Physiology & behavior
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Physiology & behavior · May 2015
Strain-dependent effects on acquisition and reversal of visual and spatial tasks in a rat touchscreen battery of cognition.
The use of touch-screen equipped operant boxes is an increasingly popular method for modeling human cognition in the rodent. A concern of this approach is that the dependence upon vision may limit the strains of rats that can be tested in the apparatus. This is of particular concern because of the increased availability of genetically modified rats that are disproportionately on an albino background and may have compromised vision. Here we test pigmented and albino strains of rats on three touch-screen tasks of learning and memory that may require different levels of visual ability. In tests where albino animals have similar levels of performance as the pigmented rats we also tested common pharmacological models of cognitive impairment to determine the generalizability of these challenges across strains. By doing this work we hope to determine the robustness of common models of pharmacological impairment in albino rats. ⋯ Albino animals showed a clear impairment on tasks that are dependent upon intact vision, while no impairment was observed in the visually less demanding spatial task. Despite a published report to the contrary, these results demonstrate that albino strains may not be appropriate for use in touchscreen tasks that are dependent upon a visual discrimination. Furthermore, the spatial search task showed distinct impairment profiles as a result of treatment with either MK-801 or scopolamine. While an interaction did exist between strain and treatment, the dissociation between MK-801 and scopolamine was consistent across 3 of 4 strains. These results highlight the importance of selecting the appropriate strain for use in tasks of visual learning and memory and also demonstrate the potential robustness of pharmacological models of cognitive impairment across strains.