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肌萎缩侧索硬化症 SOD1(G93A)转基因模型脊髓运动神经元中 G-CSF 治疗后的基因表达变化。

Gene expression changes in spinal motoneurons of the SOD1(G93A) transgenic model for ALS after treatment with G-CSF.

机构信息

INSERM, U1118, Mécanismes Centraux et Péripheriques de la Neurodégénérescence Strasbourg, France ; UMRS1118, Fédération de Médecine Translationnelle de Strasbourg Université de Strasbourg, France.

Sygnis Bioscience GmbH & Co KG Heidelberg, Germany.

出版信息

Front Cell Neurosci. 2015 Jan 20;8:464. doi: 10.3389/fncel.2014.00464. eCollection 2014.

DOI:10.3389/fncel.2014.00464
PMID:25653590
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4299451/
Abstract

BACKGROUND

Amyotrophic lateral sclerosis (ALS) is an incurable fatal motoneuron disease with a lifetime risk of approximately 1:400. It is characterized by progressive weakness, muscle wasting, and death ensuing 3-5 years after diagnosis. Granulocyte-colony stimulating factor (G-CSF) is a drug candidate for ALS, with evidence for efficacy from animal studies and interesting data from pilot clinical trials. To gain insight into the disease mechanisms and mode of action of G-CSF, we performed gene expression profiling on isolated lumbar motoneurons from SOD1(G93A) mice, the most frequently studied animal model for ALS, with and without G-CSF treatment.

RESULTS

Motoneurons from SOD1(G93A) mice present a distinct gene expression profile in comparison to controls already at an early disease stage (11 weeks of age), when treatment was initiated. The degree of deregulation increases at a time where motor symptoms are obvious (15 weeks of age). Upon G-CSF treatment, transcriptomic deregulations of SOD1(G93A) motoneurons were notably restored. Discriminant analysis revealed that SOD1 mice treated with G-CSF has a transcriptom close to presymptomatic SOD1 mice or wild type mice. Some interesting genes modulated by G-CSF treatment relate to neuromuscular function such as CCR4-NOT or Prss12.

CONCLUSIONS

Our data suggest that G-CSF is able to re-adjust gene expression in symptomatic SOD1(G93A) motoneurons. This provides further arguments for G-CSF as a promising drug candidate for ALS.

摘要

背景

肌萎缩侧索硬化症(ALS)是一种无法治愈的致命运动神经元疾病,终生患病风险约为 1:400。其特征是进行性无力、肌肉萎缩,确诊后 3-5 年内死亡。粒细胞集落刺激因子(G-CSF)是 ALS 的候选药物,动物研究有疗效证据,初步临床试验也有有趣数据。为深入了解 G-CSF 的疾病机制和作用模式,我们对 SOD1(G93A)小鼠的腰椎运动神经元进行了基因表达谱分析,SOD1(G93A)小鼠是最常用于研究 ALS 的动物模型,有和没有 G-CSF 治疗。

结果

与对照组相比,SOD1(G93A)小鼠的运动神经元在疾病早期(11 周龄)就呈现出明显的基因表达谱差异,此时开始治疗。在运动症状明显(15 周龄)时,失调程度增加。经 G-CSF 治疗后,SOD1(G93A)运动神经元的转录组失调显著恢复。判别分析表明,经 G-CSF 治疗的 SOD1 小鼠的转录组与无症状 SOD1 小鼠或野生型小鼠接近。G-CSF 治疗调节的一些有趣基因与神经肌肉功能有关,如 CCR4-NOT 或 Prss12。

结论

我们的数据表明,G-CSF 能够重新调整症状性 SOD1(G93A)运动神经元的基因表达。这为 G-CSF 作为 ALS 有前途的候选药物提供了进一步的依据。

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