大脑缺血会导致内皮细胞中的 Notch1 系统性活动,从而引发动脉粥样硬化

IF 25.5 1区 医学 Q1 IMMUNOLOGY
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引用次数: 0

摘要

内皮细胞(EC)的活化导致全身动脉粥样硬化,而脑卒中是导致复发性血管事件的持续高风险因素。然而,人们对中风是否以及如何诱导全身血管内皮细胞发生持续的促炎症和促动脉粥样硬化性改变仍然知之甚少。我们的研究表明,脑缺血会诱导外周EC持续活化、粘附分子VCAM1上调和衰老增加,直到中风发病后4周。小鼠和人类中风后,循环中增加的 Notch1 配体 DLL1 和 Jagged1 触发了持续的 Notch1 信号传导,从而导致心肌细胞活性异常。因此,这导致髓系细胞粘附性增加,并通过产生衰老、促炎的内皮层而导致动脉粥样硬化。Notch1或VCAM1阻断抗体和内皮Notch1基因消减可减少中风后的动脉粥样硬化。我们的研究结果揭示了诱导中风后外周EC持续活化的系统机制,这为治疗干预或预防中风后复发性血管事件的发生铺平了道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Brain ischemia causes systemic Notch1 activity in endothelial cells to drive atherosclerosis

Brain ischemia causes systemic Notch1 activity in endothelial cells to drive atherosclerosis

Stroke leads to persistently high risk for recurrent vascular events caused by systemic atheroprogression that is driven by endothelial cell (EC) activation. However, whether and how stroke induces sustained pro-inflammatory and proatherogenic endothelial alterations in systemic vessels remain poorly understood. We showed that brain ischemia induces persistent activation, the upregulation of adhesion molecule VCAM1, and increased senescence in peripheral ECs until 4 weeks after stroke onset. This aberrant EC activity resulted from sustained Notch1 signaling, which was triggered by increased circulating Notch1 ligands DLL1 and Jagged1 after stroke in mice and humans. Consequently, this led to increased myeloid cell adhesion and atheroprogression by generating a senescent, pro-inflammatory endothelium. Notch1- or VCAM1-blocking antibodies and the genetic ablation of endothelial Notch1 reduced atheroprogression after stroke. Our findings revealed a systemic machinery that induces the persistent activation of peripheral ECs after stroke, which paves the way for therapeutic interventions or the prevention of recurrent vascular events following stroke.

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来源期刊
Immunity
Immunity 医学-免疫学
CiteScore
49.40
自引率
2.20%
发文量
205
审稿时长
6 months
期刊介绍: Immunity is a publication that focuses on publishing significant advancements in research related to immunology. We encourage the submission of studies that offer groundbreaking immunological discoveries, whether at the molecular, cellular, or whole organism level. Topics of interest encompass a wide range, such as cancer, infectious diseases, neuroimmunology, autoimmune diseases, allergies, mucosal immunity, metabolic diseases, and homeostasis.
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