3,5-Dimethyladamantan-1-amine Restores Short-term Synaptic Plasticity by Changing Function of Excitatory Amino Acid Transporters in Mouse Model of Spinocerebellar Ataxia Type 1

O. Belozor, A. A. Vasilev, Alexandra G. Mileiko, Liudmila D. Mosina, Ilya G. Mikhailov, A. Shuvaev, A. Shuvaev
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Abstract

Introduction. Memantine is an agent that used for treatment of Alzheimer's type dementia. Memantine considerably reduces the effects of neurodegeneration, may potentially slow down the neurodegenerative changes in the cerebellum and may act as treatment of choice for spinocerebellar ataxia type 1 (SCA 1). Our objective was to study molecular mechanisms of the short-term synaptic plasticity improvement associated with long-term memantine use in SCA 1 transgenic mice. Materials and methods. The experiments were performed on 12-week-old CD1 mice. We created a mouse model of cerebellar astrogliosis after expression of mutant ataxin-1 (ATXN1[Q85]) in the Bergmann glia (BG). To model the astrocyte-mediated neurodegeneration in the cerebellum, the mice were injected with LVV GFAP-Flag-ATXN1[Q85] lentiviral vector (LVV) constructs intracortically. Some of the mice received 0.35 mg/kg memantine dissolved in drink water once daily for 9 weeks. The control animals were administered LVV GFAP-ATXN1[Q2]-Flag. Changes of the excitatory postsynaptic currents amplitudes from Purkinje cells (PC) were recorded by patch clamp. Expression of anti-EAAT1 in the cerebellar cortex was assessed using immunohistochemistry. Results. The reactive glia of the cerebellar cortex in SCA1 mice is characterized by a decrease in the immunoreactivity of anti-EAAT1, while chronic memantine use restores this capacity. The decay time of the excitatory postsynaptic current amplitude in the parallel fiber-Purkinje cell (PF-PC) synapses of the SCA1 mice is considerably longer, which indicates the slowing of glutamate reuptake and EAAT1 dysfunction. The prolonged presence of increased neurotransmitter levels in the synaptic cleft facilitates activation of the mGluR1 signaling and restoration of mGluR1-dependent synaptic plasticity in Purkinje cells of the SCA1 mice. Conclusions. The slowing of neurotransmitter reuptake associated with long-term memantine treatment improves mGluR1-dependent short-term synaptic plasticity of the Purkinje cells in the SCA1 mice. Restoration of synaptic plasticity in these animals may underlie partial reduction of ataxic syndrome.
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3,5-二甲基金刚烷-1-胺通过改变兴奋性氨基酸转运体的功能恢复脊髓小脑共济失调 1 型小鼠模型的短期突触可塑性
简介美金刚是一种用于治疗阿尔茨海默型痴呆症的药物。美金刚能显著减轻神经退行性变的影响,有可能减缓小脑神经退行性变,并可作为治疗脊髓小脑共济失调 1 型(SCA 1)的首选药物。我们的目的是研究在 SCA 1 转基因小鼠中长期使用美金刚的短期突触可塑性改善的分子机制。材料和方法。实验在 12 周大的 CD1 小鼠身上进行。我们在伯格曼胶质细胞(BG)中表达突变型共济失调素-1(ATXN1[Q85])后建立了小脑星形胶质细胞病变的小鼠模型。为了模拟小脑星形胶质细胞介导的神经变性,小鼠皮质内注射了 LVV GFAP-Flag-ATXN1[Q85] 慢病毒载体(LVV)构建体。其中一些小鼠接受了溶于饮用水中的 0.35 mg/kg 美金刚,每天一次,持续 9 周。对照组动物则接受 LVV GFAP-ATXN1[Q2]-Flag 的治疗。通过膜片钳记录来自浦肯野细胞(PC)的兴奋性突触后电流振幅的变化。用免疫组化方法评估小脑皮质中抗EAAT1的表达。结果显示SCA1小鼠小脑皮质反应性神经胶质的特点是抗EAAT1的免疫活性降低,而长期服用美金刚则可恢复这种能力。SCA1 小鼠平行纤维-浦肯野细胞(PF-PC)突触中兴奋性突触后电流幅度的衰减时间大大延长,这表明谷氨酸再摄取减慢和 EAAT1 功能障碍。突触间隙中神经递质水平的长期增高促进了 mGluR1 信号的激活,并恢复了 SCA1 小鼠浦肯野细胞中依赖于 mGluR1 的突触可塑性。结论长期美金刚治疗可减缓神经递质的再摄取,从而改善 SCA1 小鼠普肯列细胞的 mGluR1 依赖性短期突触可塑性。这些动物突触可塑性的恢复可能是共济失调综合征部分减轻的原因。
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来源期刊
Annals of Clinical and Experimental Neurology
Annals of Clinical and Experimental Neurology Medicine-Neurology (clinical)
CiteScore
0.80
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32
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