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The Journal of Neuroscience, October 1, 2002, 22(19):8597-8606

Unilateral Sensorimotor Cortex Lesions in Adult Rats Facilitate Motor Skill Learning with the "Unaffected" Forelimb and Training-Induced Dendritic Structural Plasticity in the Motor Cortex

Scott D. Bury¹ and Theresa A. Jones²

¹ Department of Psychology, University of Washington, Seattle, Washington 98195, and ² Department of Psychology and Institute for Neuroscience Research, University of Texas, Austin, Texas 78712

In humans and other animals, sufficient unilateral damage to the sensorimotor cortex can cause impairments in the opposite forelimb and the development of a hyper-reliance on the nonimpaired limb. This hyper-reliance is adaptive to the extent that it contributes to functional compensation for lesion-induced impairments. We have found that unilateral lesions of the forelimb region of the sensorimotor cortex (FLsmc) in rats, or callosal transections, cause neurons of the opposite motor cortex to become exceptionally responsive to changes in forelimb behavior. This enhanced responsiveness might facilitate learning of compensatory strategies with the nonimpaired forelimb after unilateral FLsmc lesions. The possibility that these lesions facilitate learning with the nonimpaired forelimb was addressed in this study. Rats were required to learn a skilled forelimb reaching task after either unilateral FLsmc lesions or sham operations. The trained limb in animals with lesions was the nonimpaired limb. Compared with shams, rats with unilateral lesions had a greater rate of acquisition and asymptotic performance level on the task, which was especially evident on more difficult trials. Quantitative measures of microtubule associated protein-2 (MAP2) immunostained dendrites indicated an enhancement of training-induced dendritic cytoskeletal changes in the motor cortex opposite lesions. Thus, unilateral FLsmc lesions facilitate learning of at least some types of motor skills using the nonimpaired forelimb as well as some of the neuronal changes associated with this learning. This facilitation could be a substrate underlying behavioral compensation for unilateral FLsmc damage and may contribute to the phenomenon of learned nonuse of the impaired limb.

Key words: learned nonuse; behavioral compensation; reach training; denervation; dendritic growth; rehabilitative training; microtubule associated protein-2

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Copyright © 2002 Society for Neuroscience  0270-6474/02/22198597-10$05.00/0

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