A METHOD FOR QUANTITATING MOTOR DEFICITS IN A NONHUMAN PRIMATE FOLLOWING MPTP-INDUCED HEMIPARKINSONISM AND CO-GRAFTING

This report describes a nonhuman primate model of MPTP-induced hemiparkinsonism and the recovery of motor function following co-grafting of adrenal medullary tissue and peripheral nerve into the lesioned area of the brain. A rhesus monkey (Macaca mulatta) trained to perform a complex, discrete-trial, operant task served as the subject. After behavioral performance on the task had stabilized and a high level of accuracy was maintained, 0.4 mg/kg MPTP was infused acutely via the left carotid artery to produce a marked impairment of movement of the right arm. Eighteen weeks later, medullary tissue from the left adrenal gland was grafted along with peripheral nerve into the left caudate nucleus. During the original baseline training condition, right- and left-hand performances were comparable on all dependent measures. However, right-hand performance was severely impaired following unilateral MPTP treatment, and left-hand performance was unaffected. Right-hand performance recovered only after adrenal medullary tissue was transplanted with peripheral nerve into the brain. Neuroanatomical analysis of brain tissue showed the anticipated neuronal loss in the left substantia nigra due to MPTP administration and evidence of adrenal medullary cell survival in the area of the co-graft. The data demonstrate that the rhesus monkey and the behavioral task developed during this study can be efficacious in characterizing the effects of MPTP on psychomotor function and in assessing the outcome of new strategies for treating Parkinson's disease. © 1992.