Optogenetically-induced sustained hypothalamic hyperexcitability impairs memory via thalamic spread

IF 6.6 1区医学 Q1 CLINICAL NEUROLOGY Epilepsia Pub Date : 2025-03-11 DOI:10.1111/epi.18321

Masaki Sonoda, Hisao Aimi, Keisuke Kawasaki, Haruo Toda, Shinobu Hirai, Masao Horie, Reiko Meguro, Eishi Asano, Haruo Okado, Shigeki Kameyama, Tetsuya Yamamoto, Isao Hasegawa

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Abstract

Objective

Clinical investigators have hypothesized that interictal epileptiform discharges (IEDs) generated by hypothalamic hamartoma (HH) lead to cognitive dysfunction in patients with drug-resistant gelastic seizures. Herein we provide causal evidence supporting this hypothesis by demonstrating that excitatory neural bursts, when propagating from the HH to the mediodorsal thalamus during the encoding period, impair working memory.

Methods

By employing channelrhodopsin-2 photostimulation, we induced excessive neural excitation in Long-Evans rats, resembling IEDs, at the axon terminals of the lateral hypothalamus projecting toward the mediodorsal thalamus and prelimbic cortex. We recorded local field potentials (LFPs) at these sites and assessed the performance of working memory tasks with and without photostimulation. Utilizing support vector machine analysis on LFP trials under sham photostimulation, we identified the neural correlates of successful task performance. Through mixed model analyses, we evaluated the impacts of photostimulation timing and the alteration in LFP amplitude induced by photostimulation on task performance.

Results

Ten rats completed operant conditioning using a spout lever system after receiving an average of 70.7 days of training, at a rate of 135.2 trials per day. During sham photostimulation, successful trials were associated with a shorter duration of the working memory maintenance period, as well as an augmentation in the 10- to 14-Hz LFP amplitude at the mediodorsal thalamus and prelimbic cortex during the memory encoding phase. Photostimulation at the mediodorsal thalamus during encoding reduced the odds of a trial being successful by 0.19. Conversely, excessive mediodorsal thalamus LFP augmentation induced by photostimulation during encoding increased the odds of a trial being unsuccessful by 1.04.

Significance

Excessive neural excitation, specifically propagating from the lateral hypothalamus to the mediodorsal thalamus during encoding, alters physiological neural activity and transiently impairs working memory. This study clarifies the pathophysiological mechanism underlying cognitive disabilities associated with working memory impairment in HH-related epileptic encephalopathy.

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光遗传诱导的持续下丘脑高兴奋性通过丘脑扩散损害记忆。

目的：临床研究人员假设下丘脑错构瘤（HH）引起的间断性癫痫样放电（ied）可导致耐药癫痫发作患者的认知功能障碍。在此，我们提供了支持这一假设的因果证据，证明在编码期间，兴奋性神经脉冲从HH传播到中背丘脑时，损害了工作记忆。方法：通过通道视紫红质-2光刺激，在Long-Evans大鼠下丘脑外侧向丘脑中背侧和边缘前皮层的轴突末梢诱导类似ied的过度神经兴奋。我们记录了这些部位的局部场电位（LFPs），并评估了在有光刺激和没有光刺激的情况下工作记忆任务的表现。利用支持向量机分析在假光刺激下的LFP试验，我们确定了成功任务表现的神经相关因素。通过混合模型分析，我们评估了光刺激时间和光刺激引起的LFP振幅变化对任务表现的影响。结果：10只大鼠在接受平均70.7天的训练后，以每天135.2次的速度完成了喷水杠杆系统的操作性条件反射。在假性光刺激中，成功的实验与工作记忆维持期的持续时间缩短有关，并且在记忆编码阶段，丘脑中背侧和边缘前皮层的LFP振幅在10- 14hz之间增强。在编码过程中，对丘脑中背侧的光刺激使试验成功的几率降低了0.19。相反，编码过程中光刺激引起的丘脑中背侧LFP过度增强使试验不成功的几率增加了1.04。意义：过度的神经兴奋，特别是在编码过程中从外侧下丘脑传播到中背丘脑，改变了生理神经活动，并短暂地损害了工作记忆。本研究阐明了hh相关癫痫性脑病认知障碍与工作记忆障碍的病理生理机制。

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

Epilepsia 医学-临床神经学

CiteScore

10.90

自引率

10.70%

发文量

319

审稿时长

2-4 weeks

期刊介绍： Epilepsia is the leading, authoritative source for innovative clinical and basic science research for all aspects of epilepsy and seizures. In addition, Epilepsia publishes critical reviews, opinion pieces, and guidelines that foster understanding and aim to improve the diagnosis and treatment of people with seizures and epilepsy.