Behavioral abnormalities produced by D2 dopamine receptor gene deletion in mice have been attributed either to resulting Parkinson-like features (i.e. response slowing and response initiation difficulties) or to behavioral deficits contributed by alleles of the originating 129Sv strain. Three strategies were used to address these conflicting hypotheses: (1) we used mice congenic at n10 backcross into the C57BL/6 line to minimize the 129Sv contribution; (2) we compared mice that were wild-type (+/+), heterozygous (+/-), or homozygous (-/-) for the D2 gene with the two most relevant inbred lines (129Sv and C57BL/6) and (3) we used both conventional and novel behavioral assessment methods. Behavioral attributes were expressed in terms of locomotor activity, wall rearing, rotarod performance, operant response acquisition, operant response performance, lick dynamics (force, rhythm), grip strength, and tremor in response to harmaline challenge. Results showed that, compared to controls, the -/- mice exhibited longer duration wall rears, retarded operant response acquisition, increased latencies to move from the operandum to the reward well, and exaggerated response to harmaline. Age was investigated as a variable (10-11 weeks versus 41-44 weeks of age) in the locomotor activity and wall rear assessments. A gene dosage effect (deficits in the +/- mice) on these two variables became apparent in the older mice. Taken together, the results showed that mice without the D2 gene exhibited Parkinson-like behavioral features that were not easily attributed to alleles contributed by the 129Sv strain, but were consistent with basal ganglia dysfunction.
Transgenic mice overexpressing neurotrophin-3 (NT-3) in skeletal muscle (mlc/NT-3 mice) develop abnormal muscle spindles in skeletal muscle and display abnormal motor function in the form of gait and locomotive disturbances. The purpose of this work was to characterize the functional consequences of NT-3 overexpression in skeletal muscle with further behavioral assessments that permitted inferences about muscle weakness in the tongue or forelimbs as well as potential central nervous system (CNS) abnormalities compared to wild-type controls. Wild-type (n=12) and mlc/NT-3 (n=12) male mice were tested in five procedures (in chronological order): lick dynamics, locomotor activity, grid ataxia, go-no-go discrimination procedure, and grip strength. Relative to wild-type mice, the mlc/NT-3 mice exhibited lower tongue force, hyperactivity, slowed limb retrieval in the grid ataxia test, similar discrimination performance, and lower grip strength. Overall, the data suggest that chronically elevated levels of NT-3 in mouse skeletal muscle cause muscle weakness in the mlc/NT-3 mice. Surprisingly, mlc/NT-3 mice also exhibited significant hyperactivity, suggesting that NT-3 overexpression in the periphery may have caused abnormalities in the CNS that are related to the cortical processing of proprioceptive afferent information.
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