颞叶癫痫Kainate大鼠模型的环境富集与脑神经可塑性

V. Gorantla, Sneha E. Thomas, R. Millis
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引用次数: 11

摘要

背景和目的环境富集(EE)改善大脑功能,改善认知障碍;然而,EE是否能逆转癫痫发作后出现的学习和记忆缺陷仍然未知。方法我们检验了EE增强神经发生并减轻红藻氨酸诱导的大鼠海马、杏仁核和运动皮层的学习和记忆缺陷的假设。EE包括KA损伤后立即(早期EE)和60天后(晚期EE)的每日暴露。对神经元数目(NN)、树突分支点和交叉点(DDBPI)进行形态计量计数。T迷宫测试中的空间学习被描述为正确反应的百分比,而被动回避测试中的记忆被计算为他们在小隔间中花费的时间,在小隔间里,他们之前接触过厌恶刺激。结果在早期和晚期暴露于EE后,EE增加了正常对照组和KA损伤大鼠所有脑区的NN和DDBPI。在所有脑区,晚期EE导致的存活神经元明显少于早期EE(p<0.0001)。早期和晚期EE后,EE增加了正确反应的百分比,并减少了在小隔间中花费的时间。EE的时间(早期与晚期)对行为测量没有影响。结论这些发现表明,在大鼠颞叶和运动皮层癫痫发作后,即使EE治疗延迟60天,EE也能改善大脑中与情绪调节和运动协调有关的区域的神经可塑性。未来的研究应该确定EE是否是一种对癫痫患者有用的治疗策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Environmental Enrichment and Brain Neuroplasticity in the Kainate Rat Model of Temporal Lobe Epilepsy
Background and Purpose Environmental enrichment (EE) improves brain function and ameliorates cognitive impairments; however, whether EE can reverse the learning and memory deficits seen following seizures remains unknown. Methods We tested the hypothesis that EE augments neurogenesis and attenuates the learning and memory deficits in rats subjected to kainate-induced seizures in hippocampus, amygdala and motor cortex. EE consisted of daily exposures immediately after KA lesioning (early EE) and after a 60-day period (late EE). Morphometric counting of neuron numbers (NN), dendritic branch-points and intersections (DDBPI) were performed. Spatial learning in a T-maze test was described as percent correct responses and memory in a passive-avoidance test was calculated as time spent in the small compartment where they were previously exposed to an aversive stimulus. Results EE increased NN and DDBPI in the normal control and in the KA-lesioned rats in all brain areas studied, after both early and late exposure to EE. Late EE resulted in significantly fewer surviving neurons than early EE in all brain areas (p < 0.0001). EE increased the percent correct responses and decreased time spent in the small compartment, after both early and late EE. The timing of EE (early vs. late) had no effect on the behavioral measurements. Conclusions These findings demonstrate that, after temporal lobe and motor cortex epileptic seizures in rats, EE improves neural plasticity in areas of the brain involved with emotional regulation and motor coordination, even if the EE treatment is delayed for 60 days. Future studies should determine whether EE is a useful therapeutic strategy for patients affected by seizures.
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