Single nuclei RNA-seq reveals a medium spiny neuron glutamate excitotoxicity signature prior to the onset of neuronal death in an ovine Huntington's disease model.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-08-18 DOI:10.1093/hmg/ddae087
Andrew Jiang, Linya You, Renee R Handley, Victoria Hawkins, Suzanne J Reid, Jessie C Jacobsen, Stefano Patassini, Skye R Rudiger, Clive J Mclaughlan, Jennifer M Kelly, Paul J Verma, C Simon Bawden, James F Gusella, Marcy E MacDonald, Henry J Waldvogel, Richard L M Faull, Klaus Lehnert, Russell G Snell
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Abstract

Huntington's disease (HD) is a neurodegenerative genetic disorder caused by an expansion in the CAG repeat tract of the huntingtin (HTT) gene resulting in behavioural, cognitive, and motor defects. Current knowledge of disease pathogenesis remains incomplete, and no disease course-modifying interventions are in clinical use. We have previously reported the development and characterisation of the OVT73 transgenic sheep model of HD. The 73 polyglutamine repeat is somatically stable and therefore likely captures a prodromal phase of the disease with an absence of motor symptomatology even at 5-years of age and no detectable striatal cell loss. To better understand the disease-initiating events we have undertaken a single nuclei transcriptome study of the striatum of an extensively studied cohort of 5-year-old OVT73 HD sheep and age matched wild-type controls. We have identified transcriptional upregulation of genes encoding N-methyl-D-aspartate (NMDA), α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) and kainate receptors in medium spiny neurons, the cell type preferentially lost early in HD. Further, we observed an upregulation of astrocytic glutamate uptake transporters and medium spiny neuron GABAA receptors, which may maintain glutamate homeostasis. Taken together, these observations support the glutamate excitotoxicity hypothesis as an early neurodegeneration cascade-initiating process but the threshold of toxicity may be regulated by several protective mechanisms. Addressing this biochemical defect early may prevent neuronal loss and avoid the more complex secondary consequences precipitated by cell death.

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在绵羊亨廷顿氏病模型中,单核 RNA-seq 发现了中棘神经元在神经元死亡开始前的谷氨酸兴奋毒性特征。
亨廷顿氏病(Huntington's disease,HD)是一种神经退行性遗传疾病,由亨廷丁(huntingtin,HTT)基因的 CAG 重复序列扩增引起,导致行为、认知和运动缺陷。目前对该病发病机制的了解仍不全面,临床上也没有使用可改变病程的干预措施。我们曾报道过 OVT73 转基因绵羊 HD 模型的开发和特征描述。73 多聚谷氨酰胺重复序列在体细胞上是稳定的,因此很可能捕捉到了疾病的前驱期,即使在 5 岁时也没有运动症状,也没有发现纹状体细胞丢失。为了更好地了解疾病的诱发事件,我们对一组广泛研究过的 5 岁 OVT73 HD 绵羊和年龄匹配的野生型对照组的纹状体进行了单核转录组研究。我们在中棘神经元中发现了编码 N-甲基-D-天冬氨酸(NMDA)、α-氨基-3-羟基-5-甲基-4-异恶唑丙酸(AMPA)和 kainate 受体基因的转录上调,中棘神经元是 HD 早期优先丢失的细胞类型。此外,我们还观察到星形胶质细胞谷氨酸摄取转运体和中棘神经元 GABAA 受体的上调,这可能会维持谷氨酸的平衡。综上所述,这些观察结果支持谷氨酸兴奋毒性假说,认为它是早期神经变性级联的启动过程,但毒性阈值可能受多种保护机制的调节。及早解决这一生化缺陷可防止神经元丧失,避免细胞死亡引发更复杂的继发性后果。
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4.30%
发文量
567
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