Guang-Jun Hu, Xiao-Yang Jiang, Si-Yu Du, Kun Zhang, Zhuo Chen
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Reactive oxygen species (ROS) levels, amyloid-Aβ (Aβ1-40/42) contents, and inflammatory factors (TNF-α, IL-6, IL-1β) in hippocampal tissues were measured using ROS kits and enzyme-linked immunosorbent assay (ELISA). Microglial activation in hippocampal tissues was observed under a fluorescence microscope. miR-107-5p's binding to TLR4 was predicted via the TargetScan database and confirmed through a dual-luciferase assay. miR-107-5p expression, along with TLR4, APOE, and TREM2 in hippocampal tissue homogenate, and NF-κB p65 protein expression in the nucleus and cytoplasm were assessed via RT-qPCR and Western blot. Overexpression of miR-107-5p ameliorated hippocampal neurological damage, oxidative stress, and immune responses. This was evidenced by improved enhanced learning/memory abilities, reduced Aβ1-40 and Aβ1-42 levels, diminished neuronal injuries, decreased ROS and TNF-α, IL-6, and IL-1β levels, increased APOE and TREM2 levels, and suppressed microglial activation. miR-107-5p directly targeted and inhibited TLR4 expression, leading to reduced nuclear translocation of NF-κB p65 in the NF-κB pathway. 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引用次数: 0
摘要
阿尔茨海默病(AD)是一种使人逐渐衰弱的神经退行性疾病,主要影响老年人。新的研究表明,microRNA(miRNA)在阿尔茨海默病的发病过程中起着一定的作用。本研究探讨了 miR-107-5p 对 AD 中神经损伤、氧化应激和免疫反应的影响。我们利用 APP/PS1 小鼠作为 AD 小鼠模型,C57BL/6 J 小鼠作为对照。AD小鼠接受agomir miR-107-5p(过表达miR-107-5p)或BAY11-7082(NF-κB通路抑制剂)治疗。我们通过莫里斯水迷宫测试评估了学习和记忆能力。使用苏木精-伊红、Nissl和TUNEL染色法评估组织病理学变化、海马神经元分布和细胞凋亡。使用ROS试剂盒和酶联免疫吸附试验(ELISA)检测海马组织中的活性氧(ROS)水平、淀粉样蛋白-Aβ(Aβ1-40/42)含量和炎症因子(TNF-α、IL-6、IL-1β)。miR-107-5p与TLR4的结合是通过TargetScan数据库预测的,并通过双荧光素酶试验得到了证实。miR-107-5p的表达以及TLR4、APOE和TREM2在海马组织匀浆中的表达,以及NF-κB p65蛋白在细胞核和细胞质中的表达都是通过RT-qPCR和Western印迹进行评估的。过表达 miR-107-5p 可改善海马神经损伤、氧化应激和免疫反应。miR-107-5p 直接靶向并抑制了 TLR4 的表达,从而减少了 NF-κB 通路中 NF-κB p65 的核转位。通过抑制 TLR4/NF-κB 通路,miR-107-5p 发挥了有益的作用,最终改善了 AD 小鼠的神经损伤、氧化应激和免疫反应。
miR-107-5p ameliorates neurological damage, oxidative stress, and immune responses in mice with Alzheimer's disease by suppressing the Toll-like receptor 4 (TLR4)/nuclear factor-kappaB(NF-κB) pathway
Alzheimer's disease (AD) is a progressively debilitating neurodegenerative condition primarily affecting the elderly. Emerging research suggests that microRNAs (miRNAs) play a role in the development of AD. This study investigates the impact of miR-107-5p on neurological damage, oxidative stress, and immune responses in AD. We utilized APP/PS1 mice as AD mouse models and C57BL/6 J mice as controls. AD mice received treatment with agomir miR-107-5p (to overexpress miR-107-5p) or BAY11-7082 (an NF-κB pathway inhibitor). We evaluated learning and memory abilities through the Morris water maze test. Histopathological changes, hippocampal neuron distribution, and apoptosis were assessed using hematoxylin–eosin, Nissl, and TUNEL staining. Reactive oxygen species (ROS) levels, amyloid-Aβ (Aβ1-40/42) contents, and inflammatory factors (TNF-α, IL-6, IL-1β) in hippocampal tissues were measured using ROS kits and enzyme-linked immunosorbent assay (ELISA). Microglial activation in hippocampal tissues was observed under a fluorescence microscope. miR-107-5p's binding to TLR4 was predicted via the TargetScan database and confirmed through a dual-luciferase assay. miR-107-5p expression, along with TLR4, APOE, and TREM2 in hippocampal tissue homogenate, and NF-κB p65 protein expression in the nucleus and cytoplasm were assessed via RT-qPCR and Western blot. Overexpression of miR-107-5p ameliorated hippocampal neurological damage, oxidative stress, and immune responses. This was evidenced by improved enhanced learning/memory abilities, reduced Aβ1-40 and Aβ1-42 levels, diminished neuronal injuries, decreased ROS and TNF-α, IL-6, and IL-1β levels, increased APOE and TREM2 levels, and suppressed microglial activation. miR-107-5p directly targeted and inhibited TLR4 expression, leading to reduced nuclear translocation of NF-κB p65 in the NF-κB pathway. Inhibition of the NF-κB pathway similarly improved neurological damage, oxidative stress, and immune response in AD mice. miR-107-5p exerts its beneficial effects by suppressing the TLR4/NF-κB pathway, ultimately ameliorating neurological damage, oxidative stress, and immune responses in AD mice.
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