VEGFD/VEGFR3 signaling contributes to the dysfunction of the astrocyte IL-3/microglia IL-3Rα cross-talk and drives neuroinflammation in mouse ischemic stroke.

IF 6.9 1区 医学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Shuai Wang, Yi Guo, Rui-Qi Cao, Yong-Ming Zhu, Shi-Gang Qiao, Hua-Ping Du, Yuan Liu, Yuan Xu, Xian-Yong Zhou, Lei Sun, Qi-Xia Lu, Ingmar Schoen, Hui-Ling Zhang
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引用次数: 0

Abstract

Astrocyte-derived IL-3 activates the corresponding receptor IL-3Rα in microglia. This cross-talk between astrocytes and microglia ameliorates the pathology of Alzheimer's disease in mice. In this study we investigated the role of IL-3/IL-3Rα cross-talk and its regulatory mechanisms in ischemic stroke. Ischemic stroke was induced in mice by intraluminal occlusion of the right middle cerebral artery (MCA) for 60 min followed by reperfusion (I/R). Human astrocytes or microglia subjected to oxygen-glucose deprivation and reoxygenation (OGD/Re) were used as in vitro models of brain ischemia. We showed that both I/R and OGD/Re significantly induced decreases in astrocytic IL-3 and microglial IL-3Rα protein levels, accompanied by pro-inflammatory activation of A1-type astrocytes and M1-type microglia. Importantly, astrocyte-derived VEGFD acting on VEGFR3 of astrocytes and microglia contributed to the cross-talk dysfunction and pro-inflammatory activation of the two glial cells, thereby mediating neuronal cell damage. By using metabolomics and multiple biochemical approaches, we demonstrated that IL-3 supplementation to microglia reversed OGD/Re-induced lipid metabolic reprogramming evidenced by upregulated expression of CPT1A, a rate-limiting enzyme for the mitochondrial β-oxidation, and increased levels of glycerophospholipids, the major components of cellular membranes, causing reduced accumulation of lipid droplets, thus reduced pro-inflammatory activation and necrosis, as well as increased phagocytosis of microglia. Notably, exogenous IL-3 and the VEGFR antagonist axitinib reestablished the cross-talk of IL-3/IL-3Rα, improving microglial lipid metabolic levels via upregulation of CPT1A, restoring microglial phagocytotic function and attenuating microglial pro-inflammatory activation, ultimately contributing to brain recovery from I/R insult. Our results demonstrate that VEGFD/VEGFR3 signaling contributes to the dysfunction of the astrocyte IL-3/microglia IL-3Rα cross-talk and drives pro-inflammatory activation, causing lipid metabolic reprogramming of microglia. These insights suggest VEGFR3 antagonism or restoring IL-3 levels as a potential therapeutic strategy for ischemic stroke.

血管内皮生长因子受体D/血管内皮生长因子受体3(VEGFD/VEGFR3)信号传导导致小鼠缺血性中风中星形胶质细胞 IL-3/小胶质细胞 IL-3Rα交叉对话功能障碍并驱动神经炎症。
源自星形胶质细胞的 IL-3 能激活小胶质细胞中相应的受体 IL-3Rα。星形胶质细胞和小胶质细胞之间的这种交叉对话可改善小鼠阿尔茨海默病的病理变化。本研究探讨了IL-3/IL-3Rα交叉对话在缺血性中风中的作用及其调控机制。小鼠缺血性中风的诱因是右侧大脑中动脉(MCA)腔内闭塞 60 分钟,然后进行再灌注(I/R)。人星形胶质细胞或小胶质细胞经氧-葡萄糖剥夺和再氧合(OGD/Re)后被用作脑缺血的体外模型。我们的研究表明,I/R 和 OGD/Re 都会显著诱导星形胶质细胞 IL-3 和小胶质细胞 IL-3Rα 蛋白水平的下降,并伴随着 A1 型星形胶质细胞和 M1 型小胶质细胞的促炎激活。重要的是,作用于星形胶质细胞和小胶质细胞 VEGFR3 的源于星形胶质细胞的 VEGFD 导致了这两种胶质细胞的交叉对话功能障碍和促炎激活,从而介导了神经细胞损伤。通过使用代谢组学和多种生化方法,我们证明了向小胶质细胞补充 IL-3 可逆转 OGD/Re 诱导的脂质代谢重编程,表现为线粒体 β 氧化的限速酶 CPT1A 的表达上调、和细胞膜主要成分甘油磷脂水平的提高,导致脂滴积聚减少,从而减少了促炎症激活和坏死,并提高了小胶质细胞的吞噬能力。值得注意的是,外源性IL-3和血管内皮生长因子受体拮抗剂阿西替尼重新建立了IL-3/IL-3Rα的交叉对话,通过上调CPT1A改善了小胶质细胞的脂质代谢水平,恢复了小胶质细胞的吞噬功能,减轻了小胶质细胞的促炎激活,最终促进了大脑从I/R损伤中恢复。我们的研究结果表明,VEGFD/VEGFR3 信号传导导致星形胶质细胞 IL-3/小胶质细胞 IL-3Rα 交叉对话功能障碍,并驱动促炎激活,引起小胶质细胞脂质代谢重编程。这些见解表明,VEGFR3 拮抗或恢复 IL-3 水平是缺血性中风的一种潜在治疗策略。
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来源期刊
Acta Pharmacologica Sinica
Acta Pharmacologica Sinica 医学-化学综合
CiteScore
15.10
自引率
2.40%
发文量
4365
审稿时长
2 months
期刊介绍: APS (Acta Pharmacologica Sinica) welcomes submissions from diverse areas of pharmacology and the life sciences. While we encourage contributions across a broad spectrum, topics of particular interest include, but are not limited to: anticancer pharmacology, cardiovascular and pulmonary pharmacology, clinical pharmacology, drug discovery, gastrointestinal and hepatic pharmacology, genitourinary, renal, and endocrine pharmacology, immunopharmacology and inflammation, molecular and cellular pharmacology, neuropharmacology, pharmaceutics, and pharmacokinetics. Join us in sharing your research and insights in pharmacology and the life sciences.
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