Sodium butyrate rescues dopaminergic cells from alpha-synuclein-induced transcriptional deregulation and DNA damage

生物 组蛋白 DNA损伤 细胞生物学 下调和上调 丁酸钠 组蛋白脱乙酰基酶 表观遗传学 乙酰化 多巴胺能 DNA修复 α-突触核蛋白 共核细胞病 基因表达调控 基因表达 转录调控 组蛋白脱乙酰基酶2 HDAC4型 DNA甲基化 基因 DNA 遗传学 帕金森病 神经科学 多巴胺 医学 病理 疾病
作者
Isabel Paiva,Raquel Pinho,Maria Angeliki S. Pavlou,Magali Hennion,Pauline Wales,Anna-Lena Schütz,Ashish Rajput,Éva M. Szegő,Cemil Kerimoglu,Ellen Gerhardt,A. Cristina Rego,André Fischer,Stefan Bonn,Tiago F. Outeiro
出处
期刊:Human Molecular Genetics [Oxford University Press]
卷期号:26 (12): 2231-2246 被引量:179
标识
DOI:10.1093/hmg/ddx114
摘要

Alpha-synuclein (aSyn) is considered a major culprit in Parkinson's disease (PD) pathophysiology. However, the precise molecular function of the protein remains elusive. Recent evidence suggests that aSyn may play a role on transcription regulation, possibly by modulating the acetylation status of histones. Our study aimed at evaluating the impact of wild-type (WT) and mutant A30P aSyn on gene expression, in a dopaminergic neuronal cell model, and decipher potential mechanisms underlying aSyn-mediated transcriptional deregulation. We performed gene expression analysis using RNA-sequencing in Lund Human Mesencephalic (LUHMES) cells expressing endogenous (control) or increased levels of WT or A30P aSyn. Compared to control cells, cells expressing both aSyn variants exhibited robust changes in the expression of several genes, including downregulation of major genes involved in DNA repair. WT aSyn, unlike A30P aSyn, promoted DNA damage and increased levels of phosphorylated p53. In dopaminergic neuronal cells, increased aSyn expression led to reduced levels of acetylated histone 3. Importantly, treatment with sodium butyrate, a histone deacetylase inhibitor (HDACi), rescued WT aSyn-induced DNA damage, possibly via upregulation of genes involved in DNA repair. Overall, our findings provide novel and compelling insight into the mechanisms associated with aSyn neurotoxicity in dopaminergic cells, which could be ameliorated with an HDACi. Future studies will be crucial to further validate these findings and to define novel possible targets for intervention in PD.
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