海马位置细胞与年龄相关的改变具有亚区域特异性。
Age-associated alterations of hippocampal place cells are subregion specific.
作者信息
Wilson Iain A, Ikonen Sami, Gallagher Michela, Eichenbaum Howard, Tanila Heikki
机构信息
Department of Neuroscience and Neurology, University of Kuopio, Kuopio 70211, Finland.
出版信息
J Neurosci. 2005 Jul 20;25(29):6877-86. doi: 10.1523/JNEUROSCI.1744-05.2005.
Abstract
Aging is associated with spatial memory impairments and with deficient encoding of information by the hippocampus. In young adult rats, recent studies on the firing properties of hippocampal neurons have emphasized the importance of the CA3 subregion in the rapid encoding of new spatial information. Here, we compared the spatial firing patterns of CA1 and CA3 neurons in aged memory-impaired rats with those of young rats as they explored familiar and novel environments. We found that CA1 place cells in aged and young rats had similar firing characteristics in the familiar and novel environments. In contrast, aged CA3 place cells had higher firing rates in general and failed to change their firing rates and place fields as much as CA3 cells of young rats when the rats were introduced to a novel environment. Thus, aged CA3 cells failed to rapidly encode new spatial information compared with young CA3 cells. These data suggest an important and selective contribution of CA3 dysfunction to age-related memory impairment.
摘要
衰老与空间记忆障碍以及海马体对信息的编码缺陷有关。在年轻成年大鼠中,最近关于海马神经元放电特性的研究强调了CA3亚区在快速编码新空间信息方面的重要性。在此,我们比较了老年记忆受损大鼠与年轻大鼠在探索熟悉和新环境时CA1和CA3神经元的空间放电模式。我们发现,老年和年轻大鼠的CA1位置细胞在熟悉和新环境中具有相似的放电特征。相比之下,老年CA3位置细胞总体上具有较高的放电率,并且当大鼠被引入新环境时,其放电率和位置野的变化不如年轻大鼠的CA3细胞那么大。因此,与年轻的CA3细胞相比,老年CA3细胞无法快速编码新的空间信息。这些数据表明CA3功能障碍对与年龄相关的记忆损伤有重要且选择性的影响。
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