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围生期脑白质损伤模型中免疫/炎症途径激活的表观遗传启动和细胞周期途径的异常活性。

Epigenetic priming of immune/inflammatory pathways activation and abnormal activity of cell cycle pathway in a perinatal model of white matter injury.

机构信息

Université Paris Cité, Epigenetics and Cell Fate, CNRS, F-75013, Paris, France.

Université Paris Cité, NeuroDiderot, Inserm, F-75019, Paris, France.

出版信息

Cell Death Dis. 2022 Dec 13;13(12):1038. doi: 10.1038/s41419-022-05483-4.

DOI:10.1038/s41419-022-05483-4
PMID:36513635
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9748018/
Abstract

Prenatal inflammatory insults accompany prematurity and provoke diffuse white matter injury (DWMI), which is associated with increased risk of neurodevelopmental pathologies, including autism spectrum disorders. DWMI results from maturation arrest of oligodendrocyte precursor cells (OPCs), a process that is poorly understood. Here, by using a validated mouse model of OPC maturation blockade, we provide the genome-wide ID card of the effects of neuroinflammation on OPCs that reveals the architecture of global cell fate issues underlining their maturation blockade. First, we find that, in OPCs, neuroinflammation takes advantage of a primed epigenomic landscape and induces abnormal overexpression of genes of the immune/inflammatory pathways: these genes strikingly exhibit accessible chromatin conformation in uninflamed OPCs, which correlates with their developmental, stage-dependent expression, along their normal maturation trajectory, as well as their abnormal upregulation upon neuroinflammation. Consistently, we observe the positioning on DNA of key transcription factors of the immune/inflammatory pathways (IRFs, NFkB), in both unstressed and inflamed OPCs. Second, we show that, in addition to the general perturbation of the myelination program, neuroinflammation counteracts the physiological downregulation of the cell cycle pathway in maturing OPCs. Neuroinflammation therefore perturbs cell identity in maturing OPCs, in a global manner. Moreover, based on our unraveling of the activity of genes of the immune/inflammatory pathways in prenatal uninflamed OPCs, the mere suppression of these proinflammatory mediators, as currently proposed in the field, may not be considered as a valid neurotherapeutic strategy.

摘要

产前炎症性损伤伴随着早产并引发弥漫性白质损伤 (DWMI),这与神经发育病理学风险增加有关,包括自闭症谱系障碍。DWMI 是由于少突胶质前体细胞 (OPC) 的成熟停滞引起的,这个过程还不太清楚。在这里,我们使用经过验证的 OPC 成熟阻滞小鼠模型,提供了神经炎症对 OPC 影响的全基因组身份证,揭示了强调其成熟阻滞的全局细胞命运问题的结构。首先,我们发现,在 OPC 中,神经炎症利用了预先存在的表观基因组景观,并诱导免疫/炎症途径的基因异常过表达:这些基因在未受炎症影响的 OPC 中表现出可及的染色质构象,这与它们的发育、阶段依赖性表达以及沿着正常成熟轨迹的表达以及在神经炎症时的异常上调有关。一致地,我们观察到免疫/炎症途径 (IRFs、NFkB) 的关键转录因子在未受应激和炎症的 OPC 中定位在 DNA 上。其次,我们表明,除了对髓鞘形成程序的普遍干扰外,神经炎症还会抵消成熟 OPC 中细胞周期途径的生理下调。因此,神经炎症以全局方式破坏成熟 OPC 中的细胞身份。此外,基于我们对产前未受炎症影响的 OPC 中免疫/炎症途径基因活性的揭示,仅像目前该领域所提出的那样抑制这些促炎介质可能不能被认为是一种有效的神经治疗策略。

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