Hippocampal Infusion of Zeta Inhibitory Peptide Impairs Recent, but Not Remote, Recognition Memory in Rats.

IF 3 4区 医学 Q2 NEUROSCIENCES Neural Plasticity Pub Date : 2015-01-01 Epub Date: 2015-08-24 DOI:10.1155/2015/847136
Jena B Hales, Amber C Ocampo, Nicola J Broadbent, Robert E Clark
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引用次数: 8

Abstract

Spatial memory in rodents can be erased following the infusion of zeta inhibitory peptide (ZIP) into the dorsal hippocampus via indwelling guide cannulas. It is believed that ZIP impairs spatial memory by reversing established late-phase long-term potentiation (LTP). However, it is unclear whether other forms of hippocampus-dependent memory, such as recognition memory, are also supported by hippocampal LTP. In the current study, we tested recognition memory in rats following hippocampal ZIP infusion. In order to combat the limited targeting of infusions via cannula, we implemented a stereotaxic approach for infusing ZIP throughout the dorsal, intermediate, and ventral hippocampus. Rats infused with ZIP 3-7 days after training on the novel object recognition task exhibited impaired object recognition memory compared to control rats (those infused with aCSF). In contrast, rats infused with ZIP 1 month after training performed similar to control rats. The ability to form new memories after ZIP infusions remained intact. We suggest that enhanced recognition memory for recent events is supported by hippocampal LTP, which can be reversed by hippocampal ZIP infusion.

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海马注入Zeta抑制肽损害大鼠近期而非远端识别记忆。
zeta抑制肽(ZIP)通过留置引导管注入海马背侧后,可以消除啮齿类动物的空间记忆。人们认为,ZIP通过逆转已建立的后期长期增强(LTP)而损害空间记忆。然而,海马体LTP是否也支持其他形式的海马体依赖记忆,如识别记忆,目前尚不清楚。在本研究中,我们测试了海马ZIP输注后大鼠的识别记忆。为了克服通过插管输注的局限性,我们采用立体定向方法在整个海马背侧、中间和腹侧输注ZIP。在新目标识别任务训练后3-7天注射ZIP的大鼠与注射aCSF的对照大鼠相比,物体识别记忆受损。相比之下,训练后1个月注射ZIP的大鼠表现与对照组相似。注射ZIP后形成新记忆的能力保持不变。我们认为海马LTP支持对近期事件的增强识别记忆,而海马ZIP输注可以逆转这一过程。
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来源期刊
Neural Plasticity
Neural Plasticity NEUROSCIENCES-
CiteScore
6.80
自引率
0.00%
发文量
77
审稿时长
16 weeks
期刊介绍: Neural Plasticity is an international, interdisciplinary journal dedicated to the publication of articles related to all aspects of neural plasticity, with special emphasis on its functional significance as reflected in behavior and in psychopathology. Neural Plasticity publishes research and review articles from the entire range of relevant disciplines, including basic neuroscience, behavioral neuroscience, cognitive neuroscience, biological psychology, and biological psychiatry.
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