Nogo-A protein is an important inhibitor of axonal growth, which also regulates neuronal plasticity in the CNS. Mutations in the gene encoding Nogo-A or abnormalities in Nogo-A expression are linked to neuropsychiatric disorders such as schizophrenia. The present study assesses the impact of constitutively reduced expression of Nogo-A on place navigation in a novel transgenic rat model. Two spatial paradigms were used: (1) A battery of tests in the Carousel maze requiring continuous processing of spatial information with increasing demands for the segregation of reference frames and behavioral flexibility and (2) a delayed-matching-to-place version of the Morris water maze (MWM), which requires place navigation and is sensitive to deficits in one-trial-encoded place representation. The Carousel maze testing revealed a subtle but significant impairment in management of reference frames. Matching-to-place learning in the Morris water maze was unaffected, suggesting an intact representation of an unmarked goal. Our results show that Nogo-A deficiency leads to cognitive deficit in processing of the reference frames. Such a deficit may be the result of neuro-developmental alterations resulting from Nogo-A deficiency.
Keywords: Cognitive coordination; Nogo-A; Spatial mazes; Spatial navigation; Transgenic rat model.
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