralateral saccades by influencing the feedback loop of the saccade burst generator in the brain stem. Without caudal fastigial activity the brain stem burst generator produces hypermetric, variable saccades. We therefore also propose that the influence of caudal fastigial neurons on the burst generator makes saccades more consistent and accurate.(ABSTRACT TRUNCATED AT 400 WORDS)

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				P. F. Martino, S. Davis, C. Opansky, K. Krause, J. M. Bonis, S. G. Czerniak, L. G. Pan, B. Qian, and H. V. Forster Lesions in the cerebellar fastigial nucleus have a small effect on the hyperpnea needed to meet the gas exchange requirements of submaximal exercise J Appl Physiol, October 1, 2006; 101(4): 1199 - 1206. [Abstract] [Full Text] [PDF]

				C. R. S. Kaneko and A. F. Fuchs Effect of Pharmacological Inactivation of Nucleus Reticularis Tegmenti Pontis on Saccadic Eye Movements in the Monkey J Neurophysiol, June 1, 2006; 95(6): 3698 - 3711. [Abstract] [Full Text] [PDF]

				C. K. Rodgers, D. P. Munoz, S. H. Scott, and M. Pare Discharge Properties of Monkey Tectoreticular Neurons J Neurophysiol, June 1, 2006; 95(6): 3502 - 3511. [Abstract] [Full Text] [PDF]

				N. Takeichi, C.R.S. Kaneko, and A. F. Fuchs Discharge of Monkey Nucleus Reticularis Tegmenti Pontis Neurons Changes During Saccade Adaptation J Neurophysiol, September 1, 2005; 94(3): 1938 - 1951. [Abstract] [Full Text] [PDF]

				J. Quinet and L. Goffart Saccade Dysmetria in Head-Unrestrained Gaze Shifts After Muscimol Inactivation of the Caudal Fastigial Nucleus in the Monkey J Neurophysiol, April 1, 2005; 93(4): 2343 - 2349. [Abstract] [Full Text] [PDF]

				L. Goffart, L. L. Chen, and D. L. Sparks Deficits in Saccades and Fixation During Muscimol Inactivation of the Caudal Fastigial Nucleus in the Rhesus Monkey J Neurophysiol, December 1, 2004; 92(6): 3351 - 3367. [Abstract] [Full Text] [PDF]

				J. C. Rucker, B. E. Shapiro, Y. H. Han, A. N. Kumar, S. Garbutt, E. L. Keller, and R. J. Leigh Neuro-ophthalmology of late-onset Tay-Sachs disease (LOTS) Neurology, November 23, 2004; 63(10): 1918 - 1926. [Abstract] [Full Text] [PDF]

				R. J. Leigh and C. Kennard Using saccades as a research tool in the clinical neurosciences Brain, March 1, 2004; 127(3): 460 - 477. [Abstract] [Full Text] [PDF]

				R. J. Krauzlis Recasting the Smooth Pursuit Eye Movement System J Neurophysiol, February 1, 2004; 91(2): 591 - 603. [Abstract] [Full Text] [PDF]

				N. Alahyane and D. Pelisson Eye Position Specificity of Saccadic Adaptation Invest. Ophthalmol. Vis. Sci., January 1, 2004; 45(1): 123 - 130. [Abstract] [Full Text] [PDF]

ARTICLES

Role of the caudal fastigial nucleus in saccade generation. II. Effects of muscimol inactivation

				J. F. Kleine, Y. Guan, and U. Buttner Saccade-Related Neurons in the Primate Fastigial Nucleus: What Do They Encode? J Neurophysiol, November 1, 2003; 90(5): 3137 - 3154. [Abstract] [Full Text] [PDF]

				C. A. Scudder and D. M. McGee Adaptive Modification of Saccade Size Produces Correlated Changes in the Discharges of Fastigial Nucleus Neurons J Neurophysiol, August 1, 2003; 90(2): 1011 - 1026. [Abstract] [Full Text] [PDF]

				C. Helmchen, A. Hagenow, J. Miesner, A. Sprenger, H. Rambold, R. Wenzelburger, W. Heide, and G. Deuschl Eye movement abnormalities in essential tremor may indicate cerebellar dysfunction Brain, June 1, 2003; 126(6): 1319 - 1332. [Abstract] [Full Text] [PDF]

				C. J. Ploner, A. Tschirch, F. Ostendorf, S. Dick, B. M. Gaymard, S. Rivaud-Pechoux, F. Sporkert, F. Pragst, and A. M. Stadelmann Oculomotor Effects of {delta}-9-Tetrahydrocannabinol in Humans: Implications for the Functional Neuroanatomy of the Brain Cannabinoid System Cereb Cortex, October 1, 2002; 12(10): 1016 - 1023. [Abstract] [Full Text] [PDF]

				J. A. Edelman and M. E. Goldberg Effect of Short-Term Saccadic Adaptation on Saccades Evoked by Electrical Stimulation in the Primate Superior Colliculus J Neurophysiol, April 1, 2002; 87(4): 1915 - 1923. [Abstract] [Full Text] [PDF]

				D. Timmann, R. Citron, S. Watts, and J. Hore Increased Variability in Finger Position Occurs Throughout Overarm Throws Made by Cerebellar and Unskilled Subjects J Neurophysiol, December 1, 2001; 86(6): 2690 - 2702. [Abstract] [Full Text] [PDF]

				F. R. Robinson Role of the Cerebellar Posterior Interpositus Nucleus in Saccades I. Effect of Temporary Lesions J Neurophysiol, September 1, 2000; 84(3): 1289 - 1302. [Abstract] [Full Text] [PDF]

				D. M. Waitzman, V. L. Silakov, S. DePalma-Bowles, and A. S. Ayers Effects of Reversible Inactivation of the Primate Mesencephalic Reticular Formation. I. Hypermetric Goal-Directed Saccades J Neurophysiol, April 1, 2000; 83(4): 2260 - 2284. [Abstract] [Full Text] [PDF]

				S. Barash, A. Melikyan, A. Sivakov, M. Zhang, M. Glickstein, and P. Thier Saccadic Dysmetria and Adaptation after Lesions of the Cerebellar Cortex J. Neurosci., December 15, 1999; 19(24): 10931 - 10939. [Abstract] [Full Text] [PDF]

				K. S. Garcia, P. M. Steele, and M. D. Mauk Cerebellar Cortex Lesions Prevent Acquisition of Conditioned Eyelid Responses J. Neurosci., December 15, 1999; 19(24): 10940 - 10947. [Abstract] [Full Text] [PDF]