表观转录组 m6A RNA 修饰调节衰老和突触核蛋白病小鼠模型的突触功能

Avika Chopra, Mary Xylaki, Fanzheng Yin, Ricardo Castro-Hernandez, Madiha Merghani, Valentina Grande, Brit Mollenhauer, Andre Fischer, Tiago Fleming Outeiro
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摘要

N6-甲基腺苷(m6A)是真核生物 RNA 中最丰富和最保守的转录修饰,可调节 RNA 的命运。虽然 m6A 在哺乳动物大脑发育过程中的功能已被广泛研究,但其在突触可塑性、认知能力下降、运动功能或其他脑回路中的作用仍未得到充分探索。迄今为止,这种修饰在帕金森病(PD)和其他突触核蛋白病中的作用在很大程度上还不为人所知。在这里,我们研究了突触核蛋白病小鼠模型中的 m6A 表转录组。我们对年轻(3 个月)和年老(15 个月)的 A30P-aSyn 转基因小鼠(aSyn Tg)和 C57BL6 对照野生型(Wt)小鼠进行了 m6A RNA 免疫沉淀测序(meRIP-seq),以获得中脑的 m6A 表转录组。与年龄匹配的 Wt 小鼠相比,我们在 3 mo aSyn Tg 小鼠中观察到突触基因的高甲基化。随着年龄的增长,这种甲基化程度有所降低,突触基因的低甲基化程度越来越高。通过免疫荧光成像和生化分析,我们进一步研究了 m6A 调控酶的表达,包括 N6-腺苷甲基转移酶复合物催化亚基(METTL3);读者--YTH N6-甲基腺苷 RNA 结合蛋白(YTHDF1)和橡皮--脂肪量和肥胖相关蛋白(FTO)在 Wt 和 aSyn Tg 小鼠的皮层、纹状体、海马和小脑以及原代皮层神经元培养物中的表达。我们观察到,Wt 和 aSyn Tg 小鼠的 METTL3、YTHDF1 和 FTO 水平相似。有趣的是,在神经元培养物的细胞核和突触后区室中都发现了作者蛋白 METTL3。我们的研究结果表明,m6A RNA甲基化调控的改变可能与神经退行性变和老化有关,而且这种表转录组调控水平在突触中起着重要作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The epitranscriptomic m6A RNA modification modulates synaptic function in ageing and in a mouse model of synucleinopathy
N6-methyladenosine (m6A) is the most abundant and conserved transcriptional modification in eukaryotic RNA, regulating RNA fate. While the functions of m6A in the development of the mammalian brain have been extensively studied, its roles in synaptic plasticity, cognitive decline, motor function, or other brain circuits remain underexplored. To date, the role of this modification in Parkinson's disease (PD) and other synucleinopathies has been largely unknown. Here, we investigated the m6A epitranscriptome in a mouse model of synucleinopathy. We performed m6A RNA immunoprecipitation sequencing (meRIP-seq) to obtain the m6A epitranscriptome of the midbrain in young (3 mo) and aged (15 mo) A30P-aSyn transgenic mice (aSyn Tg) and C57BL6 control wild type (Wt) mice. We observed hypermethylation of synaptic genes in 3 mo aSyn Tg mice compared to age-matched Wt mice. This methylation was reduced during ageing, with synaptic genes becoming increasingly hypomethylated. Using immunofluorescence imaging alongside biochemical analysis, we further investigated the expression of m6A regulatory enzymes writer, N6-Adenosine-Methyltransferase Complex Catalytic Subunit (METTL3); reader, YTH N6-methyladenosine RNA-binding protein (YTHDF1); and eraser, fat mass and obesity-associated protein (FTO) in the cortex, striatum, hippocampus, and cerebellum of Wt and aSyn Tg mice, as well as in primary cortical neuronal cultures. We observed that the levels of METTL3, YTHDF1 and FTO were similar between Wt and aSyn Tg mice. Interestingly, the writer protein METTL3 was found in both the nucleus and in the post-synaptic compartment in neuronal cultures. Our findings suggest that alterations in the regulation of m6A RNA methylation may be associated with neurodegeneration and ageing and that this level of epitranscriptomic regulation plays a significant role at the synapse.
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