Neuronal Activity in the Primate Substantia Nigra Pars Reticulata During the Performance of Simple and Memory-Guided Elbow Movements

doi:10.1152/jn.01180.2002

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Neuronal Activity in the Primate Substantia Nigra Pars Reticulata During the Performance of Simple and Memory-Guided Elbow Movements

Thomas Wichmann and Michele Ann Kliem

Department of Neurology, Emory University School of Medicine, Atlanta, Georgia 30322

Submitted 31 December 2002; accepted in final form 4 September 2003

The basal ganglia participate in motor functions and are implicatedin the pathophysiology of movement disorders. It has been shownin primates that the activity of many neurons in one of thebasal ganglia output nuclei, the internal segment of the globuspallidus, changes with active or passive movements. The involvementof the second major output nucleus, the substantia nigra parsreticulata (SNr), in movement is less well established. In thisstudy, the electrophysiologic activity of SNr neurons was studiedin two awake Rhesus monkeys while the animals were examinedand while they performed elbow movements in two different motortasks (n = 261 cells). Responses to examination were uncommonand subtle. Twenty-one percent of neurons responded to the targetstep in a step tracking task, mostly with anticipatory responses,although some cells showed directional, movement-related activity.In a delayed-response task, 17% of cells showed anticipatoryactivity to an instruction cue preceding the target jump, 11%responded directly to the cue, and 11% showed long-lasting postcueactivity. Movement-related responses were seen in 21% in thistask. Reward responses occurred in 10% of neurons. Responsesto more than one event were common. The results demonstratethat few neurons in the SNr respond directly to passive or activemovements, but a large proportion shows responses that may berelated to memory, attention, or movement preparation. Whileinternal pallidal segment neurons may be preferentially concernedwith controlling elemental movement parameters, neurons in theSNr may be more involved in higher motor functions or nonmotoraspects of behavior.

Address for reprint requests and other correspondence: T. Wichmann, Emory University, Dept. Neurology, Suite 6000, Woodruff Memorial Research Bldg., 1639 Pierce Dr., Atlanta, GA 30322 (E-mail: twichma{at}emory.edu).

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