Descending Signals From the Pontomedullary Reticular Formation Are Bilateral, Asymmetric, and Gated During Reaching Movements in the Cat

doi:10.1152/jn.00342.2006

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Descending Signals From the Pontomedullary Reticular Formation Are Bilateral, Asymmetric, and Gated During Reaching Movements in the Cat

Bénédicte Schepens¹ and Trevor Drew²

¹Unité de Physiologie et Biomécanique de la Locomotion, Département D'Éducation Physique et de Réadaptation, Université Catholique de Louvain, Louvain-la-Neuve, Belgium; and ²Department of Physiology, Université de Montréal, Montreal, Quebec, Canada

Submitted 31 March 2006; accepted in final form 8 July 2006

We examined the contribution of neurons within the pontomedullaryreticular formation (PMRF) to the control of reaching movementsin the cat. We recorded the activity of 127 reticular neurons,including 56 reticulospinal neurons, during movements of eachforelimb; 67/127 of these neurons discharged prior to the onsetof activity in the prime flexor muscles during the reach ofthe ipsilateral limb and form the focus of this report. Mostneurons (63/67) showed similar patterns and levels of dischargeactivity during reaches of either limb, although activity wasslightly greater during reach of the ipsilateral limb. In 26/67cells, the initial change in discharge activity was time-lockedto the GO signal during reaches of either limb; we have arguedthat this early discharge contributes to the anticipatory posturaladjustments that precede movement. In 11/26 cells, the initialchange in activity was reciprocal for reaches with the leftand right limbs, although activity during the movement was nonreciprocal.Spike-triggered averaging produced postspike facilitation ordepression (PSD) in 12/50 cells during reaches of the limb ipsilateralto the recording site and in 17/49 cells during reach of thecontralateral limb. Some cells produced PSD in ipsilateral extensormuscles before the start of the reach and during reaches madewith the contralateral, but not the ipsilateral limb; this suggeststhe signal must be differentially gated. Overall, the resultssuggest a strong bilateral, albeit asymmetric, contributionfrom the PMRF to the control of posture and movement duringvoluntary movement.

Address for reprint requests and other correspondence: T. Drew, Dept. of Physiology, Université de Montréal, PO Box 6128, Station "Centre-ville," Montréal, Qúebec H3C 3J7, Canada (E-mail: Trevor.Drew{at}umontreal.ca)

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				D. S. Soteropoulos and S. N. Baker Bilateral representation in the deep cerebellar nuclei J. Physiol., February 15, 2008; 586(4): 1117 - 1136. [Abstract] [Full Text] [PDF]

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