Abstract
The cerebellum is not only essential for motor coordination but is also involved in cognitive and affective processes. These functions of the cerebellum and mechanisms of their disorders in cerebellar injury are not completely understood. There is a wide spectrum of cerebellar mutant mice which are used as models of hereditary cerebellar degenerations. Nevertheless, they differ in pathogenesis of manifestation of the particular mutation and also in the strain background. The aim of this work was to compare spatial navigation, learning, and memory in pcd and Lurcher mice, two of the most frequently used cerebellar mutants. The mice were tested in the open field for exploration behavior, in the Morris water maze with visible as well as reversal hidden platform tasks and in the forced swimming test for motivation assessment. Lurcher mice showed different space exploration activity in the open field and a lower tendency to depressive-like behavior in the forced swimming test compared with pcd mice. Severe deficit of spatial navigation was shown in both cerebellar mutants. However, the overall performance of Lurcher mice was better than that of pcd mutants. Lurcher mice showed the ability of visual guidance despite difficulties with the direct swim toward a goal. In the probe trial test, Lurcher mice preferred the visible platform rather than the more recent localization of the hidden goal.
Highlights
Neurodegenerative disorders affecting the olivo-cerebellar system are manifested by well-characterized motor disorders
Pcd mice showed significantly lower body weights compared to Lurchers, even though the wild type mice for both groups were not different
Quantitative Histology of the Retina The presence and extent of retinal degeneration in pcd mutants (n = 8) compared with their healthy littermates (n = 8) and B6CBA mice (Lurcher: n = 8; wild type (WT): n = 8) was assessed using stereological analysis
Summary
Neurodegenerative disorders affecting the olivo-cerebellar system are manifested by well-characterized motor disorders. Spatial disturbances in Lurcher and pcd mice the review by D’hooge and de Deyn (2001) showed that sex differences, age, nutrition, stress, infections as well as experimental protocol, apparatus, and data analysis could markedly influence results in the Morris water maze task (Morris, 1984). With respect to these facts, it is difficult to compare the behavioral phenotype of various mutations in mice of different background strains from different studies. The identification and understanding of specific impairments related to a particular mutation should be of interest regarding the variability of human hereditary cerebellar degenerations (Manto, 2005) and the use of mouse models for the development of disease-targeted therapeutic approaches
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