Neurons in the rostral cingulate motor area monitor multiple phases of visuomotor behavior with modest parametric selectivity

doi:10.1152/jn.01201.2004

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Neurons in the rostral cingulate motor area monitor multiple phases of visuomotor behavior with modest parametric selectivity

Eiji Hoshi¹, Hiromasa Sawamura¹, and Jun Tanji²^*

¹ Department of Physiology, Tohoku University School of Medicine, Sendai, Miyagi, Japan
² Department of Physiology, Tohoku University School of Medicine, Sendai, Miyagi, Japan; The Core Research for Evolutional Science and Technology Program, Japan Science and Technology Agency, Kawaguchi, Saitama, Japan

^* To whom correspondence should be addressed. E-mail: tanjij{at}mail.tains.tohoku.ac.jp.

We examined the cellular activity in the rostral cingulate motorarea (CMAr) with respect to multiple behavioral factors thatranged from the retrieval and processing of associative visualsignals to the planning and execution of instructed actions.We analyzed the neuronal activity in monkeys while they performeda behavioral task in which two visual instruction cues weregiven successively with an intervening delay. One cue instructedthe location of the target to be reached; the other cue instructedwhich arm was to be used. After a second delay, the monkey receiveda motor-set cue to be prepared to initiate the motor task inaccordance with instructions. Finally, after a GO signal, themonkey reached for the instructed target with the instructedarm. We found that the activity of neurons in the CMAr changedprofoundly throughout the behavioral task, which suggested thatthe CMAr participated in each of the behavioral processing steps.However, the neuronal activity was only modestly selective forthe spatial location of the visual signal. We also found thatselectivity for the instructional information delivered withthe signals (target location and arm use) was modest. Furthermore,during the motor-set and movement periods, few CMAr neuronsexhibited selectivity for such motor parameters as the locationof the target or the arm to be used. The abundance and robustnessof the neuronal activity within the CMAr that reflected eachstep of the behavioral task and the modest selectivity of thesame cells for sensorimotor parameters are strikingly differentfrom the preponderance of selectivity that we have observedin other frontal areas. Based on these results, we propose thatthe CMAr participates in monitoring individual behavioral eventsto keep track of the progress of required behavioral tasks.On the other hand, CMAr activity during motor planning may reflectthe emergence of a general intention for action.

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