Frantisek Vozeh

The effect of repeated rotarod training on motor skills and spatial learning ability in Lurcher mutant mice

Lurcher mutant mice represent a model of olivocerebellar degeneration. Due to loss of Purkinje cells, they suffer from functional cerebellar decortication resulting in ataxia and deterioration of cognitive functions. The aim of the work was to assess the effect of enforced physical activity represented by rotarod training on motor skills and spatial learning in young and adult B6CBA Lurcher mice. These functions were compared with those in untrained wild type mice of the same age. We examined motor skills using bar, ladder and rotarod tests. Spatial learning was tested in the Morris water maze. Motor skills of Lurchers were found to be worse than in wild type mice, but they showed motor learning in the course of training. The training did not significantly influence the results on the bar and ladder. In the rotarod test, young trained Lurchers achieved only slightly better results than untrained ones. In adult mice, the improvement was insignificant. Lurchers failed in spatial learning test compared to the wild type mice. In the wild type mice there was no difference in learning between young and adult individuals, while young Lurchers learned better than older ones. Enforced motor activity led to spatial learning improvement in older Lurchers, but not in young ones. The experiments showed that effects of enforced physical activity in Lurcher mice mitigated the deficit in the water maze task related to age so that trained older Lurchers showed as good performance as younger ones but still worse than the wild type mice.

Effect of dimethyl sulfoxide in cerebellar mutant Lurcher mice.

DMSO has been many times described as harmless substance, beneficial in various diseases or pathological states, including brain injury or ischemia. Using Lurcher mutant mice suffering from genetically determined olivocerebellar degeneration and normal wild type mice, we examined the effect of DMSO on spontaneous motor activity and spatial learning and orientation ability. The acute effect of DMSO was studied in mice aged 3, 6, 9 and 22 weeks. DMSO treatment decreased spontaneous activity in the open field and swimming speed in the Morris water maze in both Lurcher mutant and wild type mice. While saline-treated Lurcher mice showed age-related decline of spatial memory in the Morris water maze in DMSO-treated ones such decline did not occur. The mechanism of the effect of DMSO remains unclear. A possible explanation could be modulation of the brain perfusion and metabolism in the aging brain. The improvement of learning ability could be also mediated by a tranquilizing effect of DMSO reducing stress-induced behavioral disinhibition which is supposed to interfere with learning process in Lurcher mutants. Future studies which would investigate DMSO effects in other models of neurodegenerative diseases are necessary to verify its potential therapeutic impact.

A Preliminary Study of Solid Embryonic Cerebellar Graft Survival in Adult B6CBA Lurcher Mutant and Wild Type Mice

Lurcher mutant mice represent a model of olivocerebellar degeneration. They suffer from complete loss of Purkinje cells and a reduction of granule cells and inferior olive neurons. Their wild type littermates serve as healthy controls. The aim of the work was to compare solid embryonic cerebellar graft survival within a period of 9 weeks after their transplantation in adult Lurcher mutant and wild type mice of the B6CBA strain. The solid grafts were injected through a hole in the occipital bone. Host mice were sacrificed 3, 6, or 9 weeks after the transplantation and their cerebella and brain‐stems were examined histologically to assess graft presence and structure. We did not find significant differences in graft survival rates between Lurcher mutant and wild type mice. The frequency of graft presence did not differ between mice examined 3, 6, and 9 weeks after the transplantation, neither in Lurchers nor in wild type mice. The grafts were of various sizes. In some cases, only small residua of the grafts were found. Nerve fiber sprouting and cell migration from the graft to the host tissue were observed more often in wild type mice than in Lurchers when examined 6 weeks after surgery. In the period 3–9 weeks after transplantation, massive dying out of the grafts was not observed despite regressive processes in some of the grafts. The degenerative changes in the Lurcher mutant cerebellum do not have strong impact on the fate of the solid cerebellar graft. Anat Rec, 292:1986–1992, 2009.

The effect of genetic background on behavioral manifestation of Grid2Lc mutation

Mutant mice are commonly used models of hereditary diseases. Nevertheless, these mice have phenotypic traits of the original strain, which could interfere with the manifestation of the mutation of interest. Lurcher mice represent a model of olivocerebellar degeneration, which is caused by the Grid2(Lc) mutation. Lurchers show ataxia and various cognitive and behavioral abnormalities. The most commonly used strains of Lurcher mice are B6CBA and C3H, but there is no information about the role of genetic background on the Grid2(Lc) manifestation. The aim of this work was to compare spatial navigation in the Morris water maze, spontaneous activity in the open field and motor skills on the horizontal wire, slanted ladder and rotarod in B6CBA and C3H Lurcher mutant and wild type mice. The study showed impaired motor skills and water maze performance in both strains of Lurcher mice. Both C3H Lurcher and C3H wild type mice had poorer performances in the water maze task than their B6CBA counterparts. In the open field test, C3H mice showed higher activity and lower thigmotaxis. The study showed that genetic backgrounds can modify manifestations of the Lurcher mutation. In this case, B6CBA Lurcher mice models probably have more validity when studying the behavioral aspects of cerebellar degeneration than C3H Lurcher mice, since they do not combine abnormalities related to the Grid2(Lc) mutation with strain-specific problems.

Morphological analysis of embryonic cerebellar grafts in SCA2 mice.

SCA2 transgenic mice are thought to be a useful model of human spinocerebellar ataxia type 2. There is no effective therapy for cerebellar degenerative disorders, therefore neurotransplantation could offer hope. The aim of this work was to assess the survival and morphology of embryonic cerebellar grafts transplanted into the cerebellum of adult SCA2 mice. Four month-old homozygous SCA2 and negative control mice were treated with bilateral intracerebellar injections of an enhanced green fluorescent protein-positive embryonic cerebellar cell suspension. Graft survival and morphology were examined three months later. Graft-derived Purkinje cells and the presence of astrocytes in the graft were detected immunohistochemically. Nissl and hematoxylin-eosin techniques were used to visualize the histological structure of the graft and surrounding host tissue. Grafts survived in all experimental mice; no differences in graft structure, between SCA2 homozygous and negative mice, were found. The grafts contained numerous Purkinje cells but long distance graft-to-host axonal connections to the deep cerebellar nuclei were rarely seen. Relatively few astrocytes were found in the center of the graft. No signs of inflammation or tissue destruction were seen in the area around the grafts. Despite good graft survival and the presence of graft-derived Purkinje cells, the structure of the graft did not seem to promise any significant specific functional effects. We have shown that the graft is available for long-term experiments. Nevertheless, it would be beneficial to search for ways of enhancement of connections between the graft and host.

Mutation-related differences in exploratory, spatial, and depressive-like behavior in pcd and Lurcher cerebellar mutant mice.

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.

Reduced Primary T Lymphopoiesis in 3-Month-Old Lurcher Mice: Sign of Premature Ageing of Thymus?

Objective: The nervous, endocrine and immune systems are functionally interconnected so that they may form a complex metasystem. Abnormalities within the neuroendocrine compartment can thus affect immune mechanisms and vice versa. The Lurcher-type mutation in mice has a profound impact on brain development in both homozygous and heterozygous individuals, which is followed by immune system changes. We investigated whether macroscopic changes in the thymus size were associated with an altered thymocyte development or with changes in peripheral T cell subset distribution. Methods: CD3, CD4 and CD8 expressions on thymocytes and peripheral T cells were compared with those in wild-type and Lurcher heterozygous C3H mice using surface immunophenotyping and flow cytometry. Galanthus nivalis agglutinin binding to thymocytes was measured at the same time. Results: While no differences between experimental groups were observed in 1-month-old mice, a critical reduction of numbers of thymocytes and namely double-positive cells occurred before the age of 3 months in Lurcher mice, which was accompanied by thymus involution. Interestingly, this was not accompanied by significant differences in major T subset proportions in the peripheral lymphatic tissue. Conclusions: We interpret our observations as hallmarks of premature thymus ageing in heterozygous Lurcher mice with only a marginal effect in the periphery in early adulthood.

System for animal EM exposure with well defined dosimetry

The whole-body exposure system for unrestrained mice was designed in order to analyze the influence of electromagnetic field. The setup operating at 900MHz was designed with respect to induced uniform field, external radiation elimination, absorbed power determination, sufficient space for mice movement together with even mice exposure and costs. The main aim of this paper is to assure that the dosimetry results reached by computer simulations can be used for determination of absorbed power in the unrestrained mouse. The whole-body exposure chamber with anatomical mouse model was simulated by two different numerical methods: finite-difference-time-domain method (FDTD) and Finite Integration Technique (FIT) and its dosimetry results were compared by computed SAR values. In our contribution we will describe our first results dealing with observed biological effects of EM field, obtained by real exposures of experimental animals.