Pursuit-Related Neurons in the Supplementary Eye Fields: Discharge During Pursuit and Passive Whole Body Rotation

doi:10.1152/jn.01128.2003

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Pursuit-Related Neurons in the Supplementary Eye Fields: Discharge During Pursuit and Passive Whole Body Rotation

Junko Fukushima¹, Teppei Akao², Norihito Takeichi²^,3, Sergei Kurkin², Chris R. S. Kaneko³ and Kikuro Fukushima²

¹Department of Health Sciences and ²Department of Physiology, Hokkaido University School of Medicine, Sapporo 060-8638, Japan; and ³Department of Physiology and Biophysics and Washington National Primate Research Center, University of Washington, Seattle, Washington 98195

Submitted 24 November 2003; accepted in final form 3 January 2004

The primate frontal cortex contains two areas related to smooth-pursuit:the frontal eye fields (FEFs) and supplementary eye fields (SEFs).To distinguish the specific role of the SEFs in pursuit, weexamined discharge of a total of 89 pursuit-related neuronsthat showed consistent modulation when head-stabilized Japanesemonkeys pursued a spot moving sinusoidally in fronto-parallelplanes and/or in depth and with or without passive whole bodyrotation. During smooth-pursuit at different frequencies, 43%of the neurons tested (17/40) exhibited discharge amplitudeof modulation linearly correlated with eye velocity. Duringcancellation of the vestibulo-ocular reflex and/or chair rotationin complete darkness, the majority of neurons tested (91% =30/33) responded. However, only 17% of the responding neurons(4/30) were modulated in proportion to gaze (eye-in-space) velocityduring pursuit-vestibular interactions. When the monkeys fixateda stationary spot, 20% of neurons tested (7/34) responded tomotion of a second spot. Among the neurons tested for both smooth-pursuitand vergence tracking (n = 56), 27% (15/56) discharged duringboth, 62% (35/56) responded during smooth-pursuit only, and11% (6/56) during vergence tracking only. Phase shifts (relativeto stimulus velocity) of responding neurons during pursuit infrontal and depth planes and during chair rotation remainedvirtually constant ( $<=$ 1 Hz). These results, together with therobust vestibular-related discharge of most SEF neurons, showthat the discharge of the majority of SEF pursuit-related neuronsis quite distinct from that of caudal FEF neurons in identicaltask conditions, suggesting that the two areas are involvedin different aspects of pursuit-vestibular interactions includingpredictive pursuit.

Address for reprint requests and other correspondence: K. Fukushima, Dept. of Physiology, Hokkaido Univ. School of Medicine, West 7, North 15, Sapporo 060-8638, Japan (E-mail: kikuro{at}med.hokudai.ac.jp).

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