Amelioration of the behavioral phenotype in weaver mutant mice through bilateral intrastriatal grafting of fetal dopamine cells.

Weaver mutant mice lose more than two-thirds of their nigral dopamine neurons. Behaviorally, weaver homozygotes display tremor, gait instability, and toppling over to the sides after a few steps. The recovery of functional responses was determined in a battery of behavioral tests in weaver mutants after bilateral transplantation of mesencephalic cell suspensions (prepared from wild-type mice) to the striatum. Equilibrium was tested by the time mice were able to stay on a suspended balance rod before falling off. Locomotor coordination was measured by the number of times mice toppled over to the sides as they moved about in an open-field matrix. Locomotor activity was quantified by the number of square crossings in an open-field matrix. Grafted weaver mutants performed significantly better than non-grafted mutant mice in all of these three tasks. The findings clearly demonstrate that bilateral transplants of foetal DA cells enhance motor performance in the weaver model of chronic nigrostriatal DA deficiency.