内侧前额叶皮层活动调节细胞骨架相关蛋白的表达增强与工作记忆能力有关

Tsan-Ju Chen, Dean-Chuan Wang, Pei-Chun Liu, Hui-Shan Hung, Tsung-Lin Cheng
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摘要

工作记忆(WM)是一种对指导正在进行或即将进行的行为非常重要的认知功能。记忆相关蛋白 Arc(活动调节细胞骨架相关蛋白)与长期记忆巩固有关。最近的证据进一步表明,海马 Arc 参与了空间 WM。内侧前额叶皮层(mPFC)是介导 WM 的关键脑区。然而,mPFC Arc在WM中的作用仍不确定。为了研究mPFC Arc蛋白是否参与了WM表现,研究人员在阻断或不阻断mPFC Arc新合成的情况下对大鼠进行了延迟非匹配取样(DNMS)T迷宫任务。在DNMS任务中,样本运行和选择运行之间有10秒或30秒的延迟,以评估大鼠的WM表现。为了在 DNMS 任务中阻断新 Arc 蛋白的合成,向双侧 mPFC 注射了 Arc 反义寡脱氧核苷酸(ODN)。结果表明,在没有进行插管植入手术和随后脑内注射ODNs的大鼠中,DNMS任务中延迟10秒的WM功能良好,而延迟30秒的WM功能不佳,同时mPFC Arc蛋白水平显著升高,这表明Arc蛋白表达增强与WM功能之间可能存在联系。用Arc反义ODNs阻止mPFC Arc蛋白表达的增强后,大鼠的WM表现受损。这些研究结果支持mPFC Arc蛋白表达的增强在WM表现中发挥作用。
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Enhanced expression of activity-regulated cytoskeleton-associated protein in the medial prefrontal cortex is involved in working memory performance
Working memory (WM) is a cognitive function important for guiding the on-going or upcoming behavior. A memory-related protein Arc (activity-regulated cytoskeleton-associated protein) is implicated in long-term memory consolidation. Recent evidence further suggests the involvement of hippocampal Arc in spatial WM. The medial prefrontal cortex (mPFC) is a key brain region mediating WM. However, the role of mPFC Arc in WM is still uncertain. To investigate whether mPFC Arc protein is involved in WM performance, delayed non-match to sample (DNMS) T-maze task was performed in rats with or without blocking new synthesis of mPFC Arc. In DNMS task, a 10-s or 30-s delay between the sample run and the choice run was given to evaluate WM performance. To block new Arc protein synthesis during the DNMS task, Arc antisense oligodeoxynucleotides (ODNs) were injected to the bilateral mPFC. The results show that, in rats without surgery for cannula implantation and subsequent intracerebral injection of ODNs, WM was functioning well during the DNMS task with a delay of 10 s but not 30 s, which was accompanied with a significantly increased level of mPFC Arc protein, indicating a possible link between enhanced Arc protein expression and the performance of WM. After preventing the enhancement of mPFC Arc protein expression with Arc antisense ODNs, rat's WM performance was impaired. These findings support enhanced mPFC Arc protein expression playing a role during WM performance.
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