Exploring the Therapeutic Effect of Perampanel, a Selective AMPA Receptor Antagonist, on Pathophysiological Changes in hAPP-J20 Transgenic Alzheimer’s Mice

IF 11.1 1区医学 Q1 CLINICAL NEUROLOGY Alzheimer's & Dementia Pub Date : 2025-01-09 DOI:10.1002/alz.087875

Keng Ying Liao, Yue Loong Hsin, Xu Han, Wen-Ying Chen, Wentai Liu

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Abstract

Background

The initiation of amyloid plaque deposition signifies a crucial stage in Alzheimer’s disease (AD) progression, which often coincides with the disruption of neural circuits and cognitive decline. While the role of excitatory-inhibitory balance is increasingly recognized in AD pathophysiology, targeted therapies to modulate this balance remain underexplored. This study investigates the effect of perampanel, a selective non-competitive AMPA receptor antagonist, in modulating neurophysiological changes in hAPP-J20 transgenic Alzheimer’s mice.

Method

Perampanel was administered to hAPP-J20 mice and their age-matched wildtype littermates, aged 20-25 weeks, during the critical amyloid plaque deposition period in the hippocampus. We continuously monitored the local field potential of the hippocampal CA1 region using long-term wireless telemetry (sampled at a rate of 2 kHz), capable of calculating rates of high-frequency oscillations (HFOs) to gauge potential epileptiform activity. To evaluate cognitive function, Morris water maze test was conducted. Glutamatergic pyramidal cells and GABAergic interneurons was quantified to assess neuronal health, and the hippocampal concentration of neuropeptide Y (NPY) was measured as an indirect indicator of mossy fiber sprouting.

Result

Treatment with perampanel resulted in a significant rescue of GABAergic interneuron depletion and reduced the pathological increase of HFOs, indicative of restored excitatory-inhibitory balance. In line with the restored excitatory-inhibitory balance, it also attenuated neuronal sprouting labeled by NPY. Additionally, perampanel administration led to a substantial decrease in amyloid plaque accumulation in the hippocampus, though the observed memory deficit in transgenic mice did not change significantly.

Conclusion

Our findings reveal that perampanel, an established antiseizure medication, exerts multifaceted neuroprotective effects in the AD mouse model. The preservation of interneurons, reduction of pathological neural hyperactivity, and decreased amyloid plaque burden highlighted the potential of targeting glutamatergic pathways as a therapeutic strategy. The study warrants further investigation of perampanel as a promising candidate for ameliorating the pathophysiological and cognitive deficits associated with AD.

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探索选择性AMPA受体拮抗剂Perampanel对hap - j20转基因阿尔茨海默病小鼠病理生理变化的治疗作用

淀粉样斑块沉积的开始标志着阿尔茨海默病（AD）进展的关键阶段，这一阶段通常伴随着神经回路的破坏和认知能力的下降。虽然兴奋-抑制平衡在阿尔茨海默病病理生理学中的作用越来越被认识到，但调节这种平衡的靶向治疗仍未得到充分探索。本研究探讨了选择性非竞争性AMPA受体拮抗剂perampanel对hap - j20转基因阿尔茨海默病小鼠神经生理变化的调节作用。方法在20-25周龄的hap - j20小鼠及其同龄野生型仔鼠海马淀粉样斑块沉积关键期给予Perampanel。我们使用长期无线遥测技术（采样频率为2khz）持续监测海马CA1区域的局部场电位，能够计算高频振荡（hfo）的速率来测量潜在的癫痫样活动。采用Morris水迷宫实验评价认知功能。对谷氨酸能锥体细胞和gaba能中间神经元进行量化以评估神经元的健康状况，并测量海马神经肽Y （NPY）浓度作为苔藓纤维发芽的间接指标。结果经perampanel治疗后，gaba能间神经元耗竭得到明显缓解，HFOs的病理升高明显降低，兴奋-抑制平衡得到恢复。与恢复兴奋-抑制平衡一致，它也减弱了NPY标记的神经元发芽。此外，perampanel给药导致海马中淀粉样斑块积累的显著减少，尽管在转基因小鼠中观察到的记忆缺陷没有显著改变。结论抗癫痫药物perampanel在AD小鼠模型中具有多方面的神经保护作用。保存中间神经元，减少病理性神经过度活跃，减少淀粉样斑块负担，突出了靶向谷氨酸能途径作为治疗策略的潜力。该研究值得进一步研究perampanel作为改善AD相关病理生理和认知缺陷的有希望的候选药物。

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来源期刊

Alzheimer's & Dementia 医学-临床神经学

CiteScore

14.50

自引率

5.00%

发文量

299

审稿时长

3 months

期刊介绍： Alzheimer's & Dementia is a peer-reviewed journal that aims to bridge knowledge gaps in dementia research by covering the entire spectrum, from basic science to clinical trials to social and behavioral investigations. It provides a platform for rapid communication of new findings and ideas, optimal translation of research into practical applications, increasing knowledge across diverse disciplines for early detection, diagnosis, and intervention, and identifying promising new research directions. In July 2008, Alzheimer's & Dementia was accepted for indexing by MEDLINE, recognizing its scientific merit and contribution to Alzheimer's research.