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甜菜碱恢复了多发性硬化症的杯状朊病毒小鼠模型中的表观遗传控制,并支持神经元线粒体。

Betaine restores epigenetic control and supports neuronal mitochondria in the cuprizone mouse model of multiple sclerosis.

机构信息

Department of Biological Sciences, School of Biomedical Sciences, Kent State University , Kent, OH, USA.

Department of Pharmaceutical Sciences, NEOMED , Rootstown, OH, USA.

出版信息

Epigenetics. 2020 Aug;15(8):871-886. doi: 10.1080/15592294.2020.1735075. Epub 2020 Mar 9.

DOI:10.1080/15592294.2020.1735075
PMID:32096676
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7518703/
Abstract

Methionine metabolism is dysregulated in multiple sclerosis (MS). The methyl donor betaine is depleted in the MS brain where it is linked to changes in levels of histone H3 trimethylated on lysine 4 (H3K4me3) and mitochondrial impairment. We investigated the effects of replacing this depleted betaine in the cuprizone mouse model of MS. Supplementation with betaine restored epigenetic control and alleviated neurological disability in cuprizone mice. Betaine increased the methylation potential (SAM/SAH ratio), levels of H3K4me3, enhanced neuronal respiration, and prevented axonal damage. We show that the methyl donor betaine and the betaine homocysteine methyltransferase (BHMT) enzyme can act in the nucleus to repair epigenetic control and activate neuroprotective transcriptional programmes. ChIP-seq data suggest that BHMT acts on chromatin to increase the SAM/SAH ratio and histone methyltransferase activity locally to increase H3K4me3 and activate gene expression that supports neuronal energetics. These data suggest that the methyl donor betaine may provide neuroprotection in MS where mitochondrial impairment damages axons and causes disability.

摘要

蛋氨酸代谢在多发性硬化症(MS)中失调。甲基供体甜菜碱在 MS 大脑中耗竭,与组蛋白 H3 赖氨酸 4 三甲基化(H3K4me3)水平的变化和线粒体损伤有关。我们研究了在脱髓鞘模型中补充这种耗尽的甜菜碱的效果。用甜菜碱补充可以恢复表观遗传控制,并缓解脱髓鞘模型小鼠的神经功能障碍。甜菜碱增加了甲基化潜能(SAM/SAH 比值)、H3K4me3 水平,增强了神经元呼吸,并防止了轴突损伤。我们表明,甲基供体甜菜碱和甜菜碱同型半胱氨酸甲基转移酶(BHMT)可以在核内发挥作用,修复表观遗传控制,并激活神经保护转录程序。ChIP-seq 数据表明,BHMT 作用于染色质以增加 SAM/SAH 比值和组蛋白甲基转移酶活性,从而增加 H3K4me3 并激活支持神经元能量代谢的基因表达。这些数据表明,甲基供体甜菜碱可能在 MS 中提供神经保护,其中线粒体损伤会损害轴突并导致残疾。

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