School of Pharmacy & Biomedical Sciences, University of Portsmouth, Portsmouth, UK.
Leicester School of Pharmacy, De Montfort University, Leicester, UK.
Neuropathol Appl Neurobiol. 2021 Jun;47(4):488-505. doi: 10.1111/nan.12674. Epub 2020 Dec 20.
Amyloid β-oligomers (AβO) are potent modulators of Alzheimer's pathology, yet their impact on one of the earliest brain regions to exhibit signs of the condition, the locus coeruleus (LC), remains to be determined. Of particular importance is whether AβO impact the spontaneous excitability of LC neurons. This parameter determines brain-wide noradrenaline (NA) release, and thus NA-mediated brain functions, including cognition, emotion and immune function, which are all compromised in Alzheimer's patients. Therefore, the aim of the study was to determine the expression profile of AβO in the LC of Alzheimer's patients and to probe their potential impact on the molecular and functional correlates of LC excitability, using a mouse model of increased Aβ production (APP-PSEN1).
Immunohistochemistry and confocal microscopy, using AβO-specific antibodies, confirmed LC AβO expression both intraneuronally and extracellularly in both Alzheimer's and APP-PSEN1 samples. Patch clamp electrophysiology recordings revealed that APP-PSEN1 LC neuronal hyperexcitability accompanied this AβO expression profile, arising from a diminished inhibitory effect of GABA due to impaired expression and function of the GABA-A receptor (GABA R) α3 subunit. This altered LC α3-GABA R expression profile overlapped with AβO expression in samples from both APP-PSEN1 mice and Alzheimer's patients. Finally, strychnine-sensitive glycine receptors (GlyRs) remained resilient to Aβ-induced changes and their activation reversed LC hyperexcitability.
The data suggest a close association between AβO and α3-GABA Rs in the LC of Alzheimer's patients, and their potential to dysregulate LC activity, thereby contributing to the spectrum of pathology of the LC-NA system in this condition.
淀粉样β-寡聚体(AβO)是阿尔茨海默病病理的有效调节剂,但它们对最早出现该疾病迹象的脑区之一——蓝斑(LC)的影响仍有待确定。特别重要的是,AβO 是否会影响 LC 神经元的自发兴奋性。该参数决定了大脑中去甲肾上腺素(NA)的释放,从而影响 NA 介导的大脑功能,包括认知、情绪和免疫功能,这些功能在阿尔茨海默病患者中均受到损害。因此,本研究旨在确定 AβO 在阿尔茨海默病患者 LC 中的表达谱,并使用增加 Aβ 产生的 APP-PSEN1 小鼠模型探测其对 LC 兴奋性的分子和功能相关性的潜在影响。
使用 AβO 特异性抗体进行免疫组织化学和共聚焦显微镜检查,证实了 AβO 在阿尔茨海默病和 APP-PSEN1 样本的 LC 神经元内和细胞外均有表达。膜片钳电生理学记录显示,APP-PSEN1 LC 神经元的过度兴奋伴随着这种 AβO 表达模式,这是由于 GABA-A 受体(GABA R)α3 亚基的表达和功能受损,导致 GABA 的抑制作用减弱所致。这种改变的 LC α3-GABA R 表达谱与 APP-PSEN1 小鼠和阿尔茨海默病患者样本中的 AβO 表达重叠。最后,士的宁敏感的甘氨酸受体(GlyRs)对 Aβ 诱导的变化保持弹性,其激活可逆转 LC 过度兴奋。
数据表明,AβO 与阿尔茨海默病患者 LC 中的α3-GABA R 密切相关,它们有可能使 LC 活性失调,从而导致该疾病 LC-NA 系统的病理谱发生变化。
