Quantitative Analysis of Substantia Nigra Pars Reticulata Activity During a Visually Guided Saccade Task

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Quantitative Analysis of Substantia Nigra Pars Reticulata Activity During a Visually Guided Saccade Task

Ari Handel and Paul W. Glimcher

Center for Neural Science, New York University, New York, New York 10003

Handel, Ari and Paul W. Glimcher. Quantitative Analysis of Substantia Nigra Pars Reticulata Activity During a Visually Guided Saccade Task. J. Neurophysiol. 82: 3458-3475, 1999. Several lines of evidence suggest that the pars reticulata subdivision of the substantia nigra (SNr) plays a role in the generationof saccadic eye movements. However, the responses of SNr neuronsduring saccades have not been examined with the same level ofquantitative detail as the responses of neurons in other key saccadicareas. For this report, we examined the firing rates of 72 SNrneurons while awake-behaving primates correctly performed an averageof 136 trials of a visually guided delayed saccade task. On eachtrial, the location of the visual target was chosen randomly froma grid spanning 40° of horizontal and vertical visual angle. Wemeasured the firing rates of each neuron during five intervalson every trial: a baseline interval, a fixation interval, a visualinterval, a movement interval, and a reward interval. We foundfour distinct classes of SNr neurons. Two classes of neurons hadfiring rates that decreased during delayed saccade trials. Thefiring rates of discrete pausers decreased after the onset ofa contralateral target and/or before the onset of a saccade thatwould align gaze with that target. The firing rates of universalpausers decreased after fixation on all trials and remained belowbaseline until the delivery of reinforcement. We also found twoclasses of SNr neurons with firing rates that increased duringdelayed saccade trials. The firing rates of bursters increasedafter the onset of a contralateral target and/or before the onsetof a saccade aligning gaze with that target. The firing ratesof pause-bursters increased after the onset of a contralateraltarget but decreased after the illumination of an ipsilateraltarget. Our quantification of the response profiles of SNr neuronsyielded three novel findings. First, we found that some SNr neuronsgenerate saccade-related increases in activity. Second, we foundthat, for nearly all SNr neurons, the relationship between firingrate and horizontal and vertical saccade amplitude could be welldescribed by a planar surface within the range of movements wesampled. Finally we found that for most SNr neurons, saccade-relatedmodulations in activity were highly variable on a trial-by-trialbasis.

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