Neuronal Activity in Macaque SEF and ACC During Performance of Tasks Involving Conflict

doi:10.1152/jn.00305.2004

Neuronal Activity in Macaque SEF and ACC During Performance of Tasks Involving Conflict

Kae Nakamura^*, Matthew R. Roesch, and Carl R. Olson

^* To whom correspondence should be addressed. E-mail: kae{at}lsr.nei.nih.gov.

It has been suggested on the basis of previous studies involvingfMRI and single-neuron recording that neurons of the supplementaryeye field (SEF) and anterior cingulate cortex (ACC) monitorconflict. To test this idea, we carried out microelectroderecording in monkeys performing a color-conditional eye movementtask in which red and green cues instructed leftward and rightwardsaccades respectively. In a variant inducing conflict by spatialincompatibility, the cue was presented either at the locationof the target (no conflict) or opposite the location of thetarget (conflict). In a variant inducing conflict by reversal,the foveal cue either remained one color (no conflict) or reversedcolor after 100 ms (conflict), with the monkey required to followthe instruction conveyed by the second color. In both tasks,conflict was evident in behavioral measures (reduced percentcorrect and slowed reaction time) and in physiological measures(reduced strength of directional activity among direction-selectiveneurons). In the SEF, there was a tendency for neurons to firemore strongly on trials involving conflict, but this effecttook the form of modulation of task-related activity among direction-selectiveneurons, not of a pure conflict-monitoring signal. In the ACC,there was no conflict-related enhancement. These results areincompatible with the idea that the SEF and ACC contain populationsof neurons specialized for monitoring conflict.

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