Impaired long-term memory retention: Common denominator for acutely or genetically reduced hippocampal neurogenesis in adult mice
详细信息 查看全文
- 作者:Nada M.-B. Ben Abdallah ; Robert K. Filipkowski ; Martin Pruschy ; Piotr Jaholkowski ; Juergen Winkler ; Leszek Kaczmarek ; Hans-Peter Lipp
- 关键词:ANOVA ; analysis of variance ; cD2 ; cyclin d2 ; DG ; dentate gyrus ; Gy ; gray ; KO ; knockout ; SEM ; standard error of the mean ; TLX ; nuclear orphan receptor tailless gene ; WT ; wild type
- 刊名:Behavioural Brain Research
- 出版年:2013
- 出版时间:1 September, 2013
- 年:2013
- 卷:252
- 期:Complete
- 页码:275-286
- 全文大小:3269 K
文摘
In adult rodents, decreasing hippocampal neurogenesis experimentally using different approaches often impairs performance in hippocampus-dependent processes. Nonetheless, functional relevance of adult neurogenesis is far from being unraveled, and deficits so far described in animal models often lack reproducibility. One hypothesis is that such differences might be the consequence of the extent of the methodological specificity used to alter neurogenesis rather than the extent to which adult neurogenesis is altered. To address this, we focused on cranial irradiation, the most widely used technique to impair hippocampal neurogenesis and consequentially induce hippocampus-dependent behavioral deficits. To investigate the specificity of the technique, we thus exposed 4-5 months old female cyclin D2 knockout mice, a model lacking physiological levels of olfactory and hippocampal neurogenesis, to an X-ray dose of 10 Gy, reported to specifically affect transiently amplifying precursors. After a recovery period of 1.5 months, behavioral tests were performed and probed for locomotor activity, habituation, anxiety, and spatial learning and memory. Spatial learning in the Morris water maze was intact in all experimental groups. Although spatial memory retention assessed 24 h following acquisition was also intact in all mice, irradiated wild type and cyclin D2 knockout mice displayed memory deficits one week after acquisition. In addition, we observed significant differences in tests addressing anxiety and locomotor activity dependent on the technique used to alter neurogenesis. Whereas irradiated mice were hyperactive regardless of their genotype, cyclin D2 knockout mice were hypoactive in most of the tests and displayed altered habituation. The present study emphasizes that different approaches aimed at decreasing adult hippocampal neurogenesis may result in distinct behavioral impairments related to locomotion and anxiety. In contrast, spatial long-term memory retention is consistently altered after both approaches suggesting a plausible implication of hippocampal neurogenesis in this cognitive process.