阻断血小板驱动的 CXCL7-CXCR1/2 炎症轴可预防小鼠脑动脉瘤的形成和破裂

IF 3.8 2区 医学 Q1 CLINICAL NEUROLOGY
Kamil W Nowicki, Aditya Mittal, Joseph S Hudson, Michael P D'Angelo, Michael M McDowell, Catherine Cao, Rohit Mantena, Abhishek Jauhari, Robert M Friedlander
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引用次数: 0

摘要

血小板聚集与血管炎症密切相关,常见于脑动脉瘤的常规组织学研究中。血小板被激活后会增强中性粒细胞的反应和促炎症级联反应。研究发现,血小板-中性粒细胞复合物会通过正反馈循环加重动脉粥样硬化。我们假设,针对血小板聚集和下游炎症可以用来预防动脉瘤的形成和发展。首先,我们在之前描述的颅内动脉瘤模型中,通过颈动脉结扎、高血压和立体定向弹性蛋白酶注射诱导 C57BL/6 小鼠形成脑动脉瘤,并分析血管的病变和血栓形成。利用 Raybiotech 细胞因子阵列分析了诱导小鼠动脉瘤中的 96 种细胞因子和人体组织样本中的 120 种细胞因子。然后研究了用 IgG2 抗体(对照组)、抗 GpIb 抗体(血小板耗竭)、1:10 DMSO:PBS (对照组)、氯吡格雷、抗 CXCR1/2 小分子抑制剂或抗 CXCL7 抗体处理的动物的脑动脉瘤形成和炎症途径。出血试验和流式细胞术用于评估处理组的血小板功能。CD31 +血小板聚集是人类和小鼠脑动脉瘤标本的共同特征。对小鼠进行血小板消融可防止脑动脉瘤的形成(20% 对对照抗体处理小鼠的 100%,n = 5,p = 0.0476)。用 1 毫克/千克氯吡格雷治疗的小鼠出现动脉瘤的比例明显低于对照组(分别为 18% 对 73%,n = 11 和 11,p = 0.03)。使用 Raybiotech 阵列对 96 种不同细胞因子进行的半定量分析显示,与对照组相比,小鼠脑动脉瘤中 CXCL7 蛋白表达量增加。使用氯吡格雷治疗会导致检测到的 CXCL7 相互减少。用 10 mg/kg reparixin(CXCR1/2 拮抗剂)靶向 CXCL7-CXCR1/2 轴可显著减少脑动脉瘤的形成(11% vs 73%,n = 9 和 11,p = 0.0098),而用 10 mg/kg SB225002 治疗往往会减少动脉瘤的形成(36% vs 73%,n = 11 vs n = 7,p = 0.11)。最后,使用 100 微克/毫升的抗 CXCL7 抗体对 CXCL7 进行特异性抗体阻断可显著减少脑动脉瘤的形成(29% vs 75%,n = 7 vs n = 8,p = 0.046)。血小板炎症在脑动脉瘤形成中起着重要作用。针对血小板 CXCL7-CXCR1/2 炎症轴的小分子抑制剂可用于预防脑动脉瘤的形成或恶化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Blockade of the Platelet-Driven CXCL7-CXCR1/2 Inflammatory Axis Prevents Murine Cerebral Aneurysm Formation and Rupture.

Platelet aggregation is intimately associated with vascular inflammation and is commonly seen on routine histology studies of cerebral aneurysms. Platelets, when activated, have been shown to augment neutrophil response and the pro-inflammatory cascade. Platelet-neutrophil complexes have been found to aggravate atherosclerosis through a positive feedback loop. We hypothesized that targeting platelet aggregation and downstream inflammation could be used to prevent aneurysm formation and progression. First, we induced cerebral aneurysm formation in a previously described intracranial aneurysm model via carotid artery ligation, hypertension, and stereotactic elastase injection in C57BL/6 mice and analyzed vessels for lesion and thrombus formation. Raybiotech cytokine arrays were used to analyze 96 cytokines in induced murine aneurysms and 120 cytokines in human tissue samples. Cerebral aneurysm formation and inflammatory pathway were then studied in animals treated with IgG2 antibody (control), anti-GpIb antibody (platelet depletion), 1:10 DMSO:PBS (control), clopidogrel, anti-CXCR1/2 small molecule inhibitor, or anti-CXCL7 antibody. Bleeding assays and flow cytometry were used to evaluate platelet function in treated groups. CD31 + platelet aggregates are a common feature in human and mouse cerebral aneurysm specimens. Platelet ablation in mice prevents cerebral aneurysm formation (20% vs 100% in control antibody-treated mice, n = 5 each, p = 0.0476). Mice treated with 1 mg/kg clopidogrel develop significantly less aneurysms than controls (18% vs 73%, n = 11 and 11, respectively, p = 0.03). Semi-quantitative analysis of 96 different cytokines using Raybiotech arrays shows increased protein expression of CXCL7 in murine cerebral aneurysms when compared to controls. Treatment with clopidogrel results in reciprocal decrease in detected CXCL7. Targeting CXCL7-CXCR1/2 axis with 10 mg/kg reparixin (CXCR1/2 antagonist) significantly decreases cerebral aneurysm formation (11% vs 73%, n = 9 and 11, p = 0.0098) while treatment with 10 mg/kg SB225002 tends to decrease aneurysm formation (36% vs 73%, n = 11 vs n = 7, p = 0.11). Lastly, specific antibody blockade against CXCL7 using anti-CXCL7 antibody at 100 ug/mL significantly decreases cerebral aneurysm formation (29% vs 75%, n = 7 vs n = 8, p = 0.046). Platelet inflammation has an important role in cerebral aneurysm formation. Small molecule inhibitors targeting platelet CXCL7-CXCR1/2 inflammatory axis could be used to prevent cerebral aneurysm formation or progression.

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来源期刊
Translational Stroke Research
Translational Stroke Research CLINICAL NEUROLOGY-NEUROSCIENCES
CiteScore
13.80
自引率
4.30%
发文量
130
审稿时长
6-12 weeks
期刊介绍: Translational Stroke Research covers basic, translational, and clinical studies. The Journal emphasizes novel approaches to help both to understand clinical phenomenon through basic science tools, and to translate basic science discoveries into the development of new strategies for the prevention, assessment, treatment, and enhancement of central nervous system repair after stroke and other forms of neurotrauma. Translational Stroke Research focuses on translational research and is relevant to both basic scientists and physicians, including but not restricted to neuroscientists, vascular biologists, neurologists, neuroimagers, and neurosurgeons.
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