慢性酒精暴露中的神经炎症反应和血脑屏障损伤:嘌呤能 P2X7 受体信号的作用

Namdev S Togre, Naveen Melaka, Priyanka Bhoj, Nikhita Mogadala, Malika Winfield, Jayshil Trivedi, Deborah Grove, Sudhir Kotnala, Slava Rom, Uma Sri, Yuri Persidsky
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引用次数: 0

摘要

摘要 酒精会导致神经炎症和血脑屏障(BBB)损伤,从而造成神经功能损害。我们以前曾证实,乙醇诱导的人脑内皮细胞屏障功能破坏与线粒体损伤、ATP 和细胞外囊泡 (EV) 释放增加以及嘌呤能受体 P2X7R 激活有关。因此,我们旨在评估阻断 P2X7r 对暴露于乙醇的小鼠外周和神经炎症的影响。在慢性间歇性乙醇(CIE)暴露小鼠模型中,我们采用了两种不同的方法抑制 P2X7R:亮蓝 G (BBG) 或基因敲除。我们评估了血液乙醇浓度(BEC)、血浆 P2X7R 和 P-gp、细胞外囊泡(EV)数量、血清 ATP 和 EV-ATP 水平。脑微血管基因表达和EV mtDNA拷贝数分别通过RT2 PCR阵列和数字PCR检测。脑微血管的RT2 PCR阵列显示,在CIE暴露的动物中,参与细胞凋亡、血管舒张和血小板活化的促炎基因显著上调,而在BBG处理的CIE暴露动物中,这些基因上调减少了15-50倍。CIE暴露动物的血浆P-gp水平和血清P2X7R脱落显著增加。药物或基因抑制P2X7R可将P2X7R脱落降至与对照组相同的水平。抑制P2X7R后,暴露于CIE的小鼠体内EV数量和EV-ATP含量的增加明显减少。CIE小鼠的EV-mtDNA拷贝数增加,而P2X7R抑制或受体敲除后EV中的拷贝数减少。这些观察结果表明,P2X7R 信号在乙醇诱导的脑损伤中起着关键作用。eATP、EV-ATP、EV数量和EV-mtDNA拷贝数的增加凸显了酒精暴露期间通过P2X7R和生物标志物造成脑损伤的新机制。在这项研究中,我们首次报告了 P2X7R 信号在体内参与 CIE 诱导的脑损伤。
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Neuroinflammatory Responses and Blood–Brain Barrier Injury in Chronic Alcohol Exposure: Role of Purinergic P2X7 Receptor Signaling
Abstract Alcohol consumption leads to neuroinflammation and blood‒brain barrier (BBB) damage, resulting in neurological impairment. We previously demonstrated that ethanol-induced disruption of barrier function in human brain endothelial cells was associated with mitochondrial injury, increased ATP and extracellular vesicle (EV) release, and purinergic receptor P2X7R activation. Therefore, we aimed to evaluate the effect of P2X7r blockade on peripheral and neuro-inflammation in EtOH-exposed mice. In a chronic intermittent ethanol (CIE)-exposed mouse model, P2X7R was inhibited by two different methods: Brilliant Blue G (BBG) or gene knockout. We assessed blood ethanol concentration (BEC), plasma P2X7R and P-gp, number of extra-cellular vesicles (EV), serum ATP and EV-ATP levels. Brain microvessel gene expression and EV mtDNA copy numbers were measured by RT2 PCR array and digital PCR, respectively. A RT2 PCR array of brain microvessels revealed significant upregulation of proinflammatory genes involved in apoptosis, vasodilation, and platelet activation in CIE-exposed animals, which were decreased 15–50-fold in BBG-treated CIE-exposed animals. Plasma P-gp levels and serum P2X7R shedding were significantly increased in CIE-exposed animals. Pharmacological or genetic suppression of P2X7R decreased P2X7R shedding to levels equivalent to those in control group. The increase in EV number and EV-ATP content in the CIE-exposed mice was significantly reduced by P2X7R inhibition. CIE mice showed augmented EV-mtDNA copy numbers which were reduced in EVs after P2X7R inhibition or receptor knockout. These observations suggested that P2X7R signaling plays a critical role in ethanol-induced brain injury. Increased eATP, EV-ATP, EV numbers, and EV-mtDNA copy numbers highlight a new mechanism of brain injury during alcohol exposure via P2X7R and biomarkers of such damage. In this study, for the first time, we report the in vivo involvement of P2X7R signaling in CIE-induced brain injury.
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