Selective disruption of synaptic NMDA receptors of the hippocampal trisynaptic circuit in Aβ pathology.

IF 4.3 2区 生物学 Q1 BIOLOGY Biological Research Pub Date : 2024-08-22 DOI:10.1186/s40659-024-00537-7
Rocio Alfaro-Ruiz, Alejandro Martín-Belmonte, Carolina Aguado, Ana Esther Moreno-Martínez, Yugo Fukazawa, Rafael Luján
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Abstract

Synaptic dysfunction is an early feature in Alzheimer's disease (AD) pathogenesis and a major morphological correlate of memory deficits. Given the main synaptic location of N-methyl-D-aspartate receptors (NMDARs), their dysregulation has been implicated in these pathological effects. Here, to detect possible alterations in the expression and synaptic localisation of the GluN1 subunit in the brain of amyloidogenic APP/PS1 mice, we employed histoblot and SDS-digested freeze-fracture replica labelling (SDS-FRL) techniques. Histoblots showed that GluN1 expression was significantly reduced in the hippocampus in a layer-dependent manner, in the cortex and the caudate putamen of APP/PS1 transgenic mice at 12 months of age but was unaltered at 1 and 6 months. Using quantitative SDS-FRL, we unravelled the molecular organisation of GluN1 in seven excitatory synapse populations at a high spatial resolution in the CA1 and CA3 fields and the DG of the hippocampus in 12-month-old APP/PS1 mice. In the CA1 field, the labelling density for GluN1 in the excitatory synapses established on spines and interneurons, was significantly reduced in APP/PS1 mice compared to age-matched wild-type mice in the stratum lacunosum-moleculare but unaltered in the stratum radiatum. In the CA3 field, synaptic GluN1 was reduced in mossy fibre-CA3 pyramidal cell synapses but unaltered in the A/C-CA3 pyramidal cell synapses. In the DG, the density of GluN1 in granule cell-perforant pathway synapses was reduced in APP/PS1 mice. Altogether, our findings provide evidence of specific alterations of synaptic GluN1 in the trisynaptic circuit of the hippocampus in Aβ pathology. This differential vulnerability in the disruption of NMDARs may be involved in the mechanisms causing abnormal network activity of the hippocampal circuit and cognitive impairment characteristic of APP/PS1 mice.

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在 Aβ 病理学中选择性破坏海马三突触回路的突触 NMDA 受体
突触功能障碍是阿尔茨海默病(AD)发病机制的早期特征,也是记忆缺陷的主要形态学相关因素。鉴于 N-甲基-D-天冬氨酸受体(NMDARs)主要位于突触部位,它们的失调被认为与这些病理效应有关。在此,为了检测淀粉样蛋白致病 APP/PS1 小鼠大脑中 GluN1 亚基的表达和突触定位的可能变化,我们采用了组织印迹和 SDS 消化冷冻-断裂复制标记(SDS-FRL)技术。组织印迹显示,APP/PS1 转基因小鼠在 12 个月大时,GluN1 在海马、皮层和尾状核的表达明显减少,但在 1 个月和 6 个月大时没有变化。利用定量 SDS-FRL,我们在 12 个月大的 APP/PS1 小鼠的 CA1 和 CA3 区域以及海马 DG 中以高空间分辨率揭示了七个兴奋性突触群中 GluN1 的分子组织。在CA1区域,与年龄匹配的野生型小鼠相比,APP/PS1小鼠建立在棘突和中间神经元上的兴奋性突触的GluN1标记密度在裂隙-痣层显著降低,但在放射层没有变化。在CA3区域,苔藓纤维-CA3锥体细胞突触的GluN1减少,但A/C-CA3锥体细胞突触的GluN1没有变化。在DG中,APP/PS1小鼠颗粒细胞-穿孔通路突触的GluN1密度降低。总之,我们的研究结果提供了证据,证明在Aβ病理学中,海马三突触回路中的突触GluN1发生了特异性改变。这种对 NMDARs 破坏的不同脆弱性可能与导致海马回路异常网络活动和 APP/PS1 小鼠特有的认知障碍的机制有关。
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来源期刊
Biological Research
Biological Research 生物-生物学
CiteScore
10.10
自引率
0.00%
发文量
33
审稿时长
>12 weeks
期刊介绍: Biological Research is an open access, peer-reviewed journal that encompasses diverse fields of experimental biology, such as biochemistry, bioinformatics, biotechnology, cell biology, cancer, chemical biology, developmental biology, evolutionary biology, genetics, genomics, immunology, marine biology, microbiology, molecular biology, neuroscience, plant biology, physiology, stem cell research, structural biology and systems biology.
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