小鼠暴露于外周内毒素会激活大脑和外周吞噬细胞之间的串联。

Jake Boles, Oihane Uriarte Huarte, Malú Gámez Tansey
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引用次数: 0

摘要

背景 炎症是许多神经系统疾病的核心过程,越来越多的研究表明,非脑驻留免疫细胞可能会导致这种神经炎症。然而,目前尚不清楚特定免疫细胞亚群对神经炎症的独特贡献,也不清楚脑驻留免疫细胞和非脑驻留免疫细胞之间的交流如何成为外周免疫细胞参与神经炎症的基础。方法 在这项研究中,我们采用了成熟的脂多糖(LPS)诱导神经炎症模型,通过磁性富集非灌注脑细胞悬浮液中的 CD45 + 细胞,从脑及其血管中捕获脑驻留和非驻留免疫细胞。然后,我们利用单细胞基因组学鉴定了免疫亚型特异性神经炎症过程,并通过分析配体和受体的同时表达预测了免疫细胞亚型之间的相互影响。结果 我们观察到,在这种神经炎症模型中,与大脑相关的外周吞噬细胞数量更多,并报告说,在 LPS 诱导的神经炎症过程中,这些专业吞噬细胞激活了与小胶质细胞类似的转录谱。而且,我们观察到,在该模型中,小胶质细胞与外周吞噬细胞之间的串联可能被激活,而同型小胶质细胞的交流可能减少。结论 我们的新发现揭示了小胶质细胞向非脑驻留外周吞噬细胞发出信号是由外周炎症优先触发的,而外周炎症与外周细胞的脑浸润有关。总之,我们的研究支持外周免疫细胞参与神经炎症,并提出了小胶质细胞和外周细胞之间可能存在的几种分子信号通路,这些通路可能会在炎症期间促进中枢-外周串联。在人类疾病和其他啮齿类动物模型中研究这些分子介质可能会发现改变大脑健康的新靶点,尤其是以外周炎症为特征的合并症。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Peripheral endotoxin exposure in mice activates crosstalk between phagocytes in the brain and periphery.

Background: Inflammation is a central process of many neurological diseases, and a growing number of studies suggest that non-brain-resident immune cells may contribute to this neuroinflammation. However, the unique contributions of specific immune cell subsets to neuroinflammation are presently unknown, and it is unclear how communication between brain-resident and non-resident immune cells underlies peripheral immune cell involvement in neuroinflammation.

Methods: In this study, we employed the well-established model of lipopolysaccharide (LPS)-induced neuroinflammation and captured brain-resident and non-resident immune cells from the brain and its vasculature by magnetically enriching cell suspensions from the non-perfused brain for CD45 + cells. Then, we identified immune subtype-specific neuroinflammatory processes using single-cell genomics and predicted the crosstalk between immune cell subtypes by analyzing the simultaneous expression of ligands and receptors.

Results: We observed a greater abundance of peripheral phagocytes associated with the brain in this model of neuroinflammation, and report that these professional phagocytes activated similar transcriptional profiles to microglia during LPS-induced neuroinflammation. And, we observed that the probable crosstalk between microglia and peripheral phagocytes was activated in this model while homotypic microglial communication was likely to be decreased.

Conclusions: Our novel findings reveal that microglia signaling to non-brain-resident peripheral phagocytes is preferentially triggered by peripheral inflammation, which is associated with brain infiltration of peripheral cells. Overall, our study supports the involvement of peripheral immune cells in neuroinflammation and suggests several possible molecular signaling pathways between microglia and peripheral cells that may facilitate central-peripheral crosstalk during inflammation. Examining these molecular mediators in human disease and other rodent models may reveal novel targets that modify brain health, especially in comorbidities characterized by peripheral inflammation.

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