泡沫细胞衍生的外泌体 miRNA Novel-3 在缺血性中风期间驱动神经炎症和铁变态反应。

IF 17 Q1 CELL BIOLOGY Nature aging Pub Date : 2024-10-28 DOI:10.1038/s43587-024-00727-8
Chuan Qin, Ming-Hao Dong, Yue Tang, Yun-Hui Chu, Luo-Qi Zhou, Hang Zhang, Sheng Yang, Lu-Yang Zhang, Xiao-Wei Pang, Li-Fang Zhu, Wei Wang, Dai-Shi Tian
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引用次数: 0

摘要

大动脉粥样硬化(LAA)是急性缺血性脑卒中(AIS)的常见病因。了解动脉粥样硬化与中风的关联机制对于制定适当的干预策略至关重要。在这里,我们发现外泌体 miRNA Novel-3 在 LAA-AIS 患者的血浆中选择性上调。值得注意的是,Novel-3 主要在巨噬细胞衍生的泡沫细胞中表达,其表达与接受颈动脉内膜切除术的患者动脉粥样硬化斑块的脆弱性相关。在小鼠脑缺血模型中探索 Novel-3 的功能时,我们发现 Novel-3 加剧了缺血损伤,并在梗死周围区域靶向表达电离钙结合适配器分子 1 的小胶质细胞和巨噬细胞。从机理上讲,Novel-3 通过与纹蛋白(STRN)相互作用和下调磷酸肌醇 3- 激酶-AKT-雷帕霉素机械靶标信号通路,增加了铁变态反应和神经炎症。阻断Novel-3的活性或过表达STRN可在缺血条件下提供神经保护。我们的研究结果表明,外泌体Novel-3主要来源于巨噬细胞衍生的泡沫细胞,它能靶向大脑中的小胶质细胞和巨噬细胞诱发神经炎症,可作为动脉粥样硬化中风患者的潜在治疗靶点。
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The foam cell-derived exosomal miRNA Novel-3 drives neuroinflammation and ferroptosis during ischemic stroke.

Large artery atherosclerosis (LAA) is a prevalent cause of acute ischemic stroke (AIS). Understanding the mechanisms linking atherosclerosis to stroke is essential for developing appropriate intervention strategies. Here, we found that the exosomal miRNA Novel-3 is selectively upregulated in the plasma of patients with LAA-AIS. Notably, Novel-3 was predominantly expressed in macrophage-derived foam cells, and its expression correlated with atherosclerotic plaque vulnerability in patients undergoing carotid endarterectomy. Exploring the function of Novel-3 in a mouse model of cerebral ischemia, we found that Novel-3 exacerbated ischemic injury and targeted microglia and macrophages expressing ionized calcium-binding adapter molecule 1 in peri-infarct regions. Mechanistically, Novel-3 increased ferroptosis and neuroinflammation by interacting with striatin (STRN) and downregulating the phosphoinositide 3-kinase-AKT-mechanistic target of rapamycin signaling pathway. Blocking Novel-3 activity or overexpressing STRN provided neuroprotection under ischemic conditions. Our findings suggest that exosomal Novel-3, which is primarily derived from macrophage-derived foam cells, targets microglia and macrophages in the brain to induce neuroinflammation and could serve as a potential therapeutic target for patients with stroke who have atherosclerosis.

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