在中风后抑郁大鼠模型中通过调节小胶质细胞极化靶向递送抗神经炎症的双重药物配方

Zhongyue Lv, Cui Zhao, Xiping Wu, Yinqi Chen, Cheng Zheng, Xiaoling Zhang, Yifei Xu, Lujia Zhu, Haifeng Wang, Guomin Xie, Wu Zheng
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引用次数: 0

摘要

脑卒中后抑郁(POSD)是脑卒中后常见的一种困难和最主要的情绪综合征,往往会导致不良后果。在本研究中,我们设计并研究了具有神经活性的塞拉司琼/三环素与巨噬细胞衍生的外泌体功能化聚乳酸(PLGA)纳米制剂(CMC-EXPL),以在大鼠 POSD 模型中实现增强的抗炎行为和类似抗抑郁剂的活性。POSD动物模型是在大脑中动脉闭塞(MCAO)术后通过慢性不可预知轻度应激(CUM)刺激过程建立的。通过组织病理学(H&E)检查和 Elisa 分析分别观察了神经元功能和抗炎行为。纳米制剂处理大鼠模型的抗抑郁活性通过开场和蔗糖偏好试验方法进行评估。通过流式细胞仪和 qRT-PCR 观察评估了微神经胶质细胞的极化。观察结果表明,制备的纳米制剂降低了 POSD 刺激大鼠模型的抑郁样活动,并减轻了大脑海马的神经元损伤和炎症反应。重要的是,制备的CMC-EXPL纳米制剂能有效阻止M1促炎极化,支持M2抗炎极化,这表明iNOS和CD86水平显著下降,Arg-1和CD206水平上升。CMC-EXPL纳米制剂可增强POSD大鼠的抗抑郁活性和功能能力,缓解脑部炎症,显示了其治疗POSD的潜力。
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Facile engineered macrophages-derived exosomes-functionalized PLGA nanocarrier for targeted delivery of dual drug formulation against neuroinflammation by modulation of microglial polarization in a post-stroke depression rat model.

Post-stroke depression (POSD) is a common difficulty and most predominant emotional syndrome after stroke often consequences in poor outcomes. In the present investigation, we have designed and studied the neurologically active celastrol/minocycline encapsulated with macrophages-derived exosomes functionalized PLGA nanoformulations (CMC-EXPL) to achieve enhanced anti-inflammatory behaviour and anti-depressant like activity in a Rat model of POSD. The animal model of POSD was established through stimulating process with chronic unpredictable mild stress (CUM) stimulations after procedure of middle cerebral artery occlusion (MCAO). Neuronal functions and Anti-inflammation behaviours were observed by histopathological (H&E) examination and Elisa analyses, respectively. The anti-depressive activity of the nanoformulations treated Rat models were evaluated by open-field and sucrose preference test methods. Microglial polarization was evaluated via flow-cytometry and qRT-PCR observations. The observed results exhibited that prepared nanoformulations reduced the POSD-stimulated depressive-like activities in rat models as well alleviated the neuronal damages and inflammatory responses in the cerebral hippocampus. Importantly, prepared CMC-EXPL nanoformulation effectively prevented the M1 pro-inflammatory polarization and indorsed M2 anti-inflammatory polarization, which indicates iNOS and CD86 levels significantly decreased and upsurged Arg-1 and CD206 levels. CMC-EXPL nanoformulation suggestively augmented anti-depressive activities and functional capability and also alleviated brain inflammation in POSD rats, demonstrating its therapeutic potential for POSD therapy.

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