小胶质细胞固有免疫记忆的表观遗传调控。

Epigenetic regulation of innate immune memory in microglia.

机构信息

Department of Biomedical Sciences of Cells and Systems, Section Molecular Neurobiology, University Medical Center Groningen, University of Groningen, Antonius Deusinglaan 1, Hpc-FB43, 9713 AV, Groningen, The Netherlands.

Department of Internal Medicine, Division of Metabolism, Endocrinology, and Diabetes, University of Michigan, Ann Arbor, MI, USA.

出版信息

J Neuroinflammation. 2022 May 14;19(1):111. doi: 10.1186/s12974-022-02463-5.

DOI:10.1186/s12974-022-02463-5

PMID:35568856

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9107649/

Abstract

BACKGROUND

Microglia are the tissue-resident macrophages of the CNS. They originate in the yolk sac, colonize the CNS during embryonic development and form a self-sustaining population with limited turnover. A consequence of their relative slow turnover is that microglia can serve as a long-term memory for inflammatory or neurodegenerative events.

METHODS

Using ATAC-, ChIP- and RNA-sequencing, we characterized the epigenomes and transcriptomes of FACS-purified microglia from mice exposed to different stimuli. A repeated endotoxin challenge (LPS) was used to induce tolerance in microglia, while genotoxic stress (DNA repair deficiency-induced accelerated aging through Ercc1 deficiency) resulted in primed (hypersensitive) microglia.

RESULTS

Whereas the enrichment of permissive epigenetic marks at enhancer regions could explain training (hyper-responsiveness) of primed microglia to an LPS challenge, the tolerized response of microglia seems to be regulated by loss of permissive epigenetic marks. We identify that inflammatory stimuli and accelerated aging as a result of genotoxic stress activate distinct gene networks. These gene networks and associated biological processes are partially overlapping, which is likely driven by specific transcription factor networks, resulting in altered epigenetic signatures and distinct functional (desensitized vs. primed) microglia phenotypes.

CONCLUSION

This study provides insight into epigenetic profiles and transcription factor networks associated with transcriptional signatures of tolerized and trained microglia in vivo, leading to a better understanding of innate immune memory of microglia.

摘要

背景

小胶质细胞是中枢神经系统的组织驻留巨噬细胞。它们起源于卵黄囊，在胚胎发育过程中定殖于中枢神经系统，并形成具有有限更新的自我维持群体。由于其相对缓慢的更新，小胶质细胞可以作为炎症或神经退行性事件的长期记忆。

方法

使用 ATAC-、ChIP- 和 RNA 测序，我们对暴露于不同刺激的 FACS 纯化小胶质细胞的表观基因组和转录组进行了表征。重复内毒素挑战（LPS）用于诱导小胶质细胞耐受，而遗传毒性应激（通过 Ercc1 缺陷导致 DNA 修复缺陷诱导加速衰老）导致小胶质细胞预先激活（超敏）。

结果

尽管增强子区域的允许性表观遗传标记的富集可以解释预先激活的小胶质细胞对 LPS 挑战的训练（超敏反应），但小胶质细胞的耐受反应似乎是由允许性表观遗传标记的丧失调节的。我们发现炎症刺激和遗传毒性应激导致的加速衰老激活了不同的基因网络。这些基因网络和相关的生物学过程部分重叠，这可能是由特定的转录因子网络驱动的，导致改变的表观遗传特征和不同的功能（脱敏与预先激活）小胶质细胞表型。

结论

这项研究提供了对体内耐受和训练小胶质细胞的表观遗传特征和转录因子网络的深入了解，有助于更好地理解小胶质细胞的固有免疫记忆。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42fb/9107649/b7cdbc40a102/12974_2022_2463_Fig1_HTML.jpg

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小胶质细胞固有免疫记忆的表观遗传调控。

Epigenetic regulation of innate immune memory in microglia.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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