Perineuronal nets are phagocytosed by MMP-9 expressing microglia and astrocytes in the SOD1G93A ALS mouse model.

IF 4 2区 医学 Q1 CLINICAL NEUROLOGY Neuropathology and Applied Neurobiology Pub Date : 2024-06-01 DOI:10.1111/nan.12982
Sang Won Cheung, Ekta Bhavnani, David G Simmons, Mark C Bellingham, Peter G Noakes
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Abstract

Aims: Perineuronal nets (PNNs) are an extracellular matrix structure that encases excitable neurons. PNNs play a role in neuroprotection against oxidative stress. Oxidative stress within motor neurons can trigger neuronal death, which has been implicated in amyotrophic lateral sclerosis (ALS). We investigated the spatio-temporal timeline of PNN breakdown and the contributing cellular factors in the SOD1G93A strain, a fast-onset ALS mouse model.

Methods: This was conducted at the presymptomatic (P30), onset (P70), mid-stage (P130), and end-stage disease (P150) using immunofluorescent microscopy, as this characterisation has not been conducted in the SOD1G93A strain.

Results: We observed a significant breakdown of PNNs around α-motor neurons in the ventral horn of onset and mid-stage disease SOD1G93A mice compared with wild-type controls. This was observed with increased numbers of microglia expressing matrix metallopeptidase-9 (MMP-9), an endopeptidase that degrades PNNs. Microglia also engulfed PNN components in the SOD1G93A mouse. Further increases in microglia and astrocyte number, MMP-9 expression, and engulfment of PNN components by glia were observed in mid-stage SOD1G93A mice. This was observed with increased expression of fractalkine, a signal for microglia engulfment, within α-motor neurons of SOD1G93A mice. Following PNN breakdown, α-motor neurons of onset and mid-stage SOD1G93A mice showed increased expression of 3-nitrotyrosine, a marker for protein oxidation, which could render them vulnerable to death.

Conclusions: Our observations suggest that increased numbers of MMP-9 expressing glia and their subsequent engulfment of PNNs around α-motor neurons render these neurons sensitive to oxidative damage and eventual death in the SOD1G93A ALS model mouse.

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在 SOD1G93A ALS 小鼠模型中,神经元周围网被表达 MMP-9 的小胶质细胞和星形胶质细胞吞噬。
目的:神经元周围网(PNN)是一种包裹可兴奋神经元的细胞外基质结构。神经元周围网在保护神经元免受氧化应激方面发挥作用。运动神经元内的氧化应激可引发神经元死亡,这与肌萎缩性脊髓侧索硬化症(ALS)有关。我们研究了 SOD1G93A 品系(一种快速发病的 ALS 小鼠模型)中 PNN 分解的时空时间线以及导致 PNN 分解的细胞因素:方法:在SOD1G93A品系小鼠的症状前(P30)、发病期(P70)、中期(P130)和疾病末期(P150)使用免疫荧光显微镜进行观察,因为在SOD1G93A品系中还没有进行过这种特征描述:结果:与野生型对照组相比,我们观察到 SOD1G93A 发病小鼠和疾病中期小鼠腹侧角 α 运动神经元周围的 PNN 明显减少。小胶质细胞表达基质金属肽酶-9(MMP-9)(一种降解 PNN 的内肽酶)的数量增加,也能观察到这一现象。SOD1G93A 小鼠的小胶质细胞也吞噬了 PNN 成分。在 SOD1G93A 小鼠的中期阶段,观察到小胶质细胞和星形胶质细胞的数量、MMP-9 的表达以及胶质细胞对 PNN 成分的吞噬进一步增加。在 SOD1G93A 小鼠的 α 运动神经元中,小胶质细胞吞噬信号 fractalkine 的表达也有所增加。PNN破裂后,SOD1G93A小鼠发病期和中期的α运动神经元显示蛋白氧化标志物3-硝基酪氨酸的表达增加,这可能使它们容易死亡:我们的观察结果表明,在 SOD1G93A ALS 模型小鼠中,表达 MMP-9 的神经胶质细胞数量增加,随后吞噬了 α 运动神经元周围的 PNNs,导致这些神经元对氧化损伤敏感并最终死亡。
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来源期刊
CiteScore
8.20
自引率
2.00%
发文量
87
审稿时长
6-12 weeks
期刊介绍: Neuropathology and Applied Neurobiology is an international journal for the publication of original papers, both clinical and experimental, on problems and pathological processes in neuropathology and muscle disease. Established in 1974, this reputable and well respected journal is an international journal sponsored by the British Neuropathological Society, one of the world leading societies for Neuropathology, pioneering research and scientific endeavour with a global membership base. Additionally members of the British Neuropathological Society get 50% off the cost of print colour on acceptance of their article.
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