SENSORIMOTOR INTEGRATION IN THE PRECENTRAL GYRUS: POLYSENSORY NEURONS AND DEFENSIVE MOVEMENTS

doi:10.1152/jn.00955.2003

SENSORIMOTOR INTEGRATION IN THE PRECENTRAL GYRUS: POLYSENSORY NEURONS AND DEFENSIVE MOVEMENTS

Dylan F. Cooke¹ and Michael S. Graziano¹^*

¹ Department of Psychology, Princeton University, Princeton, NJ, USA

^* To whom correspondence should be addressed. E-mail: graziano{at}princeton.edu.

The precentral gyrus of monkeys contains a polysensory zonein which the neurons respond to tactile, visual, and sometimesauditory stimuli. The tactile receptive fields of the polysensoryneurons are usually on the face, arms, or upper torso, and thevisual and auditory receptive fields are usually confined tothe space near the tactile receptive fields, within about 30cm of the body. Electrical stimulation of this polysensory zone,even in anesthetized animals, evokes a specific set of movements.The movements resemble those typically used to defend the bodyfrom objects that are near, approaching, or touching the skin.In the present study, to determine if the stimulation-evokedmovements represent a normal set of defensive movements, wetested whether they include a distinctive, non-saccadic, centeringmovement of the eyes that occurs during defensive reactions.We report that this centering movement of the eyes is evokedby stimulation of sites in the polysensory zone. We also recordedthe activity of neurons in the polysensory zone while the monkeymade defensive reactions to an air puff on the face. The neuronsbecame active during the defensive movement, and the magnitudeof this activity was correlated with the magnitude of the defensivereaction. These results support the hypothesis that the polysensoryzone in the precentral gyrus contributes to the control of defensivemovements. More generally, the results support the view thatthe precentral gyrus can control movement at the level of complexsensorimotor tasks.

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