核周层 A 和核质层 B2 可通过阿尔茨海默病的进展来区分两种类型的海马神经元。

Perinuclear Lamin A and Nucleoplasmic Lamin B2 Characterize Two Types of Hippocampal Neurons through Alzheimer's Disease Progression.

机构信息

Departamento de Genética, Escuela de Medicina, Universidad "Alfonso X el Sabio", 28691 Madrid, Spain.

Departamento de Bioquímica, Facultad de Medicina, Universidad Autónoma de San Luis Potosí, San Luis Potosí 78210, Mexico.

出版信息

Int J Mol Sci. 2020 Mar 7;21(5):1841. doi: 10.3390/ijms21051841.

DOI:10.3390/ijms21051841

PMID:32155994

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7084765/

Abstract

BACKGROUND

Recent reports point to a nuclear origin of Alzheimer's disease (AD). Aged postmitotic neurons try to repair their damaged DNA by entering the cell cycle. This aberrant cell cycle re-entry involves chromatin modifications where nuclear Tau and the nuclear lamin are involved. The purpose of this work was to elucidate their participation in the nuclear pathological transformation of neurons at early AD.

METHODOLOGY

The study was performed in hippocampal paraffin embedded sections of adult, senile, and AD brains at I-VI Braak stages. We analyzed phospho-Tau, lamins A, B1, B2, and C, nucleophosmin (B23) and the epigenetic marker H4K20me3 by immunohistochemistry.

RESULTS

Two neuronal populations were found across AD stages, one is characterized by a significant increase of Lamin A expression, reinforced perinuclear Lamin B2, elevated expression of H4K20me3 and nuclear Tau loss, while neurons with nucleoplasmic Lamin B2 constitute a second population.

CONCLUSIONS

The abnormal cell cycle reentry in early AD implies a fundamental neuronal transformation. This implies the reorganization of the nucleo-cytoskeleton through the expression of the highly regulated Lamin A, heterochromatin repression and building of toxic neuronal tangles. This work demonstrates that nuclear Tau and lamin modifications in hippocampal neurons are crucial events in age-related neurodegeneration.

摘要

背景

最近的报告指出阿尔茨海默病（AD）的核起源。衰老的有丝分裂后神经元试图通过进入细胞周期来修复受损的 DNA。这种异常的细胞周期再进入涉及染色质修饰，其中核 Tau 和核层粘连蛋白参与。这项工作的目的是阐明它们在 AD 早期神经元的核病理转化中的参与。

方法

该研究在成人、老年和 AD 大脑的海马石蜡包埋切片中进行，在 I-VI Braak 阶段。我们通过免疫组织化学分析磷酸化 Tau、层粘连蛋白 A、B1、B2 和 C、核磷蛋白（B23）和表观遗传标记 H4K20me3。

结果

在 AD 各个阶段发现了两种神经元群体，一种特征是层粘连蛋白 A 的表达显著增加，核周层粘连蛋白 B2 增强，H4K20me3 表达升高，核 Tau 丢失，而核浆层粘连蛋白 B2 的神经元构成第二群体。

结论

AD 早期异常的细胞周期再进入意味着基本的神经元转化。这意味着通过高度调节的层粘连蛋白 A 的表达、异染色质抑制和构建毒性神经元缠结来重组核-细胞质骨架。这项工作表明，海马神经元中核 Tau 和层粘连蛋白的修饰是与年龄相关的神经退行性变中的关键事件。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e17e/7084765/189f0fa8645e/ijms-21-01841-g001.jpg

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Perinuclear Lamin A and Nucleoplasmic Lamin B2 Characterize Two Types of Hippocampal Neurons through Alzheimer's Disease Progression.核周层 A 和核质层 B2 可通过阿尔茨海默病的进展来区分两种类型的海马神经元。

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核周层 A 和核质层 B2 可通过阿尔茨海默病的进展来区分两种类型的海马神经元。

Perinuclear Lamin A and Nucleoplasmic Lamin B2 Characterize Two Types of Hippocampal Neurons through Alzheimer's Disease Progression.

机构信息

出版信息

BACKGROUND

METHODOLOGY

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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