IL-33/ST2 signaling in monocyte-derived macrophages maintains blood-brain barrier integrity and restricts infarctions early after ischemic stroke.

IF 9.3 1区 医学 Q1 IMMUNOLOGY
Miao Wang, Connor Dufort, Zhihong Du, Ruyu Shi, Fei Xu, Zhentai Huang, Ana Rios Sigler, Rehana K Leak, Xiaoming Hu
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引用次数: 0

Abstract

Background: Brain microglia and infiltrating monocyte-derived macrophages are vital in preserving blood vessel integrity after stroke. Understanding mechanisms that induce immune cells to adopt vascular-protective phenotypes may hasten the development of stroke treatments. IL-33 is a potent chemokine released from damaged cells, such as CNS glia after stroke. The activation of IL-33/ST2 signaling has been shown to promote neuronal viability and white matter integrity after ischemic stroke. The impact of IL-33/ST2 on blood-brain barrier (BBB) integrity, however, remains unknown. The current study fills this gap and reveals a critical role of IL-33/ST2 signaling in macrophage-mediated BBB protection after stroke.

Methods: Transient middle cerebral artery occlusion (tMCAO) was performed to induce ischemic stroke in wildtype (WT) versus ST2 knockout (KO) male mice. IL-33 was applied intranasally to tMCAO mice with or without dietary PLX5622 to deplete microglia/macrophages. ST2 KO versus WT bone marrow or macrophage cell transplantations were used to test the involvement of ST2+ macrophages in BBB integrity. Macrophages were cocultured in transwells with brain endothelial cells (ECs) after oxygen-glucose deprivation (OGD) to test potential direct effects of IL33-treated macrophages on the BBB in vitro.

Results: The ST2 receptor was expressed in brain ECs, microglia, and infiltrating macrophages. Global KO of ST2 led to more IgG extravasation and loss of ZO-1 in cerebral microvessels 3 days post-tMCAO. Intranasal IL-33 administration reduced BBB leakage and infarct severity in microglia/macrophage competent mice, but not in microglia/macrophage depleted mice. Worse BBB injury was observed after tMCAO in chimeric WT mice reconstituted with ST2 KO bone marrow, and in WT mice whose monocytes were replaced by ST2 KO monocytes. Macrophages treated with IL-33 reduced in vitro barrier leakage and maintained tight junction integrity after OGD. In contrast, IL-33 exerted minimal direct effects on the endothelial barrier in the absence of macrophages. IL-33-treated macrophages demonstrated transcriptional upregulation of an array of protective factors, suggesting a shift towards favorable phenotypes.

Conclusion: Our results demonstrate that early-stage IL-33/ST2 signaling in infiltrating macrophages reduces the extent of acute BBB disruption after stroke. Intranasal IL-33 administration may represent a new strategy to reduce BBB leakage and infarct severity.

单核细胞衍生巨噬细胞中的 IL-33/ST2 信号可维持血脑屏障的完整性并限制缺血性脑卒中后早期的脑梗塞。
背景:脑小胶质细胞和浸润的单核细胞衍生巨噬细胞对中风后保护血管完整性至关重要。了解诱导免疫细胞采用血管保护表型的机制可加速中风治疗方法的开发。IL-33 是中风后中枢神经系统胶质细胞等受损细胞释放的一种强效趋化因子。事实证明,IL-33/ST2 信号的激活可促进缺血性中风后神经元的活力和白质的完整性。然而,IL-33/ST2 对血脑屏障(BBB)完整性的影响仍然未知。本研究填补了这一空白,揭示了IL-33/ST2信号在中风后巨噬细胞介导的血脑屏障保护中的关键作用:方法:对野生型(WT)和 ST2 基因敲除(KO)雄性小鼠分别进行瞬时大脑中动脉闭塞(tMCAO)以诱导缺血性中风。给 tMCAO 小鼠鼻内注射 IL-33 或不注射 PLX5622 以消耗小胶质细胞/巨噬细胞。ST2 KO 与 WT 骨髓或巨噬细胞移植被用来测试 ST2+ 巨噬细胞参与 BBB 的完整性。在氧气-葡萄糖剥夺(OGD)后,将巨噬细胞与脑内皮细胞(ECs)共培养在转孔中,以测试经IL33处理的巨噬细胞在体外对BBB的潜在直接影响:结果:ST2受体在脑EC、小胶质细胞和浸润巨噬细胞中均有表达。ST2 的全局性 KO 会导致更多的 IgG 外渗,并在 TMCAO 后 3 天导致脑微血管中 ZO-1 的缺失。鼻内注射IL-33可减少小胶质细胞/巨噬细胞能力小鼠的BBB渗漏和梗死严重程度,但不能减少小胶质细胞/巨噬细胞耗竭小鼠的BBB渗漏和梗死严重程度。用 ST2 KO 骨髓重组的嵌合 WT 小鼠和单核细胞被 ST2 KO 单核细胞取代的 WT 小鼠在 tMCAO 后观察到更严重的 BBB 损伤。用 IL-33 处理的巨噬细胞减少了体外屏障渗漏,并维持了 OGD 后紧密连接的完整性。相比之下,在没有巨噬细胞的情况下,IL-33 对内皮屏障的直接影响微乎其微。经 IL-33 处理的巨噬细胞表现出一系列保护因子的转录上调,这表明巨噬细胞向有利的表型转变:我们的研究结果表明,浸润巨噬细胞的早期 IL-33/ST2 信号传导可降低中风后急性 BBB 的破坏程度。鼻内注射 IL-33 可能是减少 BBB 渗漏和梗死严重程度的一种新策略。
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来源期刊
Journal of Neuroinflammation
Journal of Neuroinflammation 医学-神经科学
CiteScore
15.90
自引率
3.20%
发文量
276
审稿时长
1 months
期刊介绍: The Journal of Neuroinflammation is a peer-reviewed, open access publication that emphasizes the interaction between the immune system, particularly the innate immune system, and the nervous system. It covers various aspects, including the involvement of CNS immune mediators like microglia and astrocytes, the cytokines and chemokines they produce, and the influence of peripheral neuro-immune interactions, T cells, monocytes, complement proteins, acute phase proteins, oxidative injury, and related molecular processes. Neuroinflammation is a rapidly expanding field that has significantly enhanced our knowledge of chronic neurological diseases. It attracts researchers from diverse disciplines such as pathology, biochemistry, molecular biology, genetics, clinical medicine, and epidemiology. Substantial contributions to this field have been made through studies involving populations, patients, postmortem tissues, animal models, and in vitro systems. The Journal of Neuroinflammation consolidates research that centers around common pathogenic processes. It serves as a platform for integrative reviews and commentaries in this field.
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