将表观遗传失调、线粒体损伤和代谢功能障碍与 SBMA 运动神经元联系起来。
Linking epigenetic dysregulation, mitochondrial impairment, and metabolic dysfunction in SBMA motor neurons.
机构信息
Neurogenetics Branch, National Institute of Neurological Disorders and Stroke, NIH, Bethesda, Maryland, USA.
George Washington University, Institute of Biomedical Sciences, Washington, DC, USA.
出版信息
JCI Insight. 2020 Jul 9;5(13):136539. doi: 10.1172/jci.insight.136539.
Abstract
Spinal and bulbar muscular atrophy (SBMA) is a neuromuscular disorder caused by a polyglutamine expansion in the androgen receptor (AR). Using gene expression analysis and ChIP sequencing, we mapped transcriptional changes in genetically engineered patient stem cell-derived motor neurons. We found that transcriptional dysregulation in SBMA can occur through AR-mediated histone modification. We detected reduced histone acetylation, along with decreased expression of genes encoding compensatory metabolic proteins and reduced substrate availability for mitochondrial function. Furthermore, we found that pyruvate supplementation corrected this deficiency and improved mitochondrial function and SBMA motor neuron viability. We propose that epigenetic dysregulation of metabolic genes contributes to reduced mitochondrial ATP production. Our results show a molecular link between altered epigenetic regulation and mitochondrial metabolism that contributes to neurodegeneration.
摘要
脊髓延髓肌肉萎缩症(SBMA)是一种由雄激素受体(AR)中的多聚谷氨酰胺扩展引起的神经肌肉疾病。使用基因表达分析和 ChIP 测序,我们绘制了遗传工程患者干细胞衍生运动神经元中转录变化的图谱。我们发现,SBMA 中的转录失调可能通过 AR 介导的组蛋白修饰发生。我们检测到组蛋白乙酰化减少,同时编码代偿性代谢蛋白的基因表达减少,以及线粒体功能的底物可用性减少。此外,我们发现丙酮酸补充纠正了这种缺陷,改善了线粒体功能和 SBMA 运动神经元的活力。我们提出,代谢基因的表观遗传失调导致线粒体 ATP 产生减少。我们的结果表明,表观遗传调控和线粒体代谢之间存在分子联系,这有助于神经退行性变。
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