7 research outputs found

    Large-scale animal model study uncovers altered brain pH and lactate levels as a transdiagnostic endophenotype of neuropsychiatric disorders involving cognitive impairment

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    Long-term enrichment enhances the cognitive behavior of the aging neurogranin null mice without affecting their hippocampal LTP

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    Neurogranin (Ng), a PKC substrate, is abundantly expressed in brain regions important for cognitive functions. Deletion of Ng caused severe deficits in spatial learning and LTP in the hippocampal CA1 region of mice. These Ngāˆ’/āˆ’ mice also exhibit deficits in the amplification of their hippocampal signaling pathways critical for learning and memory. A short-term exposure to an enriched environment failed to improve their behavioral performances. Here, we showed that a long-term enrichment protocol for the aging mice was beneficial to the Ngāˆ’/āˆ’ as well as Ng+/+ and Ng+/āˆ’ mice in preventing age-related cognitive decline. Enrichment also caused an increase in the hippocampal CREB level of all three genotypes and Ng level of Ng+/+ and Ng+/āˆ’ mice, but not that of Ī±CaMKII or ERK. Interestingly, hippocampal slices of these enriched aging Ngāˆ’/āˆ’ mice, unlike those of Ng+/+ and Ng+/āˆ’ mice, did not show enhancement in the high frequency stimulation (HFS)-induced LTP in the CA1 region. It appears that the learning and memory processes in these enriched aging Ngāˆ’/āˆ’ mice do not correlate with the HFS-induced LTP, which is facilitated by Ng. These results demonstrated that long-term enrichment for the aging Ngāˆ’/āˆ’ mice may improve their cognitive function through an Ng-independent plasticity pathway
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