Progression in Time of Dentate Gyrus Granule Cell Layer Widening due to Excitotoxicity Occurs along In Vivo LTP Reinstatement and Contextual Fear Memory Recovery.

IF 3.1 4区医学 Q2 Medicine

Neural Plasticity Pub Date : 2022-09-27 eCollection Date: 2022-01-01 DOI:10.1155/2022/7432842

Karina Hernández Mercado, Araceli Martínez Moreno, Luis Francisco Rodríguez Durán, Martha L Escobar, Angélica Zepeda

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Abstract

The dentate gyrus (DG) is the gateway of sensory information arriving from the perforant pathway (PP) to the hippocampus. The adequate integration of incoming information into the DG is paramount in the execution of hippocampal-dependent cognitive functions. An abnormal DG granule cell layer (GCL) widening due to granule cell dispersion has been reported under hyperexcitation conditions in animal models as well as in patients with mesial temporal lobe epilepsy, but also in patients with no apparent relation to epilepsy. Strikingly, it is unclear whether the presence and severity of GCL widening along time affect synaptic processing arising from the PP and alter the performance in hippocampal-mediated behaviors. To evaluate the above, we injected excitotoxic kainic acid (KA) unilaterally into the DG of mice and analyzed the evolution of GCL widening at 10 and 30 days post injection (dpi), while analyzing if KA-induced GCL widening affected in vivo long-term potentiation (LTP) in the PP-DG pathway, as well as the performance in learning and memory through contextual fear conditioning. Our results show that at 10 dpi, when a subtle GCL widening was observed, LTP induction, as well as contextual fear memory, were impaired. However, at 30 dpi when a pronounced increase in GCL widening was found, LTP induction and contextual fear memory were already reestablished. These results highlight the plastic potential of the DG to recover some of its functions despite a major structural alteration such as abnormal GCL widening.

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兴奋毒性导致的齿状回颗粒细胞层增宽的时间进展是随着体内 LTP 恢复和情境恐惧记忆恢复而发生的。

齿状回（DG）是从穿孔通路（PP）到达海马的感觉信息门户。将传入的信息充分整合到 DG 中对于执行依赖于海马的认知功能至关重要。据报道，在动物模型和颞叶中叶癫痫患者中，以及在与癫痫无明显关系的患者中，在过度兴奋条件下，由于颗粒细胞分散而导致海马颗粒细胞层（GCL）异常增宽。令人震惊的是，目前还不清楚GCL随时间增宽的存在和严重程度是否会影响PP的突触处理并改变海马介导行为的表现。为了评估上述问题，我们向小鼠的DG单侧注射了兴奋毒性凯尼酸（KA），并分析了注射后10天和30天（dpi）GCL增宽的演变情况，同时分析了KA诱导的GCL增宽是否会影响PP-DG通路的体内长期电位（LTP），以及通过情境恐惧条件学习和记忆的表现。我们的结果表明，在 10 dpi 观察到 GCL 细微增宽时，LTP 诱导和情境恐惧记忆都会受损。然而，在 30 dpi 发现 GCL 明显增宽时，LTP 诱导和情境恐惧记忆已经恢复。这些结果突显了DG的可塑性潜能，即尽管GCL异常增宽等重大结构改变，DG仍能恢复其某些功能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Neural Plasticity Neuroscience-Neurology

CiteScore

5.70

自引率

0.00%

发文量

审稿时长

1 months

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.