铁离子增强激活小胶质细胞中 NADPH 氧化酶活性氧的释放，导致体外氧化应激。

Iron accentuated reactive oxygen species release by NADPH oxidase in activated microglia contributes to oxidative stress in vitro.

机构信息

Neuroscience Graduate Program, Uniformed Services University of the Health Sciences, Room C2099, 4301 Jones Bridge Road, Bethesda, MD, 20814, USA.

Department of Anatomy, Physiology, and Genetics, Uniformed Services University of the Health Sciences, Room C2099, 4301 Jones Bridge Road, Bethesda, MD, 20814, USA.

出版信息

J Neuroinflammation. 2019 Feb 18;16(1):41. doi: 10.1186/s12974-019-1430-7.

DOI:10.1186/s12974-019-1430-7

PMID:30777083

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6378754/

Abstract

BACKGROUND

Excessive iron contributes to oxidative stress after central nervous system injury. NADPH oxidase (NOX) enzymes are upregulated in microglia after pro-inflammatory activation and contribute to oxidative stress. The relationship between iron, microglia, NOX, and oxidative stress is currently unclear.

METHODS

We evaluated the effects of iron on lipopolysaccharide (LPS)-activated microglia and its secondary effect within neuronal co-cultures. Further, NOX2 and four specific inhibitors were tested to evaluate the relationship with the reactive oxygen species (ROS)-producing enzymes.

RESULTS

An iron dose-dependent increase in ROS production among microglia treated with LPS was identified. Interestingly, despite this increase in ROS, inflammatory polarization alterations were not detected among the microglia after exposure to iron and LPS. Co-culture experimentation between primary neurons and exposed microglia (iron and LPS) significantly reduced neuronal cell number at 24 h, suggesting a profound neurotoxic effect despite the lack of a change in polarization phenotype. NOX2 and NOX4 inhibition significantly reduced ROS production among microglia exposed to iron and LPS and reduced neuronal damage and death in response to microglial co-culture.

CONCLUSIONS

In conclusion, iron significantly increased ROS production and neurotoxicity without exacerbating LP-activated microglia phenotype in vitro, suggesting that iron contributes to microglia-related oxidative stress, and this may be a viable therapeutic target for injury or neurodegeneration. Further, this study highlights both NOX2 and NOX4 as potential therapeutic targets in the treatment of iron-induced microglia-related inflammation and neurotoxicity.

摘要

背景

中枢神经系统损伤后，过量的铁会导致氧化应激。促炎激活后，小胶质细胞中的 NADPH 氧化酶（NOX）酶上调，并导致氧化应激。铁、小胶质细胞、NOX 和氧化应激之间的关系目前尚不清楚。

方法

我们评估了铁对脂多糖（LPS）激活的小胶质细胞的影响及其在神经元共培养物中的次级效应。此外，还测试了 NOX2 和四种特定抑制剂，以评估其与产生活性氧（ROS）的酶之间的关系。

结果

在 LPS 处理的小胶质细胞中，发现 ROS 产生呈铁剂量依赖性增加。有趣的是，尽管 ROS 增加，但暴露于铁和 LPS 后的小胶质细胞中并未检测到炎症极化改变。原代神经元与暴露的小胶质细胞（铁和 LPS）之间的共培养实验表明，神经元细胞数量在 24 小时内显著减少，尽管极化表型没有改变，但这表明存在严重的神经毒性作用。NOX2 和 NOX4 抑制显著降低了暴露于铁和 LPS 的小胶质细胞中 ROS 的产生，并减少了小胶质细胞共培养物中神经元的损伤和死亡。

结论

总之，铁显著增加了 ROS 的产生和神经毒性，而没有加剧体外 LP 激活的小胶质细胞表型，这表明铁有助于小胶质细胞相关的氧化应激，这可能是损伤或神经退行性变的一个可行的治疗靶点。此外，本研究强调了 NOX2 和 NOX4 作为治疗铁诱导的小胶质细胞相关炎症和神经毒性的潜在治疗靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8182/6378754/bcbeff6f1760/12974_2019_1430_Fig1_HTML.jpg

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铁离子增强激活小胶质细胞中 NADPH 氧化酶活性氧的释放，导致体外氧化应激。

Iron accentuated reactive oxygen species release by NADPH oxidase in activated microglia contributes to oxidative stress in vitro.

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