Resilient Hippocampal Gamma Rhythmogenesis and Parvalbumin-Expressing Interneuron Function Before and After Plaque Burden in 5xFAD Alzheimer's Disease Model.

IF 2.8 4区 医学 Q2 NEUROSCIENCES
Frontiers in Synaptic Neuroscience Pub Date : 2022-05-11 eCollection Date: 2022-01-01 DOI:10.3389/fnsyn.2022.857608
Connie A Mackenzie-Gray Scott, Kenneth A Pelkey, Adam P Caccavano, Daniel Abebe, Mandy Lai, Khayla N Black, Nicolette D Brown, Andrew J Trevelyan, Chris J McBain
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Abstract

Recent studies have implicated impaired Parvalbumin Fast-Spiking Interneuron (PVIN) function as a precipitating factor underlying abnormalities in network synchrony, oscillatory rhythms, and cognition associated with Alzheimer's disease (AD). However, a complete developmental investigation of potential gamma deficits, induced by commonly used carbachol or kainate in ex vivo slice preparations, within AD model mice is lacking. We examined gamma oscillations using field recordings in acute hippocampal slices from 5xFAD and control mice, through the period of developing pathology, starting at 3 months of age, when there is minimal plaque presence in the hippocampus, through to 12+ months of age, when plaque burden is high. In addition, we examined PVIN participation in gamma rhythms using targeted cell-attached recordings of genetically-reported PVINs, in both wild type and mutant mice. In parallel, a developmental immunohistochemical characterisation probing the PVIN-associated expression of PV and perineuronal nets (PNNs) was compared between control and 5xFAD mice. Remarkably, this comprehensive longitudinal evaluation failed to reveal any obvious correlations between PVIN deficits (electrical and molecular), circuit rhythmogenesis (gamma frequency and power), and Aβ deposits/plaque formation. By 6-12 months, 5xFAD animals have extensive plaque formation throughout the hippocampus. However, a deficit in gamma oscillatory power was only evident in the oldest 5xFAD animals (12+ months), and only when using kainate, and not carbachol, to induce the oscillations. We found no difference in PV firing or phase preference during kainate-induced oscillations in younger or older 5xFAD mice compared to control, and a reduction of PV and PNNs only in the oldest 5xFAD mice. The lack of a clear relationship between PVIN function, network rhythmicity, and plaque formation in our study highlights an unexpected resilience in PVIN function in the face of extensive plaque pathology associated with this model, calling into question the presumptive link between PVIN pathology and Alzheimer's progression.

5xFAD阿尔茨海默病模型斑块负荷前后海马伽马节律发生和小蛋白表达的中间神经元功能
最近的研究表明,小白蛋白快速脉冲中间神经元(PVIN)功能受损是阿尔茨海默病(AD)相关的网络同步、振荡节律和认知异常的诱发因素。然而,在AD模型小鼠中,缺乏对离体切片制剂中常用的氨基酚或海因酸盐诱导的潜在γ缺陷的完整发育研究。我们通过对5xFAD小鼠和对照小鼠急性海马切片的场记录来检测伽马振荡,从3个月大开始,海马中存在最小的斑块,到12个多月大,斑块负担高。此外,在野生型和突变型小鼠中,我们使用基因报道的PVINs的靶向细胞附着记录来检测PVIN在伽马节律中的参与。同时,比较了对照和5xFAD小鼠pvin相关的PV和神经元周围网(PNNs)表达的发育免疫组织化学特征。值得注意的是,这项全面的纵向评估未能揭示PVIN缺陷(电和分子)、电路节律发生(伽马频率和功率)和Aβ沉积/斑块形成之间的任何明显相关性。到6-12个月时,5xFAD动物在整个海马区形成广泛的斑块。然而,伽马振荡能力的缺陷仅在年龄最大的5xFAD动物(12个月以上)中表现明显,并且仅在使用海纳酸盐而不是氨基酚来诱导振荡时才会出现。我们发现,与对照组相比,年轻或年老的5xFAD小鼠在kainate诱导的振荡中PV放电或相偏好没有差异,并且仅在年老的5xFAD小鼠中PV和PNNs减少。在我们的研究中,PVIN功能、网络节律性和斑块形成之间缺乏明确的关系,这突出了PVIN功能在面对与该模型相关的广泛斑块病理时的意想不到的弹性,这对PVIN病理与阿尔茨海默病进展之间的假定联系提出了质疑。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.10
自引率
2.70%
发文量
74
审稿时长
14 weeks
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