阿尔茨海默病体液生物标志物中升高的磷酸化tau 位点在死后大脑中早期神经原纤维缠结成熟水平中可见。

Phosphorylated tau sites that are elevated in Alzheimer's disease fluid biomarkers are visualized in early neurofibrillary tangle maturity levels in the post mortem brain.

机构信息

Department of Neuroscience, Mayo Clinic, Jacksonville, Florida, USA.

Department of Quantitative Health Sciences, Mayo Clinic, Jacksonville, Florida, USA.

出版信息

Alzheimers Dement. 2023 Mar;19(3):1029-1040. doi: 10.1002/alz.12749. Epub 2022 Aug 3.

DOI:10.1002/alz.12749

PMID:35920592

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9895127/

Abstract

INTRODUCTION

Alzheimer's disease (AD) biomarkers are increasingly more reliable in predicting neuropathology. To facilitate interpretation of phosphorylated tau sites as an early fluid biomarker, we sought to characterize which neurofibrillary tangle maturity levels (pretangle, intermediary 1, mature tangle, intermediary 2, and ghost tangle) are recognized.

METHODS

We queried the Florida Autopsied Multi-Ethnic (FLAME) cohort for cases ranging from Braak stages I through VI, excluding non-AD neuropathologies and tauopathies. Thioflavin-S staining was compared to immunohistochemical measures of phosphorylated threonine (pT) 181, pT205, pT217, and pT231 in two hippocampal subsectors across n = 24 cases.

RESULTS

Each phosphorylated tau site immunohistochemically labeled early neurofibrillary tangle maturity levels compared to advanced levels recognized by thioflavin-S. Hippocampal burden generally increased with each Braak stage.

DISCUSSION

These results provide neurobiologic evidence that these phosphorylated tau fluid biomarker sites are present during early neurofibrillary tangle maturity levels and may explain why these fluid biomarker measures are observed before symptom onset.

HIGHLIGHTS

Immunohistochemical evaluation of four phosphorylated tau fluid biomarker sites. Earlier neurofibrillary tangle maturity levels recognized by phosphorylated tau in proline-rich region. Advanced tangle pathology is elevated in the subiculum compared to the cornu ammonis 1 of the hippocampus. Novel semi-quantitative frequency to calculate tangle maturity frequency.

摘要

简介

阿尔茨海默病（AD）生物标志物在预测神经病理学方面越来越可靠。为了方便将磷酸化 tau 位点解释为早期液体生物标志物，我们试图描述哪些神经原纤维缠结成熟度水平（预缠结、中间 1、成熟缠结、中间 2 和幽灵缠结）被识别。

方法

我们在佛罗里达州尸检多民族（FLAME）队列中查询了从 Braak 阶段 I 到 VI 的病例，排除了非 AD 神经病理学和 tau 病。用硫黄素-S 染色与两个海马亚区的磷酸化 threonine (pT) 181、pT205、pT217 和 pT231 的免疫组织化学测量进行比较，n = 24 例。

结果

每个磷酸化 tau 位点的免疫组织化学标记都比硫黄素-S 识别的高级水平更早地标记神经原纤维缠结的成熟度水平。海马体负担通常随着每个 Braak 阶段的增加而增加。

讨论

这些结果提供了神经生物学证据，表明这些磷酸化 tau 液体生物标志物位点存在于早期神经原纤维缠结成熟度水平，并可能解释为什么这些液体生物标志物测量在症状出现之前就被观察到。

亮点

四个磷酸化 tau 液体生物标志物位点的免疫组织化学评估。磷酸化 tau 在脯氨酸丰富区域识别的早期神经原纤维缠结成熟度水平。与海马体 1 角相比，亚基内的高级缠结病理学升高。用于计算缠结成熟频率的新型半定量频率。

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Phosphorylated tau sites that are elevated in Alzheimer's disease fluid biomarkers are visualized in early neurofibrillary tangle maturity levels in the post mortem brain.阿尔茨海默病体液生物标志物中升高的磷酸化tau 位点在死后大脑中早期神经原纤维缠结成熟水平中可见。

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